PUBLIC SECTOR PLANT BREEDING IN A PRIVATIZING WORLD

OpenAIRE

Thirtle, Colin G.; Srinivasan, Chittur S.; Heisey, Paul W.

2001-01-01

Intellectual property protection, globalization, and pressure on public budgets in many industrialized countries have shifted the balance of plant breeding activity from the public to the private sector. Several economic factors influence the relative shares of public versus private sector plant breeding activity, with varying results over time, over country, and over crop. The private sector, for example, dominates corn breeding throughout the industrialized world, but public and private act...

The application of biotechnology in medicinal plants breeding research in China.

Science.gov (United States)

Huang, He-Ping; Li, Jin-Cai; Huang, Lu-Qi; Wang, Dian-Lei; Huang, Peng; Nie, Jiu-Sheng

2015-07-01

Breeding is not only an important area of medicinal plants research but also the foundation for the superior varieties acquirement of medicinal plants. The rise of modern biotechnology provides good opportunities and new means for medicinal plants breeding research in China. Biotechnology shows its technical advantages and new development prospects in breeding of new medicinal plants varieties with high and stable yield, good quality, as well as stress-resistance. In this paper, we describe recent advances, problems, and development prospects about the application of modern biotechnology in medicinal plants breeding research in China.

Application of Genomic Tools in Plant Breeding

OpenAIRE

Pérez-de-Castro, A.M.; Vilanova, S.; Cañizares, J.; Pascual, L.; Blanca, J.M.; Díez, M.J.; Prohens, J.; Picó, B.

2012-01-01

Plant breeding has been very successful in developing improved varieties using conventional tools and methodologies. Nowadays, the availability of genomic tools and resources is leading to a new revolution of plant breeding, as they facilitate the study of the genotype and its relationship with the phenotype, in particular for complex traits. Next Generation Sequencing (NGS) technologies are allowing the mass sequencing of genomes and transcriptomes, which is producing a vast array of genomic...

New biotechnology enhances the application of cisgenesis in plant breeding

Directory of Open Access Journals (Sweden)

Hongwei eHou

2014-08-01

Full Text Available Cisgenesis is genetic modification to transfer beneficial alleles from crossable species into a recipient plant. The donor genes transferred by cisgenesis are the same as those used in traditional breeding. It can avoid linkage drag, enhance the use of existing gene alleles. This approach combines traditional breeding techniques with modern biotechnology and dramatically speeds up the breeding process. This allows plant genomes to be modified while remaining plants within the gene pool. Therefore, cisgenic plants should not be assessed as transgenics for environmental impacts.

Current status and research of plant space mutation breeding

International Nuclear Information System (INIS)

Qiu Xinmian

2011-01-01

Plant space mutation breeding and discussed themechanism of plant space mutagenesis. The variations of organisms were induced by the comprehensive effects of high vacuum, microgravity,incense radiat ion and so on. The application of space mutation breeding and inheritance in specially good grmplasm material in China were well summarized. The prospects of space mutat ion breeding was described. The space mutagenesis will provided a new way for the future breeding. (author)

Plant breeding and genetics

Science.gov (United States)

The ultimate goal of plant breeding is to develop improved crops. Improvements can be made in crop productivity, crop processing and marketing, and/or consumer quality. The process of developing an improved cultivar begins with intercrossing lines with high performance for the traits of interest, th...

Microbiome selection could spur next-generation plant breeding strategies

Directory of Open Access Journals (Sweden)

Murali Gopal

2016-12-01

Full Text Available Plants, though sessile, have developed a unique strategy to counter biotic and abiotic stresses by symbiotically co-evolving with microorganisms and tapping into their genome for this purpose. Soil is the bank of microbial diversity from which a plant selectively sources its microbiome to suit its needs. Besides soil, seeds, which carry the genetic blueprint of plants during trans-generational propagation, are home to diverse microbiota that acts as the principal source of microbial inoculum in crop cultivation. Overall, a plant is ensconced both on the outside and inside with a diverse assemblage of microbiota. Together, the plant genome and the genes of the microbiota that the plant harbours in different plant tissues i.e the ‘plant microbiome’, form the holobiome which is now considered as unit of selection: ‘the holobiont’. The ‘plant microbiome’ not only helps plants to remain fit but also offers critical genetic variability, hitherto, not employed in the breeding strategy by plant breeders, who traditionally have exploited the genetic variability of the host for developing high yielding or disease tolerant or drought resistant varieties. This fresh knowledge of the microbiome, particularly of the rhizosphere, offering genetic variability to plants, opens up new horizons for breeding that could usher in cultivation of next-generation crops depending less on inorganic inputs, resistant to insect pest and diseases and resilient to climatic perturbations. We surmise, from ever increasing evidences, that plants and their microbial symbionts need to be co-propagated as life-long partners in future strategies for plant breeding.

Plant breeding and genetics newsletter. No. 7

International Nuclear Information System (INIS)

2001-07-01

This year seems to be very promising for the Plant Breeding and Genetic sub-Programme. At the demand of geneticists, plant breeders, and more recently molecular geneticists for information on released mutant varieties of specific crops, the FAO/IAEA Mutant Varieties Database (MVD) was transferred to the web site and is now available through Internet under the following URL: http://www-mvd.iaea.org. The idea to collect and transfer information on crop varieties developed with the use of mutation techniques to plant breeders ws conceived at almost the same time as the establishment of the Plant Breeding and Genetics Section (PBG), Joint FAO/IAEA Division. The first classified list of induced mutant varieties was presented by Sigurbjoernsson at the Pullman Symposium, and published in 1969. Since the first issue of the MBNL (May, 1972) information on newly released mutant varieties was published at the end of each issue under the title 'List of Mutant Varieties'. The full list of 2252 mutant varieties has been published in the Mutation Breeding Review No. 12 (December 2000) to close this period of collecting data on mutant varieties. Such condensed but full information on mutant varieties should help geneticists, molecular biologists and plant breeders to asses the value of mutation techniques in germplasm enhancement, and stimulate the use of induced variation

Does genomic selection have a future in plant breeding?

Science.gov (United States)

Jonas, Elisabeth; de Koning, Dirk-Jan

2013-09-01

Plant breeding largely depends on phenotypic selection in plots and only for some, often disease-resistance-related traits, uses genetic markers. The more recently developed concept of genomic selection, using a black box approach with no need of prior knowledge about the effect or function of individual markers, has also been proposed as a great opportunity for plant breeding. Several empirical and theoretical studies have focused on the possibility to implement this as a novel molecular method across various species. Although we do not question the potential of genomic selection in general, in this Opinion, we emphasize that genomic selection approaches from dairy cattle breeding cannot be easily applied to complex plant breeding. Copyright © 2013 Elsevier Ltd. All rights reserved.

Cisgenesis strongly improves introgression breeding and induced translocation breeding of plants

NARCIS (Netherlands)

Jacobsen, E.; Schouten, H.J.

2007-01-01

There are two ways for genetic improvement in classical plant breeding: crossing and mutation. Plant varieties can also be improved through genetic modification; however, the present GMO regulations are based on risk assessments with the transgenes coming from non-crossable species. Nowadays, DNA

The progress of mutation breeding for ornamental plants in China

International Nuclear Information System (INIS)

Jin Shouming

1994-02-01

In China, research on mutation breeding of ornamental plants was begun in the late 70's. In the past decade, about 40 plant species were tested, and hundreds of useful mutants were obtained. At least 63 mutant varieties have been produced, approved and released for cultivation in rose, chrysanthemum, canna, dahlia, bougainvillea and lotus. A rapid progress in methodology and technology of induced mutation breeding has been achieved, particularly in the selection of starting material, determination of suitable exposure and irradiation dose, expression and isolation of somatic mutation etc. In the future it is necessary to develop more plant species and mutation varieties to improve the mutation breeding method and to raise the economic benefit. Along with the development of China's economy and improvement of people's living standard more and more new varieties of ornamental plants will be required. In view of the good beginning, rich germplasm resource and favorable conditions, the prospect of mutation breeding for ornamental plants in China is very encouraging

Utilization of γ-irradiation technique on plant mutation breeding and plant growth regulation in Tokyo Metropolitan Isotope Research Center

International Nuclear Information System (INIS)

Suda, Hirokatsu

1997-01-01

During about 30-years, we have developed γ-irradiation technique and breeding back pruning method for the study of mutation breeding of ornamental plants. As a result, we have made a wide variety of new mutant lines in chrysanthemum, narcissus, begonia rex, begonia iron cross, winter daphne, zelkova, sweet-scented oleander, abelia, kobus, and have obtained 7 plant patents. By the use of γ-irradiation to plant mutation breeding, we often observed that plants irradiated by low dose of γ-rays showed superior or inferior growth than the of non-irradiated plants. Now, we established the irradiation conditions of γ-rays for mutation breeding and growth of regulation in narcissus, tulip, Enkianthus perulatus Schneid., komatsuna, moyashi, african violet. In most cases, irradiation dose rate is suggested to be a more important factor to induce plant growth regulators than irradiation dose. (author)

Will genomic selection be a practical method for plant breeding?

Science.gov (United States)

Nakaya, Akihiro; Isobe, Sachiko N

2012-11-01

Genomic selection or genome-wide selection (GS) has been highlighted as a new approach for marker-assisted selection (MAS) in recent years. GS is a form of MAS that selects favourable individuals based on genomic estimated breeding values. Previous studies have suggested the utility of GS, especially for capturing small-effect quantitative trait loci, but GS has not become a popular methodology in the field of plant breeding, possibly because there is insufficient information available on GS for practical use. In this review, GS is discussed from a practical breeding viewpoint. Statistical approaches employed in GS are briefly described, before the recent progress in GS studies is surveyed. GS practices in plant breeding are then reviewed before future prospects are discussed. Statistical concepts used in GS are discussed with genetic models and variance decomposition, heritability, breeding value and linear model. Recent progress in GS studies is reviewed with a focus on empirical studies. For the practice of GS in plant breeding, several specific points are discussed including linkage disequilibrium, feature of populations and genotyped markers and breeding scheme. Currently, GS is not perfect, but it is a potent, attractive and valuable approach for plant breeding. This method will be integrated into many practical breeding programmes in the near future with further advances and the maturing of its theory.

Cisgenesis: an important sub-invention for traditional plant breeding companies

NARCIS (Netherlands)

Jacobsen, E.; Schouten, H.J.

2009-01-01

Modern plant breeding is highly dependent on new technologies to master future problems. More traits have to be combined, frequently originating from wild species. Traditional breeding is connected with linkage drag problems. The crop plant itself and its crossable species represent the traditional

Plant breeding and genetics newsletter. No. 9

Energy Technology Data Exchange (ETDEWEB)

NONE

2002-07-01

There have been a number of important events related to the activity of the Plant Breeding and Genetics sub-programme in the past six months. The joint FAO/IAEA RCMs on 'Molecular characterization of mutated genes controlling important traits for seed crop improvement' and 'Mutational analysis of root characters in annual food plants related to plant performance' were held in June, in Krakow, Poland. It was the third RCM of the CRP on crop plant genomics and the second in the CRP on root systems. More than 40 scientists from twenty countries participated in the meeting. Significant progress was achieved in presented projects of diverse areas of both CRPs. Although genomics and root genetics are methodologically among the most rapidly developing disciplines, the participants successfully tried to follow the latest developments. The Consultants Meeting on 'Physical mapping technologies for the identification and characterization of mutated genes contributing to crop quality' was also held in June, in Vienna. Physical mapping technologies provide new tools for the rapid advancement of breeding programs and are highly applicable to neglected crops in developing countries. Furthermore, they open new opportunities for developing modern approaches to plant improvement research. Consultants recommended the organization of a Co-ordinated Research Project dealing with application of these new technologies to breeding programmes with the use of induced mutations for crop improvement. It is expected that the new CRP will be initiated this year. In close collaboration with EU COST 851 'Gametic cells and molecular breeding for crop improvement' project we started with preparation and editing of a book on 'Doubled haploid production in crop plants. A manual'. More than 40 manuscripts were collected, reviewed by a team of EU COST 851 experts and are now in the final editing phase. Similarly, we finished editorial work on publishing the training material from the FAO/IAEA Training

Plant breeding and genetics newsletter. No. 9

International Nuclear Information System (INIS)

2002-07-01

There have been a number of important events related to the activity of the Plant Breeding and Genetics sub-programme in the past six months. The joint FAO/IAEA RCMs on 'Molecular characterization of mutated genes controlling important traits for seed crop improvement' and 'Mutational analysis of root characters in annual food plants related to plant performance' were held in June, in Krakow, Poland. It was the third RCM of the CRP on crop plant genomics and the second in the CRP on root systems. More than 40 scientists from twenty countries participated in the meeting. Significant progress was achieved in presented projects of diverse areas of both CRPs. Although genomics and root genetics are methodologically among the most rapidly developing disciplines, the participants successfully tried to follow the latest developments. The Consultants Meeting on 'Physical mapping technologies for the identification and characterization of mutated genes contributing to crop quality' was also held in June, in Vienna. Physical mapping technologies provide new tools for the rapid advancement of breeding programs and are highly applicable to neglected crops in developing countries. Furthermore, they open new opportunities for developing modern approaches to plant improvement research. Consultants recommended the organization of a Co-ordinated Research Project dealing with application of these new technologies to breeding programmes with the use of induced mutations for crop improvement. It is expected that the new CRP will be initiated this year. In close collaboration with EU COST 851 'Gametic cells and molecular breeding for crop improvement' project we started with preparation and editing of a book on 'Doubled haploid production in crop plants. A manual'. More than 40 manuscripts were collected, reviewed by a team of EU COST 851 experts and are now in the final editing phase. Similarly, we finished editorial work on publishing the training material from the FAO/IAEA Training

Report from the FAO/IAEA Plant Breeding and Genetics Section

Energy Technology Data Exchange (ETDEWEB)

NONE

1990-01-01

In 1989 we cared for 44 IAEA Technical Co-operation projects involving 35 developing countries and 64 different research institutions. Under the IAEA Research Contract Programme we had 70 active research contracts and 32 research agreements grouped into the following co-ordinated research programmes: use of induced mutations in connection with haploids and heterosis in cereals (1986-1991); improvement of rice and other cereals through mutation breeding in Latin America (1986-1991); use of induced mutation and in vitro culture techniques for improving crop plant resistance to diseases (1987-1992); mutation breeding of oil seed crops (1988-1993); improvement of root and tuber crops in tropical countries of Asia (1988-1993); in vitro mutation breeding of bananas and plantains (1988-1993); improvement of basic food crops in Africa through plant breeding, including the use of induced mutations (1989-1994). New research programmes cannot be started before 1991 when present ones are phasing out. The new research programmes could eventually deal with: domestication of new crop plants, improvement of industrial crops, the use of induced mutations to establish RFLP systems for genetic mapping and for mutant selection, the use of RFLP techniques for identification of induced genetic variation in vegetatively propagated plants and in vitro cultures, the control of plant virus diseases with the help of nuclear techniques. Project proposals on these topics are welcome, although their approval will depend upon the availability of funds. Six research co-ordination meetings were held in 1989 in Thailand (2), India, Austria, Chile and Italy. The Section was also actively involved in the 12th EUCARPIA Congress 'Science for Plant Breeding' (Goettingen, FRG, 27 February - 3 March) and in the 6th Congress of SABRAO 'Breeding Research: The Key to the Survival of the Earth' (Tsukuba, Japan, 21-25 August)

Sustainable organic plant breeding. Final report: a vision, choices, consequences and steps

NARCIS (Netherlands)

Lammerts van Bueren, E.T.; Hulscher, M.; Haring, M.; Jongerden, J.; Mansvelt, van J.D.; Nijs, den A.P.M.; Ruivenkamp, G.T.P.

1999-01-01

In general, the characteristics of organic varieties - and by extension of organic plant breeding - differ from that of conventional breeding systems and conventional varieties. Realising an organic plant breeding system and subsequently steering it to meet changing demands is no less than a mammoth

Ethnobotanic importance of plants used in pigeon-breeding in Eastern Spain.

Science.gov (United States)

Belda, Antonio; Cortés, Carolina; Peiró, Victoriano

2013-05-20

The importance that birds of the Columbidae family have had throughout history is visible on the Mediterranean coast. Pigeon fancying is the art of breeding and training carrier pigeons and currently, several breeds exist. The sport of racing pigeons consists in covering a distance at maximum possible speed. However, pigeon breeding has another modality called "sport pigeon", where several males follow a female. This study focusses on ethnobotanical knowledge of native and exotic plant species that are used for diet, breeding, stimulation, healing illnesses and staining the plumage of pigeons bred in captivity. Using semi-structured interviews, we gathered information about the different plant species traditionally used for pigeon-breeding in the region of Valencia. Background material on remedies for bird illnesses was gathered from folk botanical references, local books and journals.The plant species were collected in the study area, then identified in the laboratory using dichotomous keys and vouchered in the ABH (Herbarium of Alicante University). We used Excel (®) 2003 to perform a simple statistical analysis of the data collected. We collected 56 species of plants (and one variety) that included 29 botanical families. The total number of species was made up of 35 cultivated and 21 wild plants. The most common were Gramineae (14 species), Leguminosae (6 species), and Compositae (4 species). Pigeon breeding is an immensely popular activity in Eastern Spain, and ethnobiological knowledge about breeding pigeons and caring for them is considerable. The names and traditional uses of plants depend on their geographical location, vernacular names serve as an intangible heritage. Feeding, environmental features, and genetic makeup of individuals are relevant aspects in the maintenance of avian health.

Plant breeding and genetics newsletter. No. 3

International Nuclear Information System (INIS)

1999-06-01

This third issue of the Plant Breeding and Genetics Newsletter highlights forthcoming events including regional (Afra) training course on 'molecular characterization of genetic biodiversity in traditional and neglected crops selected for improvement through mutation techniques' and seminar on 'mutation techniques and biotechnology for tropical and subtropical plant improvement in Asia and Pacific regions'. Status of existing co-ordinated and technical co-operation research projects is also summarized

Application of genomic tools in plant breeding.

Science.gov (United States)

Pérez-de-Castro, A M; Vilanova, S; Cañizares, J; Pascual, L; Blanca, J M; Díez, M J; Prohens, J; Picó, B

2012-05-01

Plant breeding has been very successful in developing improved varieties using conventional tools and methodologies. Nowadays, the availability of genomic tools and resources is leading to a new revolution of plant breeding, as they facilitate the study of the genotype and its relationship with the phenotype, in particular for complex traits. Next Generation Sequencing (NGS) technologies are allowing the mass sequencing of genomes and transcriptomes, which is producing a vast array of genomic information. The analysis of NGS data by means of bioinformatics developments allows discovering new genes and regulatory sequences and their positions, and makes available large collections of molecular markers. Genome-wide expression studies provide breeders with an understanding of the molecular basis of complex traits. Genomic approaches include TILLING and EcoTILLING, which make possible to screen mutant and germplasm collections for allelic variants in target genes. Re-sequencing of genomes is very useful for the genome-wide discovery of markers amenable for high-throughput genotyping platforms, like SSRs and SNPs, or the construction of high density genetic maps. All these tools and resources facilitate studying the genetic diversity, which is important for germplasm management, enhancement and use. Also, they allow the identification of markers linked to genes and QTLs, using a diversity of techniques like bulked segregant analysis (BSA), fine genetic mapping, or association mapping. These new markers are used for marker assisted selection, including marker assisted backcross selection, 'breeding by design', or new strategies, like genomic selection. In conclusion, advances in genomics are providing breeders with new tools and methodologies that allow a great leap forward in plant breeding, including the 'superdomestication' of crops and the genetic dissection and breeding for complex traits.

Plant breeding and genetics newsletter. No. 11

International Nuclear Information System (INIS)

2003-07-01

Implementation of a new CRP on Physical mapping technologies for the identification and characterization of mutated genes contributing to crop quality, organization of mutant germplasm database and repository, implementation of new TC projects and activation of work on molecular characterization of Musa putative germplasm as well as sequencing of BAC clones were the major activities of our sub-Programme on Plant Breeding and Genetics during the last six months. A lot of work has been concentrated on organizing a mutant germplasm repository. The first collections of rice and linseed mutants have already arrived and their descriptions have been introduced into the mutated germplasm database. We found this activity especially important to stimulate exchange of crop germplasm among plant breeders. Similarly there is an urgent need to collect mutants of various crops as necessary material for functional genomics and germplasm enhancement. Nevertheless, many crop research institutes are initiating large-scale mutation programmes with the use of their own plant material. To help them in selecting the mutagen, doses and mutation treatment procedure, we published the third issue of Mutation Breeding Newsletter Index of No. 21-44. The Index is also available through our website http://www.iaea.org/programmes/nafa/d2/index.html. The numerous requests for issues of the Mutation Breeding Newsletter already received from various countries indicate the value of this 80-page index for plant breeders and research institutes. We were invited to present the activities, achievements and trends of our sub-Programme at two very important, international meetings: The International Conference on the Status of Plant and Animal Genome Research, known as the Plant and Animal Genome (PAG XI), and The International Congress on 'In the Wake of the Double Helix - From the Green Revolution to the Gene Revolution'. At this last meeting, an initiative was taken to organize the Crop Root Research

Natural transformation in plant breeding - a biotechnological platform for quality improvement of ornamental, agricultural and medicinal plants

DEFF Research Database (Denmark)

Lütken, Henrik Vlk; Hegelund, Josefine Nymark; Himmelboe, Martin

2015-01-01

Compactness is a desirable trait in ornamental plant breeding because it is preferred by producers, distributors and consumers. Presently, in ornamental plant production growth of many potted plants is regulated by application of chemical growth retardants, several of which are harmful to both...... (rol)-genes rolA, rolB, rolC and rolD among 18 ORFs, into the plant genome. Infection of plants by A. rhizogenes induces hairy roots, from which shoots containing rol-genes can be regenerated. Natural transformation with A. rhizogenes reveals very promising results in several plant species and can...... be useful in a broader range of application than ornamental breeding. One important aspect of this technology is that the hairy roots can be used directly in the selection proceß as a primary indicator of a succeßful transformation. Thus the technology avoids use of undesired antibiotic resistance marker...

On statistical selection in plant breeding

NARCIS (Netherlands)

Dourleijn, C.J.

1993-01-01

The ultimate goal of plant breeding is the development of new varieties. An important phase in the development process is testing and selecting potential new varieties. The varieties are tested by means of experiments at various sites, (sometimes) in several years. The observations from the

Report from the FAO/IAEA Plant Breeding and Genetics Section

International Nuclear Information System (INIS)

1989-01-01

Technology development is a pre-requisite for further success in practical applications of nuclear techniques in plant genetics and crop improvement. The Research Contract Programme of the IAEA is a good means to stimulate the needed technology development. Present FAO/IAEA Co-ordinated Research Programmes concentrate upon the incorporation of in-vitro culture techniques into mutation breeding projects: In cereals by doubled-haploids for accelerating mutation selection, in root and tuber crops by eliminating chimerism through somatic embryogenesis, in mutation breeding for disease resistance by attempting in-vitro selection using pathotoxins where applicable. The Plant Breeding Unit of the Agency's Seibersdorf Laboratory contributes particularly to the methodology of mutation induction by irradiation of plant material before or during in-vitro culture. Whether the FAO/IAEA Plant Breeding and Genetics Section should include already molecular genetics in its research and training programmes was the main question addressed to a Consultants' Meeting in November. The answer was definitely positive regarding the use of Restriction Fragment Length Polymorphism, but deferred other more sophisticated work recognizing the limited resources. Another new subject matter seriously considered now is the development of tracer techniques for the diagnosis of viruses, viroids and similar causal agents of plant diseases, which eventually could lead to better ways of distinguishing between resistance and susceptibility, particularly in vegetatively propagated and perennial crops. The resources for such work still have to be found. If resources become available, we would also like to start a co-ordinated research programme on domestication of plants for industrial purposes. Project proposals are welcome. As far as assistance to Member States is concerned, in 1988 we began to pay more attention to plant breeding problems in Africa. There was interaction with oil seed breeders during an

Analysis of Plant Breeding on Hadoop and Spark

Directory of Open Access Journals (Sweden)

Shuangxi Chen

2016-01-01

Full Text Available Analysis of crop breeding technology is one of the important means of computer-assisted breeding techniques which have huge data, high dimensions, and a lot of unstructured data. We propose a crop breeding data analysis platform on Spark. The platform consists of Hadoop distributed file system (HDFS and cluster based on memory iterative components. With this cluster, we achieve crop breeding large data analysis tasks in parallel through API provided by Spark. By experiments and tests of Indica and Japonica rice traits, plant breeding analysis platform can significantly improve the breeding of big data analysis speed, reducing the workload of concurrent programming.

Alternatives to Chromatography in Plant Breeding

Directory of Open Access Journals (Sweden)

Keusgen, Michael

2016-07-01

Full Text Available Wild plants were taken into cultivation because of special features. Usually, medicinal plants or spices show distinct secondary metabolites combined with a specific pattern of these compounds. Typically, chromatographic methods like gas chromatography (GC or high performance liquid chromatography (HPLC were applied as standard methods for a meaningful analysis of secondary metabolites. However, these methods are labor and time intensive. In the breeding process, usually numerous single plants have to be analyzed and therefore, high throughput methods are required. In this article, some examples for alternative strategies are given. Besides spectroscopic methods like near infrared (NIR, also biosensoric approaches should be considered. For instance, several enzymes can oxidize or hydrolyze secondary metabolites in dependence of their functional groups. Polyphenols can be determined by laccases. Polyphenols like catechins and flavonoids contribute to the bioactivity of many medicinal plants. Also cysteine sulfoxides, which are typical for Allium species like garlic and onions, can be enzymatically determined with high specificity. Finally, toxic cyanogenic glycosides can be quantified by the enzyme cyanidase.

Modern Breeding Methods for Improving Protein Quality and Quantity in Plants

Energy Technology Data Exchange (ETDEWEB)

Dumanovic, J.; Ehrenberg, L. [Institute for the Application of Nuclear Energy in Agriculture, Veterinary Medicine and Forestry, Belgrade, Yugoslavia (Serbia)

1968-07-01

Against the background of the world's urgent need for increased protein production and for an improved quality of vegetable proteins, the ability of plant breeding to contribute to this need is discussed. With examples especially from maize and wheat, existing variations in protein content and protein composition are surveyed, together with the interdependence of these characteristics and their co-variation with the yield. It is shown that plant breeding has a great potential for improving the world's food situation. It is also shown that more rapid achievements are possible than is generally considered to be characteristic of plant-breeding techniques. Special emphasis is stressed on: (a) The capacity of mutation breeding, alone and in conjunction with other methods, to contribute to an increased production of high quality protein; (b) The necessity for the success of programmes whereby fast, cheap, and if possible non-destructive analytical procedures are developed to determine protein and amino acids; (c) The importance of the close collaboration of plant breeders with specialists in related subjects such as soil fertilization, physiology and nutrition, food technology, and biochemistry; (d) The importance of international co-operation and co-ordination. (author)

Ethics of Plant Breeding: The IFOAM Basic Principles as a Guide for the Evolution of Organic Plant Breeding

NARCIS (Netherlands)

Lammerts Van Bueren, E.

2010-01-01

The basic values of organic agriculture is laid down in the IFOAM four basic principles: the principle of health, the principle of ecology, the principle of fairness and the principle of care. These principles and the consequences and challenges for the further development of organic plant breeding

Radiation-induced mutations and plant breeding

International Nuclear Information System (INIS)

Naqvi, S.H.M.

1985-01-01

Ionizing radiation could cause genetic changes in an organism and could modify gene linkages. The induction of mutation through radiation is random and the probability of getting the desired genetic change is low but can be increased by manipulating different parameters such as dose rate, physical conditions under which the material has been irradiated, etc. Induced mutations have been used as a supplement to conventional plant breeding, particularly for creating genetic variability for specific characters such as improved plant structure, pest and disease resistance, and desired changes in maturity period; more than 200 varieties of crop plants have been developed by this technique. The Pakistan Atomic Energy Commission has used this technique fruitfully to evolve better germplasm in cotton, rice, chickpea, wheat and mungbean; some of the mutants have become popular commercial varieties. This paper describes some uses of radiation induced mutations and the results achieved in Pakistan so far

Plant hygiene and resistance breeding as plant protection and cultivation methods in areas where emission levels are high

Energy Technology Data Exchange (ETDEWEB)

Berge, H

1967-01-01

If plants are to be used for human or animal consumption, phyto-hygiene is of great importance wherever there are significant amounts of emissions. Breeding resistant plants for technical use is important in regions where atmospheric influences such as gas, steam and dust are encountered. Besides the climatic, orographic, edaphic and chronologic conditions, biologic, chemic and physico-mechanic factors influence the incompatible conceptions of phyto-hygiene and resistance breeding. Several examples are quoted.

Plant breeding and genetics newsletter. No. 10

International Nuclear Information System (INIS)

2003-01-01

The most important event related to the activity of the Plant Breeding and Genetics sub-programme in the past six months was the 2nd FAO/IAEA Interregional Training Course on 'Mutant Germplasm Characterization using Molecular Markers' which was held at Seibersdorf, 4-29 November 2002. In addition to basic molecular and marker techniques, which were also a subject of the first training course last year, fluorescence in situ hybridisation methods were included in the teaching and demonstration programme. As we informed you in the last edition of this Newsletter, a laboratory manual was published with detailed protocols on molecular markers techniques entitled 'Mutant germplasm characterization using molecular markers. A Manual'. (IAEA Training Course Series No. 19). (available for free distribution under conditions provided on page 11 of this Newsletter). We have also finished editing a book on 'Doubled haploid production in crop plants. A Manual.' This book was prepared in close collaboration with EU COST 851 activities. Ken Kasha (Canada), Brian Forster (UK) and lwona Szarejko (Poland) helped to edit more than 40 protocols for doubled haploid production in at least 23 crop species. The preparation of this manual reflects our our interest in the development and application of this technology for crop improvement. Two CRPs and numerous Technical Co-operation projects greatly contributed to the development of doubled haploid methods and also to implementation of this technology in crop improvement programmes of many countries. Numerous other important activities have been undertaken by the Plant Breeding and Genetics sub-programme during the last 6 months. A consultants meeting on 'Low cost technology in plant tissue culture' was held in Vienna and its results will be summarized in the form of an IAEA-TECDOC which is now in the final stage of preparation. In addition to the implementation of five Co-ordinated Research Projects, nine workshops and national or regional

Plant breeding and genetics newsletter. No. 13

International Nuclear Information System (INIS)

2004-06-01

This issue reports on the creation of the Agency's Subprogramme of Sustainable Intensification of Crop Production Systems (E1) through the merger of the Soils and Plant Breeding and Genetics Subprogrammes together with part of the Entomology Subprogramme activities. Implementation of a new Coordinated Research Project (CRP) on the Effects of Mutagenic Agents on the DNA Sequence in Plants, and the successful submission of a new CRP proposal on Pyramiding of Mutated Genes Contributing to Crop Quality and Resistance to Stress Affecting Quality were among the major activities of our Subprogramme during the last six months. We actively participated in the International Year of Rice (IYR 2004) events such as the Meeting of the Informal International Working Group on the International Year of Rice (IIWG) and the FAO Rice Conference on Rice in Global Markets and Sustainable Production Systems (Rome, Italy), both in February this year. A lot of work has been concentrated this last semester on the preparation of Programme and Budget for the biennium 2006-2007 and the appraisal of TC proposals for the biennium 2005-2006. The Mutation Breeding Newsletter and the Mutation Breeding Review will merge to become the Mutation Breeding Newsletter and Reviews (MBN and R). Starting at the end of July, the MBN and R will appear on a regular basis

Participatory plant breeding and organic agriculture: A synergistic model for organic variety development in the United States

Directory of Open Access Journals (Sweden)

Adrienne C. Shelton

2016-12-01

Full Text Available Abstract Organic farmers require improved varieties that have been adapted to their unique soils, nutrient inputs, management practices, and pest pressures. One way to develop adapted varieties is to situate breeding programs in the environment of intended use, such as directly on organic farms, and in collaboration with organic farmers. This model is a form of participatory plant breeding, and was originally created in order to meet the needs of under-served, small-scale farmers in developing countries. A robust body of literature supports the quantitative genetic selection theory of participatory plant breeding, and helps to explain its increasing prevalence among organic breeding projects in the United States. The history of the organic farming movement in the United States highlights the cultural relevance of engaging organic farmers in the breeding process, complementing the biological rationale for participatory plant breeding. In addition, limited private investment in organic plant breeding encourages the involvement of plant breeders at public institutions. This paper synthesizes the biological, cultural, and economic justifications for utilizing participatory plant breeding as an appropriate methodology for organic cultivar development.

State of the science and challenges of breeding landscape plants with ecological function

Science.gov (United States)

Wilde, H Dayton; Gandhi, Kamal J K; Colson, Gregory

2015-01-01

Exotic plants dominate esthetically-managed landscapes, which cover 30–40 million hectares in the United States alone. Recent ecological studies have found that landscaping with exotic plant species can reduce biodiversity on multiple trophic levels. To support biodiversity in urbanized areas, the increased use of native landscaping plants has been advocated by conservation groups and US federal and state agencies. A major challenge to scaling up the use of native species in landscaping is providing ornamental plants that are both ecologically functional and economically viable. Depending on ecological and economic constraints, accelerated breeding approaches could be applied to ornamental trait development in native plants. This review examines the impact of landscaping choices on biodiversity, the current status of breeding and selection of native ornamental plants, and the interdisciplinary research needed to scale up landscaping plants that can support native biodiversity. PMID:26504560

Consumers & plant genomics : the positioning and acceptance of a new plant breeding practice

NARCIS (Netherlands)

Heuvel, van den T.

2008-01-01

Innovative developments in technology, such as the emergence of genomics as a plant breeding practice, hold the potential to change the supply side of the market. The success of these practices not only depends on the improved efficiency and effectiveness it brings, but also on how well they are

Periclinal chimera technique: new plant breeding approach.

Science.gov (United States)

Gakpetor, P M; Mohammed, H; Moreti, D; Nassar, N M A

2017-09-21

Plant interspecific periclinal chimeras are a mosaic formed by tissues from two species. They are manipulated here as an efficient plant breeding tool for cassava root yields. In this study, plants synthesized from two chimeras, designated as chimera 2 and chimera 4, were characterized morphologically and cytologically to unravel the origin of their tissue layers (L2 and L3). Root yield of the two chimeras was also evaluated. Chimera 2 that was developed from graft union between Manihot fortalezensis (F) as scion and M. esculenta (E) as rootstock and the same in chimera 4 was developed from grafting triploid cassava cultivar (2n = 54) (C) as scion and M. pohlii (P) (2n = 36) as rootstock. A new method of inducing interspecific chimeras without using hormones was also tested in this study. Five combinations between four cassava cultivars on one side and M. fortalezensis and an interspecific hybrid (M. glaziovii x M. esculenta) on the other side were experimented to determine compatibility between the parents. Wild species always gave L2 and L3, independent of being used as rootstock or scion. L3 is responsible for producing pericycle. Thus, its performance was different in each chimera due to specific epigenetic interaction. Of 48 grafts, it was obtained one chimera giving a percentage of 2.1% that is little lower than using hormones but much efficient to use. Chimera induction efficiency in this investigation was the same when using hormones. Thus, our new, less labor, and more cost-effective technique is as much efficient as hormones and is much potential to employ as an effective plant breeding method boosting cassava root yield.

IAEA and FAO Honour Achievements in Radiation-Supported Plant Breeding

International Nuclear Information System (INIS)

2014-01-01

Awards honouring teams of scientists who have helped increase food security by using radiation to breed better crop varieties were presented today by IAEA Director General Yukiya Amano. Mutation breeding, which uses radiation to mimic natural plant mutation events, is a well-established method that enables plant breeders to work with farmers to develop variations of rice, barley, sesame and other crops that are higher-yielding and more resistant to disease. The awards were initiated by the Joint FAO/IAEA Division of Nuclear Techniques in Food and Agriculture to celebrate successes achieved so far and promote the development of further sustainable crop varieties. The Joint Division - a strategic partnership between the IAEA and the UN's Food and Agriculture Organization that is celebrating its 50th anniversary this year - supports countries in their use of the method. ''Through the use of plant mutation breeding, nuclear techniques help to create new strains of plants with characteristics that allow them to resist disease and thrive under harsh conditions, such as high altitudes and saline soils,'' Director General Amano said at an award ceremony at the IAEA headquarters, where he handed certificates to representatives of the countries of award recipients. ''The development of new varieties of food crops will be increasingly important in the future as the world tries to adapt to the potential impacts of climate change.''

Plant breeding and genetics newsletter. No. 5

International Nuclear Information System (INIS)

2000-06-01

The fifth issue of the Plant Breeding and Genetics Newsletter brings information on our activities in the first half of 2000. A new Co-ordinated Research Project (CRP) on 'Mutational analysis of root characters in annual food plants related to plant performance' was initiated with the first Research Co-ordination Meeting (RCM) held in February 2000 in Vienna. Scientists participating in the RCM presented papers and discussed work plans on the use of mutants for genetic analysis of root system morphology, tolerance to soil stresses and mycorrhizal relationships. Mutated genes responsible for defined root characters will be incorporated to molecular markers based genetic maps by building their root systems to make them more adaptive to particular soil conditions. Preparation for initiation of another CRP on 'Improvement of tropical and subtropical fruit trees through induced mutations and biotechnology' has been completed. We are expecting 14 participants at the first RCM, which will be held in Vienna in September 2000. It is expected that this CRP will make a real breakthrough in application of induced mutations for improvement of fruit trees. In vitro, especially somatic embryogenesis as well as conventional breeding methods will be used in combination with mutation techniques. Significant progress was noted, at the second RCM, on the application of biotechnology and mutation techniques for the improvement of local food crops in LIFCs held in San Jose, Costa Rica, June 2000. The RCM was combined with a workshop on 'In vitro culture techniques for the improvement of vegetatively propagated tropical fruit crops'. The Regional training course on 'New frontiers of developing and handling mutants' was organized under the Technical Cooperation Project on 'Mutational enhancement of genetic diversity in rice' and hosted by the Institute of Nuclear Agricultural Sciences, Zhejiang University, Hangzhou, China in June 2000. The course focus on current induced mutation

Plant breeding for resistance to insect pests: Considerations about the use of induced mutations

International Nuclear Information System (INIS)

1978-01-01

The Panel was intended to stimulate proposals on specific plant breeding objectives, for immediate and long term solution. Nine papers considered the host plant resistance to particular insect pests in a variety of cases. The desirability of achieving some measure of pest control via the development of disease-resistant mutants was discussed. In its conclusions, the Panel stressed the need to consider host plant resistance as one of the primary lines of defense in all pest management programmes. Consequently, resistance to insects was recommended to become an integral part of plant breeding programmes. Preference might need to be given to developing insect resistance in those crop plants for which practical control is lacking or where current methods of pest control present critical environmental hazards. The roles of the IAEA and FAO in such projects is outlined. Guidelines and recommendations on mutation breeding for resistance to insects are given in an appendix

Plant breeding and genetics newsletter. No. 26, January 2011

International Nuclear Information System (INIS)

2011-01-01

The Plant Breeding and Genetics Section (PBGS) in IAEA Headquarters, Vienna and the Plant Breeding and Genetics Laboratory (PBGL) in Seibersdorf are very grateful for the input and support of experts, consultants and lecturers from all the Member States that helped us implement our programmatic activities. We had the honour and the privilege to host 46 trainees, fellows, interns and scientific visitors for a total of 51 training months. Every single one has enriched this programme and we fondly remember our fruitful discussions. The Plant Breeding and Genetics Subprogramme provides technical support to Member States through the development and the promotion of technology packages based on mutation induction and efficiency enhancing molecular and biotechnologies applied to crop improvement through adaptive R and D in our Laboratory and four CRPs. This year, we worked on transferring these technology packages to 96 Member States by providing technical and scientific support through 63 national, regional and interregional Technical Cooperation Projects (TCPs) that are managed by IAEA's Department of Technical Cooperation. This transfer of technologies assists Member States in the implementation of national crop improvement programmes with specific breeding objectives or regional programmes addressing abiotic and/or biotic stresses, which represent serious threats impeding crop productivity in wide areas mostly in the developing world. In this issue, you will find more about services in support of activities in Member States, training and human capacity development and technology development/adaptation in the PBGL, including work on impact of NaCl stress on the biomass and mineral nutrient assimilation in different rice varieties, comparative studies of different mutagens on seed propagated crops, protocols and guidelines for mutation breeding lower cost molecular assays, and targeting deleterious mutations (including positive control kits)

A microcosm for the breeding of plants under controlled conditions

International Nuclear Information System (INIS)

D'Aquino, Luigi; Maglione, Maria Grazia; Minarini, Carla; Pandolfi Giuseppe; Lanza, Bruno; Atrigna, Mauro; De Filippo, Giovanni; Giannotta, Giovanni; Pedicini Antonio; Aprano Salvatore

2015-01-01

In order to enhance studies of the effects of multiple stress on plant physiology laboratory scale, in collaboration with FOS Srl and Sesmat Srl and the project application for organic PON02 0 0556 3 420580 «SMARTAGS-SMARt TAGS 'was conceived, designed and built a 'microcosm for the breeding of plants under biotic and abiotic stress conditioning '. [it

Mutation breedings in ornamental plants

International Nuclear Information System (INIS)

Matsubara, Hisao

1984-01-01

Several methods of obtaining somatic mutant plants by γ-ray irradiation on pieces of tissues as in vitro adventitious bud technique or small cutting methods with repeated pruning are described. 1) The irradiation to the adventitious buds in the small pieces of organ cultured in vitro and to the small cuttings are employed. Culture beds of agar or of Japanese Kanuma soil were used in vitro culture. In these experiments, Japanese Kanuma soil bed in in vitro culture worked well for root development and transplant of the induced mutants. 2) Combination with in vitro culture and repeated pruning technique were used for isolation and fixation of solid somatic mutant from small sectorial mutation induced by irradiation. This method was successful for begonia, chrysanthemum, aberia and winter daphne. 3) These data indicates that most of the induced mutant plants were non-chimeric, while a few others were chimeric. Among the new varieties, ''Gin-Sei'', ''Ryoku-Ha'', ''Big-Cross'', ''Kaede-Iron'', ''Mei-Fu-Hana-Tsukubane-Utsugi'' and ''Daphne-γ-3'' are non-chimeric, and ''Mini-Mini-Iron'' and ''Orange-Iron'' are chimeric. Moreover, these new varieties have remarkably differed in size and in color pattern from original variety. From the experimental results of somatic mutation, it is indicated that plant tissue culture have enormous potential in radiation breeding and in rapid propagation of the somatic mutant. (author)

Willet M. Hays, great benefactor to plant breeding and the founder of our association.

Science.gov (United States)

Troyer, A F; Stoehr, H

2003-01-01

Willet M. Hays was a great benefactor to plant breeding and the founder of the American Genetic Association (AGA). We commemorate the AGA's centennial. We mined university archives, U.S. Department of Agriculture (USDA) yearbooks, plant breeding textbooks, scientific periodicals, and descendants for information. Willet Hays first recognized the individual plant as the unit of selection and started systematic pure-line selection and progeny tests in 1888. He developed useful plant breeding methods. He selected superior flax (Linum usitatissimum L.), wheat (Triticum vulgare L.), corn (Zea mays L.), barley (Hordeum vulgare L.), and oat (Avena sativa L.) varieties, and discovered Grimm alfalfa (Medicago sativa L.); all became commercially important. He initiated branch stations for better performance testing. Willet Hays befriended colleagues in other universities, in federal stations, in a London conference, and in Europe. He gathered and spread the scientific plant breeding gospel. He also improved rural roads and initiated animal breeding records and agricultural economics records. He started the AGA in 1903, serving as secretary for 10 years. He became assistant secretary of agriculture in 1904. He introduced the project system for agricultural research. He authored or coauthored the Nelson Amendment, the Smith-Lever Act, the Smith-Hughes Act, and the protocol leading to the United Nations Food and Agriculture Organization-all involved teaching agricultural practices that improved the world.

Plant Breeding and Genetics Newsletter, No. 31, July 2013

International Nuclear Information System (INIS)

2013-07-01

We have reached three quarters of the biennium 2012-2013. The negative effects of climate variability and change on biodiversity are becoming increasingly evident and feature more and more in our activities. The deleterious effects of climate variability and change cause devastating yield losses and threaten global food security and commodity prices. There is an urgency to develop and to produce new resilient mutant lines, to get these to farmers and to grow them on a large scale as fast as possible. We at the Plant Breeding and Genetics Section and Laboratory are adjusting our activities accordingly. We have initiated new activities for inducing and screening mutations more quickly, safely and efficiently. In this newsletter, you will find interesting news on alternatives to gamma irradiation using X rays, seed mass phenotyping using an X ray platform that we are developing and the first tests of our next generation sequencing (NGS) platform. A milestone has been reached in meeting the challenge of wheat black stem rust disease (race Ug99). In the TC section of this newsletter, you find more information on an unfolding success story involving 18 countries and four international organisations. Inducing mutations significantly speeds up the process of plant breeding and is more cost effective and environmentally friendly than using fungicides to prevent stem rust caused by race Ug99. While spontaneous mutations occurring in nature happen over a long period of time, mutation induction is used to achieve the same results much more quickly and efficiently, providing sustainable solutions to crop production constraints and responding to food security threats. In fact, this success story is a good example of the pipeline from the laboratory to the farm that we implement. This pipeline is demand driven, results based and outcome oriented: technology packages are adapted and/or developed in the Plant Breeding and Genetics Laboratory; services are provided (mutation

Use of radiation for plant breeding in Japan: results and future

International Nuclear Information System (INIS)

Yamaguchi, I.

1998-01-01

In 1966, as the first breeds by radiation mutation in Japan, 'Reimei', a rice variety with increased lodging resistance by short culm mutation and Raiden', an early variety by mutation of soybean obtained by extreme late variety with nematoda resistance were bred and registered in the Ministry of Agriculture and Forestry. Since these characteristics of 'short culm' and early maturing' have a comparatively high mutation rate and ease of selection, among seed propagation crops many kinds of those varieties improved to have either of these characteristics or both of them at the same time by mutation breeding are bred. In Japan, varieties bred by use of mutation breeding count 107 (as of April 1998). Among crops, that with the most varieties is chrysanthemum, which has 20 varieties and the next is rice with 15 varieties. The other 38 varieties of crops such as grains, beans, industrial crops, vegetables, flowering plants, flowering trees and fruit trees, mutation breeding varieties are widely bred. Among mutagens used, gamma ray holds 80%. The recent development in the research of DNA recombination is amazing and plant bodies which have introduced useful genes which other plants have are being obtained. Radiation mutation breeding, however, has the advantages of breeding new varieties by improving only one or two characteristics of excellent races. Radiation mutation breeding and DNA recombination technologies, therefore, may need to be utilized separately according to respective purposes. In the future, for radiation mutation breeding, mutants with quality characteristics which others do not have, corresponding to the diverse demand on agricultural products must come to be required. On the other hand, by the crops like banana for which ordinary breeding is almost impossible, the expectation for radiation mutation breeding will be more and more heightened. In addition, the accumulation of studies on controlling the direction of mutation which has been regarded

Collaborative Plant Breeding for Organic Agricultural Systems in Developed Countries

Directory of Open Access Journals (Sweden)

Isabelle Goldringer

2011-08-01

Full Text Available Because organic systems present complex environmental stress, plant breeders may either target very focused regions for different varieties, or create heterogeneous populations which can then evolve specific adaptation through on-farm cultivation and selection. This often leads to participatory plant breeding (PPB strategies which take advantage of the specific knowledge of farmers. Participatory selection requires increased commitment and engagement on the part of the farmers and researchers. Projects may begin as researcher initiatives with farmer participation or farmer initiatives with researcher participation and over time evolve into true collaborations. These projects are difficult to plan in advance because by nature they change to respond to the priorities and interests of the collaborators. Projects need to provide relevant information and analysis in a time-frame that is meaningful for farmers, while remaining scientifically rigorous and innovative. This paper presents two specific studies: the first was a researcher-designed experiment that assessed the potential adaptation of landraces to organic systems through on-farm cultivation and farmer selection. The second is a farmer-led plant breeding project to select bread wheat for organic systems in France. Over the course of these two projects, many discussions among farmers, researchers and farmers associations led to the development of methods that fit the objectives of those involved. This type of project is no longer researcher-led or farmer-led but instead an equal collaboration. Results from the two research projects and the strategy developed for an ongoing collaborative plant breeding project are discussed.

Report from the FAO/IAEA Plant Breeding and Genetics Section

International Nuclear Information System (INIS)

1988-01-01

In spite of a financial crisis of the UN-system, we were able to keep up essential activities. The co-ordinated research programme on cereal improvement using doubled-haploids but also heterosis from induced mutations started in 1986 and continued during the past year. A new regional co-ordinated research programme for Latin America, primarily for rice improvement had its first co-ordination meeting 30 March - 3 April 1987 in Quito, Ecuador. The co-ordinated research programme for identification and use of induced semi-dwarf mutants as alternative genetic sources for rice breeding completed its work with the final co-ordination meeting at Hangzhou, China, July 1987. In-vitro culture technology for mutation breeding is given high priority, e.g. for improving crop plant resistance to diseases. At the first co-ordination meeting of a new programme in September 1987, it was decided to concentrate efforts first on studying the use of toxins for in-vitro screening of resistant mutants and comparing toxin resistance with the reaction to pathogen attack under greenhouse and field conditions. Oil seeds and industrial crops have unfortunately so far received lower priority in FAO/IAEA projects, but we now look forward with some optimism to establish a global network on sesame improvement, in co-operation with the FAO Plant Production and Protection Division. A consultants meeting for this purpose was hosted by IAEA in Vienna in September 1987. The use of mutagenesis to accelerate the domestication of new crop plants - relevant for developing as well as for developed countries - had been subject of an expert discussion already in November 1986 (see MBNL No. 29). FAO and IAEA were advised to pay attention to this important task, but we still have to see whether funds become available. Vegetatively propagated plants like root and tuber crops, bananas and plantains, or woody perennials are looked upon frequently as a particular domaine of mutation breeding, which is not yet

The ion-beam breeding makes great success in plant business

Energy Technology Data Exchange (ETDEWEB)

Abe, T; Yoshida, S [Institute of Physical and Chemical Research, Wako, Saitama (Japan). Plant Functions Lab.; Fukunishi, N; Ryuto, H [Institute of Physical and Chemical Research, Wako, Saitama (Japan). Cyclotron Center; Suzuki, K [Suntory Flowers Ltd., Yokaichi, Shiga (Japan)

2005-07-01

The ion-beam breeding developed by the Ring cyclotron of RARF is highly effective to create new flower cultivars within a short duration. A new type of garden plants 'Temari' series (verbena hybrida) keeps many flower clusters from spring until autumn, however 'Coral Pink' of this series shows poor flower clusters. To improve 'Coral Pink' using the ion-beam irradiation. sixty four single nodes were cultured in one plastic dish which was treated with 1-10 Gy of the N-ion beam at 135 MeV/u. Finally, four mutant lines with rich blooming were successfully selected. These mutants grew well compared to host plant, and kept many flower clusters even in autumn. The best mutant had larger number of flower clusters than the host plant in the pot-planting test so that it was released to the market in 2002 with a level of several hundred thousand pots. The development period of the new 'Coral Pink' was only three years. The similar successful cases were demonstrated by the new Dahlia World' (2002), the new Verbena 'Sakura' (2003) and the new Petunia 'Rose' (2003). Thus, we conclude that the ion beam irradiation is an excellent tool for mutation breeding to improve horticultural and agricultural crops with high efficiency. (author)

The ion-beam breeding makes great success in plant business

International Nuclear Information System (INIS)

Abe, T.; Yoshida, S.

2005-01-01

The ion-beam breeding developed by the Ring cyclotron of RARF is highly effective to create new flower cultivars within a short duration. A new type of garden plants 'Temari' series (verbena hybrida) keeps many flower clusters from spring until autumn, however 'Coral Pink' of this series shows poor flower clusters. To improve 'Coral Pink' using the ion-beam irradiation. sixty four single nodes were cultured in one plastic dish which was treated with 1-10 Gy of the N-ion beam at 135 MeV/u. Finally, four mutant lines with rich blooming were successfully selected. These mutants grew well compared to host plant, and kept many flower clusters even in autumn. The best mutant had larger number of flower clusters than the host plant in the pot-planting test so that it was released to the market in 2002 with a level of several hundred thousand pots. The development period of the new 'Coral Pink' was only three years. The similar successful cases were demonstrated by the new Dahlia World' (2002), the new Verbena 'Sakura' (2003) and the new Petunia 'Rose' (2003). Thus, we conclude that the ion beam irradiation is an excellent tool for mutation breeding to improve horticultural and agricultural crops with high efficiency. (author)

Plant breeding with marker-assisted selection in Brazil

Directory of Open Access Journals (Sweden)

Ney Sussumu Sakiyama

2014-03-01

Full Text Available Over the past three decades, molecular marker studies reached extraordinary advances, especially for sequencing and bioinformatics techniques. Marker-assisted selection became part of the breeding program routines of important seed companies, in order to accelerate and optimize the cultivar developing processes. Private seed companies increasingly use marker-assisted selection, especially for the species of great importance to the seed market, e.g. corn, soybean, cotton, and sunflower. In the Brazilian public institutions few breeding programs use it efficiently. The possible reasons are: lack of know-how, lack of appropriate laboratories, few validated markers, high cost, and lack of urgency in obtaining cultivars. In this article we analyze the use and the constraints of marker-assisted selection in plant breeding programs of Brazilian public institutes

Plant Breeding and Genetics Newsletter, No. 38, January 2017

International Nuclear Information System (INIS)

2017-01-01

This year significant progress was made on the discovery of mutations using next generation sequencing for different crops, including rice and banana. Also, a program for the development of molecular markers for important traits has been initiated to translate the molecular knowledge on mutant traits into applications for plant breeding and to enable wider utilization of available useful mutant germplasm by Member States. A semi-dwarf mutant trait in sorghum was chosen in the pilot phase. In October 2016, a film crew visited the Agency’s Laboratories in Seibersdorf, including PBGL, in the context of a National Geographics project on the application of nuclear technologies to help address global challenges such as food, agriculture and climate change. In December 2016 a 22-minute documentary was aired on the National Geographics Channel in Belgium, the Netherlands and France highlighting the work at PBGL and the contribution of plant mutation breeding to food security and climate-smart agriculture.

Plant breeding and genetics newsletter. No. 19, July 2007

International Nuclear Information System (INIS)

2007-07-01

This issue of the newsletter announces the International Symposium on Induced Mutation in Plants (SIMP) which is being planned to take place at International Atomic Energy Agency , Vienna, Austria, 11-15 August 2008, to celebrate 80 years of mutation induction enhanced breeding and the renaissance of mutation induction

Invasion Success by Plant Breeding Evolutionary Changes as a Critical Factor for the Invasion of the Ornamental Plant Mahonia aquifolium

CERN Document Server

Ross, Christel Anne

2009-01-01

Invasive species are a major threat to global biodiversity and cause significant economic costs. Studying biological invasions is both essential for preventing future invasions and is also useful in order to understand basic ecological processes. Christel Ross investigates whether evolutionary changes by plant breeding are a relevant factor for the invasion success of Mahonia aquifolium in Germany. Her findings show that invasive populations differ from native populations in quantitative-genetic traits and molecular markers, whereas their genetic diversity is similar. She postulates that these evolutionary changes are rather a result of plant breeding, which includes interspecific hybridisation, than the result of a genetic bottleneck or the releases from specialist herbivores.

Breeding crop plants with deep roots: their role in sustainable carbon, nutrient and water sequestration

Science.gov (United States)

Kell, Douglas B.

2011-01-01

Background The soil represents a reservoir that contains at least twice as much carbon as does the atmosphere, yet (apart from ‘root crops’) mainly just the above-ground plant biomass is harvested in agriculture, and plant photosynthesis represents the effective origin of the overwhelming bulk of soil carbon. However, present estimates of the carbon sequestration potential of soils are based more on what is happening now than what might be changed by active agricultural intervention, and tend to concentrate only on the first metre of soil depth. Scope Breeding crop plants with deeper and bushy root ecosystems could simultaneously improve both the soil structure and its steady-state carbon, water and nutrient retention, as well as sustainable plant yields. The carbon that can be sequestered in the steady state by increasing the rooting depths of crop plants and grasses from, say, 1 m to 2 m depends significantly on its lifetime(s) in different molecular forms in the soil, but calculations (http://dbkgroup.org/carbonsequestration/rootsystem.html) suggest that this breeding strategy could have a hugely beneficial effect in stabilizing atmospheric CO2. This sets an important research agenda, and the breeding of plants with improved and deep rooting habits and architectures is a goal well worth pursuing. PMID:21813565

Plant breeding and genetics newsletter. No. 14

International Nuclear Information System (INIS)

2004-12-01

These last six months, the Plant Breeding and Genetics (PBG) Section of the Joint FAO/IAEA Division (NAFA/AGE) implemented five Research Coordination Meetings (RCMs) and one Consultants Meeting for a new Coordinated Research Project (CRP) on 'Molecular tools for quality improvement in vegetatively propagated crops including banana and cassava' (8-11 November 2004, Vienna). Other salient points were the training courses we implemented this semester in the framework of different Technical Cooperation (TC) projects.Details about these activities inside this Newsletter

Will genomic selection be a practical method for plant breeding?

OpenAIRE

Nakaya, Akihiro; Isobe, Sachiko N.

2012-01-01

Background Genomic selection or genome-wide selection (GS) has been highlighted as a new approach for marker-assisted selection (MAS) in recent years. GS is a form of MAS that selects favourable individuals based on genomic estimated breeding values. Previous studies have suggested the utility of GS, especially for capturing small-effect quantitative trait loci, but GS has not become a popular methodology in the field of plant breeding, possibly because there is insufficient information avail...

Searching for an Accurate Marker-Based Prediction of an Individual Quantitative Trait in Molecular Plant Breeding.

Science.gov (United States)

Fu, Yong-Bi; Yang, Mo-Hua; Zeng, Fangqin; Biligetu, Bill

2017-01-01

Molecular plant breeding with the aid of molecular markers has played an important role in modern plant breeding over the last two decades. Many marker-based predictions for quantitative traits have been made to enhance parental selection, but the trait prediction accuracy remains generally low, even with the aid of dense, genome-wide SNP markers. To search for more accurate trait-specific prediction with informative SNP markers, we conducted a literature review on the prediction issues in molecular plant breeding and on the applicability of an RNA-Seq technique for developing function-associated specific trait (FAST) SNP markers. To understand whether and how FAST SNP markers could enhance trait prediction, we also performed a theoretical reasoning on the effectiveness of these markers in a trait-specific prediction, and verified the reasoning through computer simulation. To the end, the search yielded an alternative to regular genomic selection with FAST SNP markers that could be explored to achieve more accurate trait-specific prediction. Continuous search for better alternatives is encouraged to enhance marker-based predictions for an individual quantitative trait in molecular plant breeding.

Responsible decision-making for plant research and breeding innovations in the European Union.

Science.gov (United States)

Eriksson, Dennis; Chatzopoulou, Sevasti

2018-01-02

Plant research and breeding has made substantial technical progress over the past few decades, indicating a potential for tremendous societal impact. Due to this potential, the development of policies and legislation on plant breeding and the technical progress should preferably involve all relevant stakeholders. However, we argue here that there is a substantial imbalance in the European Union (EU) regarding the influence of the various stakeholder groups on policy makers. We use evidence from three examples in order to show that the role of science is overlooked: 1) important delays in the decision process concerning the authorization of genetically modified (GM) maize events, 2) the significance attributed to non-scientific reasons in new legislation concerning the prohibition of GM events in EU member states, and 3) failure of the European Commission to deliver legal guidance to new plant breeding techniques despite sufficient scientific evidence and advisory reports. We attribute this imbalance to misinformation and misinterpretation of public perceptions and a disproportionate attention to single outlier reports, and we present ideas on how to establish a better stakeholder balance within this field.

Use of mutagenous factors in the breeding of vegetatively propagated plants

International Nuclear Information System (INIS)

Dryagina, I.V.; Fomenko, N.N.

1978-01-01

Given is a review of the literature and authors data on using mutagenous factors with different nature to breed some new and useful forms of plants reproduced vegetatively. The problem history and prospects of the practical application of the method are stated. In particular the data on ionizing radiation use in fruit crop selection to breed mutation forms (effect on buds, pollen, seeds etc.) are presented

Mitigation of inbreeding while preserving genetic gain in genomic breeding programs for outbred plants.

Science.gov (United States)

Lin, Zibei; Shi, Fan; Hayes, Ben J; Daetwyler, Hans D

2017-05-01

Heuristic genomic inbreeding controls reduce inbreeding in genomic breeding schemes without reducing genetic gain. Genomic selection is increasingly being implemented in plant breeding programs to accelerate genetic gain of economically important traits. However, it may cause significant loss of genetic diversity when compared with traditional schemes using phenotypic selection. We propose heuristic strategies to control the rate of inbreeding in outbred plants, which can be categorised into three types: controls during mate allocation, during selection, and simultaneous selection and mate allocation. The proposed mate allocation measure GminF allocates two or more parents for mating in mating groups that minimise coancestry using a genomic relationship matrix. Two types of relationship-adjusted genomic breeding values for parent selection candidates ([Formula: see text]) and potential offspring ([Formula: see text]) are devised to control inbreeding during selection and even enabling simultaneous selection and mate allocation. These strategies were tested in a case study using a simulated perennial ryegrass breeding scheme. As compared to the genomic selection scheme without controls, all proposed strategies could significantly decrease inbreeding while achieving comparable genetic gain. In particular, the scenario using [Formula: see text] in simultaneous selection and mate allocation reduced inbreeding to one-third of the original genomic selection scheme. The proposed strategies are readily applicable in any outbred plant breeding program.

Global impact of induced mutation in plant breeding

International Nuclear Information System (INIS)

Bhatia, R.

2001-01-01

Sudden, heritable changes in the genetic material, DNA, are known as mutations. Selection of naturally occurring mutations in wild, ancestral species helped humans in the domestication and further improvement of today's crop plants. Although Charles Darwin was unaware in 1859 of variation and mutations in living organisms, his theory of evolution by natural selection assumed variability. Much later, it was established that mutations are the source of biodiversity, and the driving force for evolution. Gregor Mendel in 1865 also used several mutants in his experiments with garden pea to formulate the laws of inheritance. The term mutation itself was used for the first time by Hugo de Vries in 1901 in his mutation theory. Plant breeding based on the science of genetics, as practiced over the past 100 years, exploited the available genetic variability in the primary gene pool of crop plants, and sometimes in related species. This approach enlarged the yield potential of crops several fold. It also a) improved the stability of yield by incorporating resistance to various biotic and abiotic stresses; b) improved quality of the produce; and c) altered the adaptability of crop species, providing opportunities to grow new crops for food security outside their traditional range. Genetically improved seed (or other planting material) is the most significant input for developing sustainable cropping systems for food security and economic growth. Half of the increased productivity of today's crop plants comes from genetic improvements. The other half is contributed by inputs and management practices

Genotyping-by-sequencing (GBS), an ultimate marker-assisted selection (MAS) tool to accelerate plant breeding

OpenAIRE

He, Jiangfeng; Zhao, Xiaoqing; Laroche, André; Lu, Zhen-Xiang; Liu, HongKui; Li, Ziqin

2014-01-01

Marker-assisted selection (MAS) refers to the use of molecular markers to assist phenotypic selections in crop improvement. Several types of molecular markers, such as single nucleotide polymorphism (SNP), have been identified and effectively used in plant breeding. The application of next-generation sequencing (NGS) technologies has led to remarkable advances in whole genome sequencing, which provides ultra-throughput sequences to revolutionize plant genotyping and breeding. To further broad...

Seminar of the irradiation uses in plant breeding

International Nuclear Information System (INIS)

1986-01-01

At the present time it is accepted the dependence of mankind to get its feeding starting from products proceeding of animals and plants. Such a dependence is affected by factors which overthrow production: in the case of vegetables this situation is evident in a diminution per surface unit, and in several cases in a reduction on the quality of the product. Since the beginning of agriculture, men has performed a selection of progenitors, generation by generation, in order to perpetuate the best of a cultivation for its exploitation. While an understanding of natural mechanisms capable of producing genetic variability is attained, men has to imitate the mechanisms in order to get what is known as artificial selection. This artificial selection reach a fortunate consecution via multiplication and exploitation of populations which fulfill the requisitions imposed by environment. Genetic variability has its origin in a natural process known as mutation which involve any change in the hereditary material, which besides to be capable to be heritable, be not product of genetic recombination. This genetic variability could be considered as few effective if no selection methodology was involved which have allowed its accurate canalization in the obtention of new varieties. The recognizance of agents capable to produce changes in hereditary material, it is to say, capable to induce mutations, brings with his self to contemplate the possibility of inducing changes in order to take advantage of the new varieties. In the global context, such a possibility began to be considered as feasible starting from the third decade of our century, while in the national context, starting from the sixties. The profits reached in our country are not enough impaction to give a reason for plant breeding and to use mutagens in research programs to institutions of the branch. Starting from 1974, the Instituto Nacional de Investigaciones Nucleares (ININ) began a series of activities with the

Potential of in vitro mutation breeding for the improvement of vegetatively propagated crop plants

International Nuclear Information System (INIS)

Constantin, M.J.

1984-01-01

Significant progress has been realized in a number of technologies (e.g., protoplast cultures), collectively referred to as plant cell and tissue culture, within the last decade. In vitro culture technologies offer great potentials for the improvement of crop plants, both sexually and asexually propagated; however, to realize these potentials plant regeneration from selected cells must be achieved for the species of interest. Where whole plants have been regenerated from selected cells, the mutant trait was expressed in some but not in all cases, and the inheritance patterns included maternal, recessive, semi-dominant and dominant (epigenetic events have also been reported). Improved cultivars of sugarcane have been developed from in vitro culture selections. In vitro mutation breeding can be done using an array of physical and chemical mutagens that has been found to be effective in the treatment of seeds, pollen, vegetative plant parts and growing plants. Selection at the cell level for a range of mutant traits has been demonstrated; however, innovative selection schemes will have to be developed to select for agriculturally important traits such as date of maturity, resistance to lodging, height etc. An interdisciplinary team approach involving the combined use of in vitro culture technology, mutagenesis, and plant breeding/genetics offers the greatest probability for success in crop improvement. (author)

Responsible decision-making for plant research and breeding innovations in the European Union

DEFF Research Database (Denmark)

Eriksson, Ulf Dennis; Chatzopoulou, Sevasti

2017-01-01

Plant research and breeding has made substantial technical progress over the past few decades, indicating a potential for tremendous societal impact. Due to this potential, the development of policies and legislation on plant breeding and the technical progress should preferably involve all...... relevant stakeholders. However, we argue here that there is a substantial imbalance in the European Union (EU) regarding the influence of the various stakeholder groups on policy makers. We use evidence from three examples in order to show that the role of science is overlooked: 1) important delays...... in the decision process concerning the authorization of genetically modified (GM) maize events, 2) the significance attributed to non-scientific reasons in new legislation concerning the prohibition of GM events in EU member states, and 3) failure of the European Commission to deliver legal guidance to new plant...

Plant breeding in the turn of the millennium

Directory of Open Access Journals (Sweden)

Aluízio Borém

1998-01-01

Full Text Available The transition from hunting and gathering to farming happened about 10,000 years ago, independently and diffusely in several places in the world. Plant breeders were responsible for genetic progress in a number of crop species. It included hybrids, the introgression of wild species genes and also the Green Revolution, which started in the 1960's with the cereals. The varieties developed by breeding, along with the use of new crop technology (fertilization, soil tillage, etc. changed the status of some countries from importers to exporters of food. In the turn of the millennium,, plant breeding, faces new challenges in a globalized world, but it has new tools to deal with them. Notwithstanding the present contributions of plant breeding and crop management, its future contributions may be even greater. The partnership being developed between plant breeding and biotechnology will assure a more consistent and predictable genetic progress. Current contributions of biotechnology have arrived for many crops in different places of the world. Varieties developed by transformation are grown in large acreage in some countries. Some concerns have also arisen from the use of GMOs. For example, the introgression of a gene for insect resistance 4 into many different species could result in an undesirable endemic risk, here called interespecific biotechnological vulnerability. Another concern is that biotechnology race may create yield plateaus in programs using genes pyramiding for all new traits made available by biotechnology, resulting in what is called genetic gridlock. Nevertheless, the benefits of using biotechnology will substantially enhance the contributions of plant breeding to human lifeA transição da fase de coleta e caça para a agricultura ocorreu há cerca de dez mil anos independentemente e em vários locais no mundo. Naquela época iniciou-se a domesticação da maioria das espécies cultivadas, dando início às atividades agrícolas. Os

Searching for an Accurate Marker-Based Prediction of an Individual Quantitative Trait in Molecular Plant Breeding

Directory of Open Access Journals (Sweden)

Yong-Bi Fu

2017-07-01

Full Text Available Molecular plant breeding with the aid of molecular markers has played an important role in modern plant breeding over the last two decades. Many marker-based predictions for quantitative traits have been made to enhance parental selection, but the trait prediction accuracy remains generally low, even with the aid of dense, genome-wide SNP markers. To search for more accurate trait-specific prediction with informative SNP markers, we conducted a literature review on the prediction issues in molecular plant breeding and on the applicability of an RNA-Seq technique for developing function-associated specific trait (FAST SNP markers. To understand whether and how FAST SNP markers could enhance trait prediction, we also performed a theoretical reasoning on the effectiveness of these markers in a trait-specific prediction, and verified the reasoning through computer simulation. To the end, the search yielded an alternative to regular genomic selection with FAST SNP markers that could be explored to achieve more accurate trait-specific prediction. Continuous search for better alternatives is encouraged to enhance marker-based predictions for an individual quantitative trait in molecular plant breeding.

Searching for an Accurate Marker-Based Prediction of an Individual Quantitative Trait in Molecular Plant Breeding

Science.gov (United States)

Fu, Yong-Bi; Yang, Mo-Hua; Zeng, Fangqin; Biligetu, Bill

2017-01-01

Molecular plant breeding with the aid of molecular markers has played an important role in modern plant breeding over the last two decades. Many marker-based predictions for quantitative traits have been made to enhance parental selection, but the trait prediction accuracy remains generally low, even with the aid of dense, genome-wide SNP markers. To search for more accurate trait-specific prediction with informative SNP markers, we conducted a literature review on the prediction issues in molecular plant breeding and on the applicability of an RNA-Seq technique for developing function-associated specific trait (FAST) SNP markers. To understand whether and how FAST SNP markers could enhance trait prediction, we also performed a theoretical reasoning on the effectiveness of these markers in a trait-specific prediction, and verified the reasoning through computer simulation. To the end, the search yielded an alternative to regular genomic selection with FAST SNP markers that could be explored to achieve more accurate trait-specific prediction. Continuous search for better alternatives is encouraged to enhance marker-based predictions for an individual quantitative trait in molecular plant breeding. PMID:28729875

Plant breeding and genetics newsletter. No. 12

Energy Technology Data Exchange (ETDEWEB)

NONE

2004-01-01

The activities of the Plant Breeding and Genetics sub-Programme concentrated, during the last six months, on organization of a new Coordinated Research Programmes and numerous training courses. To establish and implement the CRP on Effect of Mutagenic Agents on DNA Sequence in Plants a consultants meeting was held in Vienna, July 2003. As a result is was possible to implement this CRP with the participation of 12 institutes from nine.countries. Similarly, another consultant meeting was held in November to initiate a new CRP on Identification and pyramiding of genes responsible for crop quality characters and resistance to quality affecting stresses. It is expected that the CRP will be implemented in the beginning of 2004. Rapid development of molecular markers technology generated strong interest in identification and characterization of mutated genes. To meet this expectation numerous training courses and workshops were organized in the second half of the year, mainly related to regional Technical Cooperation projects implemented in Asia and Africa. Among them were training courses on: Application of induced mutations and biotechnology for crop improvement, organized by Horticultural Crop Research and Development Institute in Peradeniya, Sri Lanka; Selection methods for low phytic acid mutants in rice, Hangzhou, China; Methodology for multi-location trials and selection of mutants tolerant to abiotic stresses, ICRISAT, India standardization of crop breeding methods for the improvement of drought tolerance, Lusaka, Zambia; First workshop on Improvement of plant salt tolerance for sustainable food and feed production in saline lands, Bangkok, Thailand. It was also possible to organize the 3rd Interregional Training Course on Mutant Germplasm Characterization using Molecular Markers. Twenty participants from all regions of the world participated in this event organized as usually in Seibersdorf, Austria. The last two years we have been very much involved in

Plant breeding and genetics newsletter. No. 12

International Nuclear Information System (INIS)

2004-01-01

The activities of the Plant Breeding and Genetics sub-Programme concentrated, during the last six months, on organization of a new Coordinated Research Programmes and numerous training courses. To establish and implement the CRP on Effect of Mutagenic Agents on DNA Sequence in Plants a consultants meeting was held in Vienna, July 2003. As a result is was possible to implement this CRP with the participation of 12 institutes from nine.countries. Similarly, another consultant meeting was held in November to initiate a new CRP on Identification and pyramiding of genes responsible for crop quality characters and resistance to quality affecting stresses. It is expected that the CRP will be implemented in the beginning of 2004. Rapid development of molecular markers technology generated strong interest in identification and characterization of mutated genes. To meet this expectation numerous training courses and workshops were organized in the second half of the year, mainly related to regional Technical Cooperation projects implemented in Asia and Africa. Among them were training courses on: Application of induced mutations and biotechnology for crop improvement, organized by Horticultural Crop Research and Development Institute in Peradeniya, Sri Lanka; Selection methods for low phytic acid mutants in rice, Hangzhou, China; Methodology for multi-location trials and selection of mutants tolerant to abiotic stresses, ICRISAT, India standardization of crop breeding methods for the improvement of drought tolerance, Lusaka, Zambia; First workshop on Improvement of plant salt tolerance for sustainable food and feed production in saline lands, Bangkok, Thailand. It was also possible to organize the 3rd Interregional Training Course on Mutant Germplasm Characterization using Molecular Markers. Twenty participants from all regions of the world participated in this event organized as usually in Seibersdorf, Austria. The last two years we have been very much involved in

Genomic prediction unifies animal and plant breeding programs to form platforms for biological discovery

DEFF Research Database (Denmark)

Hickey, John M.; Chiurugwi, Tinashe; Mackay, Ian

2017-01-01

The rate of annual yield increases for major staple crops must more than double relative to current levels in order to feed a predicted global population of 9 billion by 2050. Controlled hybridization and selective breeding have been used for centuries to adapt plant and animal species for human...... that unifies breeding approaches, biological discovery, and tools and methods. Here we compare and contrast some animal and plant breeding approaches to make a case for bringing the two together through the application of genomic selection. We propose a strategy for the use of genomic selection as a unifying...... use. However, achieving higher, sustainable rates of improvement in yields in various species will require renewed genetic interventions and dramatic improvement of agricultural practices. Genomic prediction of breeding values has the potential to improve selection, reduce costs and provide a platform...

Plant mutation breeding and application of isotopic tracer in Chinese agriculture

International Nuclear Information System (INIS)

Liang Qu

1993-03-01

The progress and achievements made in plant mutation breeding and application of isotopic tracer in Chinese agriculture are outlined. Plant mutation breeding is well developed not only in improvement of crops but also in methodology of mutation induction. More than 325 mutant varieties and hundreds of various valuable mutants of 29 different species have been obtained. The mutant cultivars released have covered more than 10 million hectares in total area. The systematic studies on methodology such as techniques for mutagenic treatment, development of various mutagens, screening and selecting techniques of mutation etc. have been carried out in China. The techniques of radioisotopic tracer used in many research fields are described. Application of isotopic tracer in studies of fertilization and plant nutrition, environment protection, nitrogen-fixation, animal production and diagnosis of diseases, and so on, have made great achievements and benefits in China. Many kinds of labelled compounds, especially of labelled agro-chemicals have been synthesized in the Institute for Application of Atomic Energy (IAAE). Chinese Academy of Agricultural Sciences (CAAS). The proposals for the region cooperation in Asia on application of atomic energy in agriculture are included

Be-Breeder – an application for analysis of genomic data in plant breeding

Directory of Open Access Journals (Sweden)

Filipe Inácio Matias

2016-12-01

Full Text Available Be-Breeder is an application directed toward genetic breeding of plants, developed through the Shiny package of the R software, which allows different phenotype and molecular (marker analysis to be undertaken. The section for analysis of molecular data of the Be-Breeder application makes it possible to achieve quality control of genotyping data, to obtain genomic kinship matrices, and to analyze genomic selection, genome association, and genetic diversity in a simple manner on line. This application is available for use in a network through the site of the Allogamous Plant Breeding Laboratory of ESALQ-USP (http://www.genetica.esalq.usp.br/alogamas/R.html.

Investment, regulation, and uncertainty: managing new plant breeding techniques.

Science.gov (United States)

Smyth, Stuart J; McDonald, Jillian; Falck-Zepeda, Jose

2014-01-01

As with any technological innovation, time refines the technology, improving upon the original version of the innovative product. The initial GM crops had single traits for either herbicide tolerance or insect resistance. Current varieties have both of these traits stacked together and in many cases other abiotic and biotic traits have also been stacked. This innovation requires investment. While this is relatively straight forward, certain conditions need to exist such that investments can be facilitated. The principle requirement for investment is that regulatory frameworks render consistent and timely decisions. If the certainty of regulatory outcomes weakens, the potential for changes in investment patterns increases.   This article provides a summary background to the leading plant breeding technologies that are either currently being used to develop new crop varieties or are in the pipeline to be applied to plant breeding within the next few years. Challenges for existing regulatory systems are highlighted. Utilizing an option value approach from investment literature, an assessment of uncertainty regarding the regulatory approval for these varying techniques is undertaken. This research highlights which technology development options have the greatest degree of uncertainty and hence, which ones might be expected to see an investment decline.

Better plants through mutations

International Nuclear Information System (INIS)

1988-01-01

This is a public relations film describing problems associated with the genetic improvement of crop plants through induced mutations. Mutations are the ultimate source of genetic variation in plants. Mutation induction is now established as a practical tool in plant breeding. The Joint FAO/IAEA Division and the IAEA's laboratory at Seibersdorf have supported research and practical implementation of mutation breeding of both seed propagated and vegetatively propagated plants. Plant biotechnology based on in vitro culture and recombinant DNA technology will make a further significant contribution to plant breeding

Plant Breeding and Genetics Newsletter, No. 32, January 2014

International Nuclear Information System (INIS)

2014-01-01

One major event this last half of 2013 was the success story of the IAEA interregional TC project INT/5/150 'Responding to the Transboundary Threat of Wheat Black Stem Rust (Ug99)'. Results have been achieved in record time; the project was started in 2009, and by mid 2013, two advanced mutant lines, resistant to the most virulent strains of wheat black stem rust (Ug99), successfully passed the national performance trials in Kenya and are ready for commercial release. A Regional Training Course was organized at IRRI (The Philippines) in the framework of regional TC project RAS/5/065 'Supporting Climate-Proofing Rice Production Systems (CRiPS) Based on Nuclear Applications'. By joining efforts, the IAEA, FAO and IRRI aim to ensure that rice scientists are acquainted with the most recent plant breeding and phenotyping approaches, allowing them to address future threats to food security stemming from climate change and other stress factors. The project also aims to act as a platform for future collaboration in rice production. This second half of the year was also the period of 'first timers'. For the first time, Lesotho is using mutation breeding techniques in potato, sweet potato and amaranth. A fellow is being introduced to these techniques at the Plant Breeding and Genetics Laboratory (PBGL) in Seibersdorf, Austria. Similarly we are supporting and nurturing the first steps of national mutation breeding programmes in Oman, Palestine, Qatar and Saudi Arabia. Another cause for excitement is the ReNuAL project: the Seibersdorf Laboratories will be upgraded and renovated, including the FAO/IAEA Agriculture and Biotechnology Laboratories. This is a huge project with many logistical challenges, which are being met with vigour and personal investment in time and energy by our staff. Our guidance in this endeavour is 'fit-forpurpose to the Member States' in the future. IAEA Member States adopted a resolution to support this initiative, and we are now seeking financial and

Designing Graduate-Level Plant Breeding Curriculum: A Delphi Study of Private Sector Stakeholder Opinions

Science.gov (United States)

Miller, Jane K.; Repinski, Shelby L.; Hayes, Kathryn N.; Bliss, Frederick A.; Trexler, Cary J.

2011-01-01

A broad-based survey using the Delphi method was conducted to garner current information from private sector stakeholders and build consensus opinions supporting key ideas for enhancing plant breeder education and training. This study asked respondents to suggest and rate topics and content they deemed most important to plant breeding graduate…

Contributions of plant breeding in Brazil – progress and perspectives

Directory of Open Access Journals (Sweden)

Magno Antonio Patto Ramalho

2012-12-01

Full Text Available Agribusiness is fundamental for the Brazilian economy. This has become possible due to the use of science and technology in agriculture in the last 35 years. Among the technologies, the use of improved cultivars stands out. This article presents the situation of the species grown in the country in recent years and the contribution of genetic plant breeding to the performance of these species. Challenges multiplied because of populational growth associated with the ever-growing concern of society with the environment. Breeders of the present and future must base plant selection in the field on new technologies so that it is possible to meet demand.

Use of molecular markers in plant breeding = [Het gebruik van moleculaire merkers in de plantenveredeling

NARCIS (Netherlands)

Berloo, van R.

2000-01-01

Molecular markers provide plant breeding with an important and valuable new source of information. Linkage between molecular markers can be translated to genetic linkage maps, which have become an important tool in plant and animal genetics. Linkage between (quantitative) trait-data and

The plant breeding industry after pure line theory: Lessons from the National Institute of Agricultural Botany.

Science.gov (United States)

Berry, Dominic

2014-06-01

In the early twentieth century, Wilhelm Johannsen proposed his pure line theory and the genotype/phenotype distinction, work that is prized as one of the most important founding contributions to genetics and Mendelian plant breeding. Most historians have already concluded that pure line theory did not change breeding practices directly. Instead, breeding became more orderly as a consequence of pure line theory, which structured breeding programmes and eliminated external heritable influences. This incremental change then explains how and why the large multi-national seed companies that we know today were created; pure lines invited standardisation and economies of scale that the latter were designed to exploit. Rather than focus on breeding practice, this paper examines the plant varietal market itself. It focusses upon work conducted by the National Institute of Agricultural Botany (NIAB) during the interwar years, and in doing so demonstrates that, on the contrary, the pure line was actually only partially accepted by the industry. Moreover, claims that contradicted the logic of the pure line were not merely tolerated by the agricultural geneticists affiliated with NIAB, but were acknowledged and legitimised by them. The history of how and why the plant breeding industry was transformed remains to be written. Copyright © 2014 Elsevier Ltd. All rights reserved.

Whole-Genome Regression and Prediction Methods Applied to Plant and Animal Breeding

Science.gov (United States)

de los Campos, Gustavo; Hickey, John M.; Pong-Wong, Ricardo; Daetwyler, Hans D.; Calus, Mario P. L.

2013-01-01

Genomic-enabled prediction is becoming increasingly important in animal and plant breeding and is also receiving attention in human genetics. Deriving accurate predictions of complex traits requires implementing whole-genome regression (WGR) models where phenotypes are regressed on thousands of markers concurrently. Methods exist that allow implementing these large-p with small-n regressions, and genome-enabled selection (GS) is being implemented in several plant and animal breeding programs. The list of available methods is long, and the relationships between them have not been fully addressed. In this article we provide an overview of available methods for implementing parametric WGR models, discuss selected topics that emerge in applications, and present a general discussion of lessons learned from simulation and empirical data analysis in the last decade. PMID:22745228

Plant breeding by using radiation mutation - Development of radiation indicator plants by molecular breeding

Energy Technology Data Exchange (ETDEWEB)

Liu, Jang Ryol; Kwak, Sang Soo; Kwon, Seok Yoon [Korea Research Institute of Bioscience and Biotechnology, Taejon (Korea)

2000-04-01

- tSOD1, cytosolic CuZnSOD cDNA was cloned from tobacco cDNA library by PCR. To develop the under-producing the transgenic plants, the vectors were constructed using by antisense and co-supressing technology. The transgenic tobacco plants were confirmed that over 60% of kanamycin-resistant plants were introduced the foreign gene by PCR and transformed one copy through Southern blot analysis. - In an attempt to identify marker genes for gamma irradiation of plants, expression patterns of diverse genes upon gamma irradiation of young tobacco plants were investigated. With the knowledge of distinctive expression patterns of diverse genes, irradiation-indicating marker plants could be developed by engineering and monitoring multiple radiation-responsive genes. Additionally, a gamma irradiation-responsive NtTMK1 receptor-like kinase gene was molecular biologically characterized. -Uranium reductase gene (Cytochrome C3) and radiation resistance gene (recA) have been cloned from Desulfovibrio and Deinococcus radiodurans. -Two plant transformation vectors (pCYC3 and pDrecA) have been constructed. - Tobacco transgenic plants of have been obtained. 52 refs., 5 figs. (Author)

Genomic prediction unifies animal and plant breeding programs to form platforms for biological discovery.

Science.gov (United States)

Hickey, John M; Chiurugwi, Tinashe; Mackay, Ian; Powell, Wayne

2017-08-30

The rate of annual yield increases for major staple crops must more than double relative to current levels in order to feed a predicted global population of 9 billion by 2050. Controlled hybridization and selective breeding have been used for centuries to adapt plant and animal species for human use. However, achieving higher, sustainable rates of improvement in yields in various species will require renewed genetic interventions and dramatic improvement of agricultural practices. Genomic prediction of breeding values has the potential to improve selection, reduce costs and provide a platform that unifies breeding approaches, biological discovery, and tools and methods. Here we compare and contrast some animal and plant breeding approaches to make a case for bringing the two together through the application of genomic selection. We propose a strategy for the use of genomic selection as a unifying approach to deliver innovative 'step changes' in the rate of genetic gain at scale.

Advancement of mutation breeding on ornamental plants in Indonesia

International Nuclear Information System (INIS)

Handayati, W.

2013-01-01

Along with the increasing demand of ornamental plants in Indonesia and the change of consumers preference, Indonesian breeders have released 102 varieties in the last 5 year. However, the resulted varieties were not enough to substitute the imported varieties. A breeding method for a new variety was carried out through induced mutation. Many researches have been conducted in Indonesia, but these activities have not been comprehensively designed to create the potential genotypes that ready to be released as new superior varieties. Commonly, these activities were still in the stage of basic researches about the type and the most effective dose or lethal dose (LD 50 ), the sensitivity of both the plants cultured in-vitro and in-vivo to mutagen; and genetic or phenotypic diversity due to the mutagen treatments. Chrysanthemum and rose were the most of the ornamental plants that had been conducted. Some mutants have been released as new national superior varieties namely Julikara, Rosanda and Rosmarun (mini rose); Rosma (cut rose) and Mustika Kania (chrysanthemum). (author)

Pollination patterns and plant breeding systems in the Galapagos: a review.

Science.gov (United States)

Chamorro, Susana; Heleno, Ruben; Olesen, Jens M; McMullen, Conley K; Traveset, Anna

2012-11-01

Despite the importance of the Galápagos Islands for the development of central concepts in ecology and evolution, the understanding of many ecological processes in this archipelago is still very basic. One such process is pollination, which provides an important service to both plants and their pollinators. The rather modest level of knowledge on this subject has so far limited our predictive power on the consequences of the increasing threat of introduced plants and pollinators to this unique archipelago. As a first step toward building a unified view of the state of pollination in the Galápagos, a thorough literature search was conducted on the breeding systems of the archipelago's flora and compiled all documented flower-visitor interactions. Based on 38 studies from the last 100 years, we retrieved 329 unique interactions between 123 flowering plant species (50 endemics, 39 non-endemic natives, 26 introduced and eight of unknown origin) from 41 families and 120 animal species from 13 orders. We discuss the emergent patterns and identify promising research avenues in the field. Although breeding systems are known for pollinator fauna does not represent a constraint to the integration of new plant species into the native communities. Most interactions detected (approx. 90 %) come from a single island (most of them from Santa Cruz). Hymenopterans (mainly the endemic carpenter bee Xylocopa darwinii and ants), followed by lepidopterans, were the most important flower visitors. Dipterans were much more important flower visitors in the humid zone than in the dry zone. Bird and lizard pollination has been occasionally reported in the dry zone. Strong biases were detected in the sampling effort dedicated to different islands, time of day, focal plants and functional groups of visitors. Thus, the existing patterns need to be confronted with new and less biased data. The implementation of a community-level approach could greatly increase our understanding of pollination

Molecular breeding for drought tolerance in plants: wheat perspective

International Nuclear Information System (INIS)

Hussain, S.S.; Rivandi, A.; Rivandi, A.

2007-01-01

Wheat (Triticum aestivum L.em Thell.) is the first important and strategic cereal crop for the majority of world,s populations. It is the most important staple food of about two billion people (36% of the world population). Due to industrialization, erosion, urbanization, compaction, and the increase in acidity as a result of fertilization, there is a decrease in the available space for agriculture. Environmental conditions such as increased salinity, drought, and freezing cause adverse effects on the growth and productivity of cereal crops such as wheat (Triticum aestivum L.). Though grown under a wide range of climates and soils, wheat is best adapted to temperate regions. Whether the cropping occurs in the temperate areas or the tropics, both types of environments are affected by global warming and the destabilizing effects that it causes, none more serious than the attendant increased variability in rainfall and temperature. Due to the limited insight into the physiological basis of drought tolerance in wheat, a better understanding of some of the mechanisms that enable the plants to adapt to stress and maintain growth during stress periods would help in breeding for drought tolerance. On the other hand, understanding the genetic and genome organization using molecular markers is of great value for plant breeding purposes. (author)

Radiation techniques in crop and plant breeding. Multiplying the benefits

International Nuclear Information System (INIS)

Ahloowalia, B.S.

1998-01-01

World food production is based on growing a wide variety of fruits, vegetables, and crops developed through advances in science. Plant breeders have produced multiple varieties that grow well in various types of soils and under diverse climates in different regions of the world. Conventionally, this is done by sexual hybridization. This involves transferring pollen from one parent plant to another to obtain hybrids. The subsequent generations of these hybrids are grown to select plants which combine the desired characters of the parents. However, another method exists by which the genetic make-up of a given plant variety can be changed without crossing with another variety. With this method, a variety retains all its original attributes but is upgraded in one or two changed characteristics. This method is based on radiation-induced genetic changes, and its referred to as ''induced mutations''. During the past thirty years, more than 1800 mutant varieties of plants have been released, many, of which were induced with radiation. Plant tissue and cell culture (also called in vitro culture) in combination with radiation is a powerful technique to induce mutations, particularly for the improvement of vegetatively propagated crops. These crops include cassava, garlic, potato, sweet potato, yams, sugarcane, ornamentals such as chrysanthemum, carnation, roses, tulips, daffodil, and many fruits (e.g. apple, banana, plantain, citrus, date palm, grape, papaya, passion fruit, and kiwi fruit). In some of these plants, either there is no seed set (e.g. banana) or the seed progeny produces plants which do not have the right combination of the desired characteristics. These techniques are also useful in the improvement of forest trees having a long lifespan before they produce fruit and seed. This article briefly reviews advances in plant breeding techniques, with a view towards improving the transfer of technologies to more countries

Current status of molecular biological techniques for plant breeding in the Republic of Korea

Energy Technology Data Exchange (ETDEWEB)

Sohn, Seong-Han; Lee, Si-Myung; Park, Bum-Seok; Yun, In-Sun; Goo, Doe-Hoe; Kim, Seok-Dong [Rural Development Administration, National Institute of Agricultural Science and Technology, Suwon (Korea)

2002-02-01

Classical plant breeding has played an important role in developing new varieties in current agriculture. For decades, the technique of cross-pollination has been popular for breeding in cereal and horticultural crops to introduce special traits. However, recently the molecular techniques get widely accepted as an alternative tool in both introducing a useful trait for developing the new cultivars and investigating the characteristics of a trait in plant, like the identification of a gene. Using the advanced molecular technique, several genetically modified (GM) crops (e.g., Roundup Ready Soybean, YieldGard, LibertyLink etc.) became commercially cultivated and appeared in the global market since 1996. The GM crops, commercially available at the moment, could be regarded as successful achievements in history of crop breeding conferring the specific gene into economically valuable crops to make them better. Along with such achievements, on the other hand these new crops have also caused the controversial debate on the safety of GM crops as human consumption and environmental release as well. Nevertheless, molecular techniques are widespread and popular in both investigating the basic science of plant biology and breeding new varieties compared to their conventional counterparts. Thus, the Department of Bioresources at the National Institute of Agricultural Science and Technology (NIAST) has been using the molecular biological techniques as a complimentary tool for the improvement of crop varieties for almost two decades. (author)

Managing phenol contents in crop plants by phytochemical farming and breeding-visions and constraints.

Science.gov (United States)

Treutter, Dieter

2010-03-02

Two main fields of interest form the background of actual demand for optimized levels of phenolic compounds in crop plants. These are human health and plant resistance to pathogens and to biotic and abiotic stress factors. A survey of agricultural technologies influencing the biosynthesis and accumulation of phenolic compounds in crop plants is presented, including observations on the effects of light, temperature, mineral nutrition, water management, grafting, elevated atmospheric CO(2), growth and differentiation of the plant and application of elicitors, stimulating agents and plant activators. The underlying mechanisms are discussed with respect to carbohydrate availability, trade-offs to competing demands as well as to regulatory elements. Outlines are given for genetic engineering and plant breeding. Constraints and possible physiological feedbacks are considered for successful and sustainable application of agricultural techniques with respect to management of plant phenol profiles and concentrations.

Plant breeding and genetics newsletter, No. 24, January 2010

International Nuclear Information System (INIS)

2010-01-01

In the past biennium Plant Breeding and Genetics (PBG) subprogramme served 105 Member States through sixty-four national (30 Africa, 24 Asia and the Pacific, seven Latin America and the Caribbean, three Europe), seven regional (one Africa, four Asia and the Pacific, one Latin America and the Caribbean, one Europe) and one interregional Technical Cooperation Projects (TCPs), and six Coordinated Research Projects (CRPs) . Chosen highlights of these activities, you will find inside this issue

Plant breeding and genetics newsletter. No. 18, January 2007

International Nuclear Information System (INIS)

2007-01-01

The Plant Breeding and Genetics (PBG) Section of the Joint FAO/IAEA Programme (NAFA/AGE) currently implement six Research Coordination Meetings (RCMs) ranging from fundamental aspects of effects of mutagens on DNA sequence to the assessment of nutrient uptake from biofortified crops. Particular attention was given the CRP: 'Identification and pyramiding of mutated genes: Novel approaches for improving crop tolerance to salinity and drought'. Highlight of training and other activities were also included

Proceedings of the 8th workshop on plant mutation breeding. Effective use of physical/chemical mutagens

Energy Technology Data Exchange (ETDEWEB)

Kume, Tamikazu; Watanabe, Kazuo; Tano, Shigemitsu (eds.) [Japan Atomic Energy Research Inst., Takasaki, Gunma (Japan). Takasaki Radiation Chemistry Research Establishment

2001-03-01

The Workshop on Plant Mutation Breeding of FNCA (Forum for Nuclear Cooperation in Asia), was held on 9-13 October 2000 in Hanoi, Vietnam. The Workshop was co-sponsored by the Science and Technology Agency (STA), the Ministry of Science, Technology and Environment (MOSTE of Vietnam) and the Ministry of Agriculture and Rural Development (MARD of Vietnam) in cooperation with the Ministry of Agriculture, Forestry and Fisheries (MAFF), National Institute of Agrobiological Resources (NIAR of Vietnam), the Japan Atomic Industrial Forum (JAIF) and Japan Atomic Energy Research Institute (JAERI). Two Scientists, a Project Leader and an expert on methodology for plant/crop mutation breeding, participated from each of the member countries, i.e. China, Indonesia, Malaysia, the Philippines, Thailand, Vietnam and Japan. Also attending the Workshop were, one participant from Korea, seven participants from both Japan and Vietnam. The number of the participants in the Workshop totalled about sixty people including guests and observers. Sixteen papers including eight invited papers on the current status of methodology for plant/crop mutation breeding in the participating countries were presented. Discussions were focused on the subject concerning 'Effective Use of Physical/Chemical Mutagens', as well as a detailed report on the current status of research in each participating country. In addition, the topics of developing a mutant breeding database, an information exchange for plant/crop mutation breeding, and more tightly bound international co-operative research in the near future were also high on the agenda. This proceeding compiles the invited and contributed papers that were submitted from the speakers. (author)

Proceedings of the 8th workshop on plant mutation breeding. Effective use of physical/chemical mutagens

Energy Technology Data Exchange (ETDEWEB)

Kume, Tamikazu; Watanabe, Kazuo; Tano, Shigemitsu [Japan Atomic Energy Research Inst., Takasaki, Gunma (Japan). Takasaki Radiation Chemistry Research Establishment

2001-03-01

The Workshop on Plant Mutation Breeding of FNCA (Forum for Nuclear Cooperation in Asia), was held on 9-13 October 2000 in Hanoi, Vietnam. The Workshop was co-sponsored by the Science and Technology Agency (STA), the Ministry of Science, Technology and Environment (MOSTE of Vietnam) and the Ministry of Agriculture and Rural Development (MARD of Vietnam) in cooperation with the Ministry of Agriculture, Forestry and Fisheries (MAFF), National Institute of Agrobiological Resources (NIAR of Vietnam), the Japan Atomic Industrial Forum (JAIF) and Japan Atomic Energy Research Institute (JAERI). Two Scientists, a Project Leader and an expert on methodology for plant/crop mutation breeding, participated from each of the member countries, i.e. China, Indonesia, Malaysia, the Philippines, Thailand, Vietnam and Japan. Also attending the Workshop were, one participant from Korea, seven participants from both Japan and Vietnam. The number of the participants in the Workshop totalled about sixty people including guests and observers. Sixteen papers including eight invited papers on the current status of methodology for plant/crop mutation breeding in the participating countries were presented. Discussions were focused on the subject concerning 'Effective Use of Physical/Chemical Mutagens', as well as a detailed report on the current status of research in each participating country. In addition, the topics of developing a mutant breeding database, an information exchange for plant/crop mutation breeding, and more tightly bound international co-operative research in the near future were also high on the agenda. This proceeding compiles the invited and contributed papers that were submitted from the speakers. (author)

Whole-genome regression and prediction methods applied to plant and animal breeding

NARCIS (Netherlands)

Los Campos, De G.; Hickey, J.M.; Pong-Wong, R.; Daetwyler, H.D.; Calus, M.P.L.

2013-01-01

Genomic-enabled prediction is becoming increasingly important in animal and plant breeding, and is also receiving attention in human genetics. Deriving accurate predictions of complex traits requires implementing whole-genome regression (WGR) models where phenotypes are regressed on thousands of

Proceedings of the FNCA workshop on plant mutation breeding 2001. Molecular biological techniques

International Nuclear Information System (INIS)

Kume, Tamikazu; Watanabe, Kazuo; Tano, Shigemitsu

2002-02-01

The FNCA (Forum for Nuclear Cooperation in Asia) Workshop on Plant Mutation Breeding was held on 20-24 August 2001 in Bangkok, Thailand. The Workshop was sponsored by the Ministry of Education, Culture, Sports, Science and Technology (MEXT). The Kasetsart University (KU), the Office of Atomic Energy for Peace (OAEP) and Department of Agriculture (DOA) acted as local host and the organizer with the cooperation of the Ministry of Agriculture, Forestry and Fisheries (MAFF) of Japan, the Japan Atomic Industrial Forum (JAIF) and Japan Atomic Energy Research Institute (JAERI). The Workshop was attended by two participants, a Project Leader and an expert on molecular biological techniques for plant mutation breeding, from each of the participating countries, i.e. China, Indonesia, Malaysia, the Philippines and Vietnam. One participant from the Republic of Korea, nine participants from Japan and thirteen participants from Thailand including three invited speakers attended the Workshop. Eleven papers including three invited papers on the current status of molecular biological techniques for plant mutation breeding were presented. Discussions were focused to further regional cooperation, to review and discuss results of past activities. The Medium-Term Plan of the project on the application of radiation and radioisotopes for agriculture in participating countries of Regional Nuclear Cooperation Activities (RNCA) was formulated and agreed. This proceeding compiles the invited and contributed papers that were submitted from the speakers. (author)

Contributions of plant breeding in Brazil: progress and perspectives

OpenAIRE

Ramalho, Magno Antonio Patto; Dias, Luiz Antônio dos Santos; Carvalho, Bruna Line

2012-01-01

Agribusiness is fundamental for the Brazilian economy. This has become possible due to the use of science and technology in agriculture in the last 35 years. Among the technologies, the use of improved cultivars stands out. This article presents the situation of the species grown in the country in recent years and the contribution of genetic plant breeding to the performance of these species. Challenges multiplied because of populational growth associated with the ever-growing concern of soci...

The Effect of Plants with Novel Traits (PNT) Regulation on Mutation Breeding in Canada

International Nuclear Information System (INIS)

Rowland, G.G.

2009-01-01

The Canadian Environmental Protection Act (1988) has within it a definition for biotechnology. This definition would have allowed the government department, Environment Canada, to regulate all genetically modified organisms (GMOs) in Canada. In response to this, the Canadian Food Inspection Agency (CFIA), which reports to the Minister of Agriculture and Agri-Food Canada, developed the concept of a Plant with Novel Trait (PNT). Not only does this definition capture GMOs, it also includes induced mutations, natural mutations and exotic germplasm that have not previously been grown in Canada. It is a system that is product, not process based. However, apart from questions regarding the novelty of traits in new plant varieties, breeders are asked by CFIA to identify the process used to develop the trait or traits in question. Field trials involving breeding lines with a PNT may be subject to confined testing. This conference celebrated 80 years of unconfined development and testing of induced plant mutations. This regulation is time consuming, expensive and an innovation barrier for Canadian plant breeding. It can only be hoped that other nations, and particularly those that have successfully used induced mutations, will not emulate Canada's approach. (author)

The improvement of cotton plant in mutation breeding dry climate areas at NTB

International Nuclear Information System (INIS)

Lilik Harsanti

2015-01-01

The opportunity of cotton plant to become a major crop in Indonesia is widely opened due to its extensive adaptability, productivity, efficiency of nutrient intake, and relatively resistant against pests and plant diseases. Generally, cotton plant is an important industrial crop in textile manufacture. Cotton plant has been known and planted for a long time ago by the local farmer, especially at Java, NTB and NTT. Plant mutation breeding have the mutant lines genetic for plant. The mutant lines of cotton plant, which originally come from embryogenic tissue culture (embryo axis, NIAB-999), were irradiated with dose of 20 Gy. Gamma Chamber 4000-A with source of 60 Cobalt was used for the irradiation treatment. The experiments were done at Citayam by designed by randomized Block design with five replications. Both of mutant lines were planted in the plot with size of 8 × 7 m 2 and 10 × 100 cm of spacing. Kanesia 15 variety was used as a control. The parameters observed were the days of maturity, plant height, number of generative branches, number of fruit/plant, weight of 100 cotton boll per plot. As the results, CN 2A has the biggest productivity, shown by the weight of the cotton fiber per plot, which is 447.510 kg compared to Kanesia 15 and NIAB 999 is control national and control mother. (author)

Breeding for genetic improvement of forage plants in relation to increasing animal production with reduced environmental footprint.

Science.gov (United States)

Kingston-Smith, A H; Marshall, A H; Moorby, J M

2013-03-01

Animal production is a fundamental component of the food supply chain, and with an increasing global population production levels are set to increase. Ruminant animals in particular are valuable in their ability to convert a fibre-rich forage diet into a high-quality protein product for human consumption, although this benefit is offset by inefficiencies in rumen fermentation that contribute to emission of significant quantities of methane and nitrogenous waste. Through co-operation between plant and animal sciences, we can identify how the nutritional requirements of ruminants can be satisfied by high-quality forages for the future. Selective forage plant breeding has supported crop improvement for nearly a century. Early plant breeding programmes were successful in terms of yield gains (4% to 5% per decade), with quality traits becoming increasingly important breeding targets (e.g. enhanced disease resistance and digestibility). Recently, demands for more sustainable production systems have required high yielding, high-quality forages that enable efficient animal production with minimal environmental impact. Achieving this involves considering the entire farm system and identifying opportunities for maximising nutrient use efficiency in both forage and animal components. Forage crops of the future must be able to utilise limited resources (water and nutrients) to maximise production on a limited land area and this may require us to consider alternative plant species to those currently in use. Furthermore, new breeding targets will be identified as the interactions between plants and the animals that consume them become better understood. This will ensure that available resources are targeted at delivering maximum benefits to the animal through enhanced transformation efficiency.

Genetic engineering, a potential aid to conventional plant breeding

International Nuclear Information System (INIS)

Baloch, M.J.; Soomro, B.A.

1993-01-01

To develop improve crop varieties, the most basic elements are crossing of desirable parents to provide genetic variation for evaluation and selection of desirable plants among the progenies. In conventional plant breeding, gene transfer is achieved by back crossing or less frequently by recurrent selection. Both processes take several generations to reach to a point where genetic milieu of the parents remains. Plant breeders also face the most difficult situation when the desired gene is present in the entirely diverse species where wide crosses become inevitable. In addition, genomic disharmony, unfavourable genic interaction and chromosomal instability also account for limited success of wide hybridization in the field crops. Under such circumstances, tissue culture techniques, such as somaclonal variation, Embryo Rescue Technique and Somatic hybridization are the ultimate options. There may be other cases where desired genes are present in entirely different genera or organisms and crossings of donor with recipient is no more a concern. Plant breeders also spend much of their time manipulating quantitatively inherited traits such as yield, that have low heritability. These characters are assumed to be determined by a large number of genes each with minor and additive effects. Direct selection for such traits is less effective. Genetic Engineering approaches like isozymes and Restriction Fragment Length Polymorphism (RFLP) with heritability of 1.0 make the selection very efficient and accurate as indirect selection criteria for quantitatively inherited traits. Hence isozymes and RFLPs techniques can easily be exercised at cellular or seedling stages thus reducing the time and labour oriented screening of plants at maturity. Rather new approach such as polymerase chain reaction (PCR) will also be discussed in this article. (Orig./A.B.)

Climate Change Effects to Plant Ecosystems - Genetic Resources for Future Barley Breeding

DEFF Research Database (Denmark)

Ingvordsen, Cathrine Heinz

were identified for possible use in breeding of climate resilient cultivars and SNP-markers that link to traits favourable in changed environments. Basic knowledge of plant response to multifactor climate treatments has been added as well as data on numerous genotypes modeling the impact of climate...

Genoproteomics-assisted improvement of Andrographis paniculata: toward a promising molecular and conventional breeding platform for autogamous plants affecting the pharmaceutical industry.

Science.gov (United States)

Valdiani, Alireza; Talei, Daryush; Lattoo, Surrinder K; Ortiz, Rodomiro; Rasmussen, Søren Kjærsgaard; Batley, Jacqueline; Rafii, Mohd Yusop; Maziah, Mahmood; Sabu, Kallevettankuzhy K; Abiri, Rambod; Sakuanrungsirikul, Suchirat; Tan, Soon Guan

2017-09-01

Andrographis paniculata (Burm. f.) Wall. ex Nees. (AP) is a hermaphroditic, self-compatible, and habitual inbreeding plant. Its main bioactive component is andrographolide, which is capable of inducing autophagic cell death in some human cancer cells and helps fight HIV/AIDS. Increasing the andrographolide content by investigating the genetic mechanisms controlling its biosynthesis in order to improve and develop high-yielding cultivars are the main breeding targets for AP. However, there might exist some limitations or barriers for crossability within AP accessions. Recently, this problem was addressed in AP by using a combination of crossbreeding and biotechnology-aided genetic methods. This review emphasizes that development of a breeding platform in a hard-to-breed plant, such as AP, requires the involvement of a broad range of methods from classical genetics to molecular breeding. To this end, a phenological stage (for example, flowering and stigma development) can be simplified to a quantitative morphological trait (for example, bud or stigma length) to be used as an index to express the highest level of receptivity in order to manage outcrossing. The outcomes of the basic crossability research can be then employed in diallel mating and crossbreeding. This review explains how genomic data could produce useful information regarding genetic distance and its influence on the crossability of AP accessions. Our review indicates that co-dominant DNA markers, such as microsatellites, are also capable of resolving the evolutionary pathway and cryptic features of plant populations and such information can be used to select the best breeding strategy. This review also highlights the importance of proteomic analysis as a breeding tool. In this regard, protein diversification, as well as the impact of normal and stress-responsive proteins on morphometric and physiological behaviors, could be used in breeding programs. These findings have immense potential for improving

Studies on plant breeding and genetics by radiation application

International Nuclear Information System (INIS)

Kwon, S.H.; Chung, K.H.; Woon, J.L.; Oh, J.H.; Kim, J.R.; Chae, J.C.; Shin, I.C.

1981-01-01

This study was conducted to obtain appropriate breeding materials for mutation breeding by evaluation of the soybean germ plasm and to select promising mutants from the progenies of various irradiated populations. Some fundamental studies were carried out to cope with the problems of diseases, insect pests and physiological stresses relevant to local adaptability in soybean. Establishment of a useful technique for induced mutation in barley and some vegetatively propagated plants was also carried out. As results, promising 5 soybean lines were selected from 21 entries tested for productivity and local adaptability at the four different locations. They showed superior yield potential (over 3,000 kg/ha) to the present leading varieties. It is to be hoped that they will be released as new varieties, if they keep the same yield potential in advance tests next year

Use of physical/chemical mutagens in plant breeding program in Vietnam

International Nuclear Information System (INIS)

Tran Duy Quy; Nguyen Huu Dong; Bui Huy Thuy; Le Van Nha; Nguyen Van Bich

2001-01-01

Among more than 1870 new plant varieties formed by mutation breeding in the world, 44 varieties of different plants were formed by Vietnamese scientists. Research on induced mutation in Vietnam started in 1966, was promoted in Agricultural Institute, Cuu Long Delta Rice Research Institute, Institute of Food Crop Research, and Agriculture Universities, and has produced varieties of rice, maize, soybean, peanut, tomato, jujuba, green bean etc using physical and chemical mutagens: Irradiation with gamma rays or neutrons, and use of such chemicals as dimethylsulfate (DMS), diethylsulfate (DES), ethyleneimine (EI), N-nitrosomethylurea (NUM), N-nitrosoethylurea (NEU), and sodium azide (NaN 3 ). In the present report, the results of cytological and genetic effects in M1 plants, the frequency and spectrum of chlorophyll and morphological mutants, the mutants obtained and the genetic nature of the next generation are described, particularly for the case of rice. Radiation dose and dose rate used as mutagens are also reported. (S. Ohno)

Use of physical/chemical mutagens in plant breeding program in Vietnam

Energy Technology Data Exchange (ETDEWEB)

Tran Duy Quy; Nguyen Huu Dong; Bui Huy Thuy; Le Van Nha; Nguyen Van Bich [Agricultural Genetics Institute, Hanoi (Viet Nam)

2001-03-01

Among more than 1870 new plant varieties formed by mutation breeding in the world, 44 varieties of different plants were formed by Vietnamese scientists. Research on induced mutation in Vietnam started in 1966, was promoted in Agricultural Institute, Cuu Long Delta Rice Research Institute, Institute of Food Crop Research, and Agriculture Universities, and has produced varieties of rice, maize, soybean, peanut, tomato, jujuba, green bean etc using physical and chemical mutagens: Irradiation with gamma rays or neutrons, and use of such chemicals as dimethylsulfate (DMS), diethylsulfate (DES), ethyleneimine (EI), N-nitrosomethylurea (NUM), N-nitrosoethylurea (NEU), and sodium azide (NaN{sub 3}). In the present report, the results of cytological and genetic effects in M1 plants, the frequency and spectrum of chlorophyll and morphological mutants, the mutants obtained and the genetic nature of the next generation are described, particularly for the case of rice. Radiation dose and dose rate used as mutagens are also reported. (S. Ohno)

The consequences of the concept of naturalness for organic plant breeding and propagation

NARCIS (Netherlands)

Lammerts Van Bueren, E.; Struik, P.C.

2004-01-01

Organic agriculture is enhancing specific plant breeding activities to meet its requirements for varieties better adapted to the specific organic environment. In the past five years, therefore, attempts have been made to translate the principles of organic farming into rules, regulations and

Mutations in plant breeding: a glance back and a look forward

International Nuclear Information System (INIS)

Gustafsson, A.

1975-01-01

This brief retrospect of previous shortcomings and procedures really indicates the need for a better co-ordination and co-operation in plant breeding. We now know which mutagens are essential in practical mutation work, and we include radiations as well as chemicals. We now know that there is no principal difference between natural and induced variation. We can easily induce mutational events covering the gap between gross chromosomal rearrangements and DNA-base substitutions. We also know that induced variation may in the future fill and replace the loss of natural variability, or may even extend the limits of variation. We know that mutation and recombination--as evidenced, for instance, by the successful work in barley--will be united into routine procedures, also leading to new breakthroughs in plant improvement. Moreover, ingenious techniques of mass testing are under way, combining traditional and prospective ideas. The mutation method has come to stay, not alone but with gene recombination, with heterosis and with polyploidy. We say that the present is the past's future. To glance back is then to look forward; failures give rise to progress. A synthesis of breeding methods is around the corner

Genotyping by sequencing (GBS, an ultimate marker-assisted selection (MAS tool to accelerate plant breeding

Directory of Open Access Journals (Sweden)

Jiangfeng eHe

2014-09-01

Full Text Available Marker-assisted selection (MAS refers to the use of molecular markers to assist phenotypic selections in crop improvement. Several types of molecular markers, such as single nucleotide polymorphism (SNP, have been identified and effectively used in plant breeding. The application of next-generation sequencing (NGS technologies has led to remarkable advances in whole genome sequencing, which provides ultra-throughput sequences to revolutionize plant genotyping and breeding. To further broaden NGS usages to large crop genomes such as maize and wheat, genotyping by sequencing (GBS has been developed and applied in sequencing multiplexed samples that combine molecular marker discovery and genotyping. GBS is a novel application of NGS protocols for discovering and genotyping SNPs in crop genomes and populations. The GBS approach includes the digestion of genomic DNA with restriction enzymes followed by the ligation of barcode adapter, PCR amplification and sequencing of the amplified DNA pool on a single lane of flow cells. Bioinformatic pipelines are needed to analyze and interpret GBS datasets. As an ultimate MAS tool and a cost-effective technique, GBS has been successfully used in implementing genome-wide association study (GWAS, genomic diversity study, genetic linkage analysis, molecular marker discovery and genomic selection (GS under a large scale of plant breeding programs.

Genotyping-by-sequencing (GBS), an ultimate marker-assisted selection (MAS) tool to accelerate plant breeding.

Science.gov (United States)

He, Jiangfeng; Zhao, Xiaoqing; Laroche, André; Lu, Zhen-Xiang; Liu, HongKui; Li, Ziqin

2014-01-01

Marker-assisted selection (MAS) refers to the use of molecular markers to assist phenotypic selections in crop improvement. Several types of molecular markers, such as single nucleotide polymorphism (SNP), have been identified and effectively used in plant breeding. The application of next-generation sequencing (NGS) technologies has led to remarkable advances in whole genome sequencing, which provides ultra-throughput sequences to revolutionize plant genotyping and breeding. To further broaden NGS usages to large crop genomes such as maize and wheat, genotyping-by-sequencing (GBS) has been developed and applied in sequencing multiplexed samples that combine molecular marker discovery and genotyping. GBS is a novel application of NGS protocols for discovering and genotyping SNPs in crop genomes and populations. The GBS approach includes the digestion of genomic DNA with restriction enzymes followed by the ligation of barcode adapter, PCR amplification and sequencing of the amplified DNA pool on a single lane of flow cells. Bioinformatic pipelines are needed to analyze and interpret GBS datasets. As an ultimate MAS tool and a cost-effective technique, GBS has been successfully used in implementing genome-wide association study (GWAS), genomic diversity study, genetic linkage analysis, molecular marker discovery and genomic selection under a large scale of plant breeding programs.

Following the genes that make resistant plants: shared tools for breeding and pathology

Science.gov (United States)

Although plant pathology and breeding are distinct disciplines with unique perspectives, they frequently share a common goal: that of identifying and understanding durable resistance, the kind of resistance that will not be overcome quickly and will remain effective against a wide array of isolates....

Mutation breeding in sorghum (sorghum bicolor L.) for improving plant as ruminant feed

International Nuclear Information System (INIS)

H, Soeranto

1998-01-01

Mutation breeding using gamma irradiation in sorghum was aimed at improving the quality and production of sorghum plant as ruminant feed. Seeds of local sorghum variety Keris with moisture of about 14% were irradiated with gamma rays from Cobalt-60 source using the dose levels up to 0.5 kgy. The MI plant were grown in Pasar Jumat, the M2 and M3 were grown in Citayam experimental station. The M2 plants were harvested 40 days after sowing by cutting plants 20 cm above ground surface. Two weeks later observations for the ability of plants to produce new buds (buds variable). The plants green products in green products in from of their dry weight (product variable) were collected 40 days after harvesting and drying process in oven at 105 0 C for 24 hours. Plant selections with intensity of 20% were done for the bud variable among samples of M2 plants. Selection responses in the M3 were found to vary from the lowest at 0.5 kgy population (R s = 0.8507). The share of genetic factors to selection responses in bud variable varied from 7.25% at 0,5 kgy population to 22.35% at 0.3 kgy population. Selection for bud variable gave directly impact in increasing product variable in the M3. (author)

Prediction of genetic values of quantitative traits with epistatic effects in plant breeding populations.

Science.gov (United States)

Wang, D; Salah El-Basyoni, I; Stephen Baenziger, P; Crossa, J; Eskridge, K M; Dweikat, I

2012-11-01

Though epistasis has long been postulated to have a critical role in genetic regulation of important pathways as well as provide a major source of variation in the process of speciation, the importance of epistasis for genomic selection in the context of plant breeding is still being debated. In this paper, we report the results on the prediction of genetic values with epistatic effects for 280 accessions in the Nebraska Wheat Breeding Program using adaptive mixed least absolute shrinkage and selection operator (LASSO). The development of adaptive mixed LASSO, originally designed for association mapping, for the context of genomic selection is reported. The results show that adaptive mixed LASSO can be successfully applied to the prediction of genetic values while incorporating both marker main effects and epistatic effects. Especially, the prediction accuracy is substantially improved by the inclusion of two-locus epistatic effects (more than onefold in some cases as measured by cross-validation correlation coefficient), which is observed for multiple traits and planting locations. This points to significant potential in using non-additive genetic effects for genomic selection in crop breeding practices.

BreedVision — A Multi-Sensor Platform for Non-Destructive Field-Based Phenotyping in Plant Breeding

Science.gov (United States)

Busemeyer, Lucas; Mentrup, Daniel; Möller, Kim; Wunder, Erik; Alheit, Katharina; Hahn, Volker; Maurer, Hans Peter; Reif, Jochen C.; Würschum, Tobias; Müller, Joachim; Rahe, Florian; Ruckelshausen, Arno

2013-01-01

To achieve the food and energy security of an increasing World population likely to exceed nine billion by 2050 represents a major challenge for plant breeding. Our ability to measure traits under field conditions has improved little over the last decades and currently constitutes a major bottleneck in crop improvement. This work describes the development of a tractor-pulled multi-sensor phenotyping platform for small grain cereals with a focus on the technological development of the system. Various optical sensors like light curtain imaging, 3D Time-of-Flight cameras, laser distance sensors, hyperspectral imaging as well as color imaging are integrated into the system to collect spectral and morphological information of the plants. The study specifies: the mechanical design, the system architecture for data collection and data processing, the phenotyping procedure of the integrated system, results from field trials for data quality evaluation, as well as calibration results for plant height determination as a quantified example for a platform application. Repeated measurements were taken at three developmental stages of the plants in the years 2011 and 2012 employing triticale (×Triticosecale Wittmack L.) as a model species. The technical repeatability of measurement results was high for nearly all different types of sensors which confirmed the high suitability of the platform under field conditions. The developed platform constitutes a robust basis for the development and calibration of further sensor and multi-sensor fusion models to measure various agronomic traits like plant moisture content, lodging, tiller density or biomass yield, and thus, represents a major step towards widening the bottleneck of non-destructive phenotyping for crop improvement and plant genetic studies. PMID:23447014

Pollination patterns and plant breeding systems in the Galápagos: a review

Science.gov (United States)

Chamorro, Susana; Heleno, Ruben; Olesen, Jens M.; McMullen, Conley K.; Traveset, Anna

2012-01-01

Background Despite the importance of the Galápagos Islands for the development of central concepts in ecology and evolution, the understanding of many ecological processes in this archipelago is still very basic. One such process is pollination, which provides an important service to both plants and their pollinators. The rather modest level of knowledge on this subject has so far limited our predictive power on the consequences of the increasing threat of introduced plants and pollinators to this unique archipelago. Scope As a first step toward building a unified view of the state of pollination in the Galápagos, a thorough literature search was conducted on the breeding systems of the archipelago's flora and compiled all documented flower–visitor interactions. Based on 38 studies from the last 100 years, we retrieved 329 unique interactions between 123 flowering plant species (50 endemics, 39 non-endemic natives, 26 introduced and eight of unknown origin) from 41 families and 120 animal species from 13 orders. We discuss the emergent patterns and identify promising research avenues in the field. Conclusions Although breeding systems are known for pollinator fauna does not represent a constraint to the integration of new plant species into the native communities. Most interactions detected (approx. 90 %) come from a single island (most of them from Santa Cruz). Hymenopterans (mainly the endemic carpenter bee Xylocopa darwinii and ants), followed by lepidopterans, were the most important flower visitors. Dipterans were much more important flower visitors in the humid zone than in the dry zone. Bird and lizard pollination has been occasionally reported in the dry zone. Strong biases were detected in the sampling effort dedicated to different islands, time of day, focal plants and functional groups of visitors. Thus, the existing patterns need to be confronted with new and less biased data. The implementation of a community-level approach could greatly increase

Plant breeding and genetics newsletter. No. 20, January 2008

International Nuclear Information System (INIS)

2008-01-01

The highlight of this issue is the Second Coordinators Meeting under RAS/5/048 (ARASIA): 'Mutation Induction and Supportive Breeding and Biotechnologies for Improving Crop Productivity', on 11-15 November 2007, in Damascus, Syrian Arab Republic. A major achievement of this regional project was the adoption of the Standard Material Transfer Agreement (SMTA) for germplasm exchanges. It puts the ARASIA States Parties participating in this project into a leadership position for the regional application of the SMTA under the Multilateral System on Access and Benefit Sharing in the framework of the International Treaty on Plant Genetic Resources for Food and Agriculture

Plant breeding and genetics newsletter. No. 20, January 2008

Energy Technology Data Exchange (ETDEWEB)

NONE

2008-01-15

The highlight of this issue is the Second Coordinators Meeting under RAS/5/048 (ARASIA): 'Mutation Induction and Supportive Breeding and Biotechnologies for Improving Crop Productivity', on 11-15 November 2007, in Damascus, Syrian Arab Republic. A major achievement of this regional project was the adoption of the Standard Material Transfer Agreement (SMTA) for germplasm exchanges. It puts the ARASIA States Parties participating in this project into a leadership position for the regional application of the SMTA under the Multilateral System on Access and Benefit Sharing in the framework of the International Treaty on Plant Genetic Resources for Food and Agriculture.

Prediction of genetic values of quantitative traits in plant breeding using pedigree and molecular markers.

Science.gov (United States)

Crossa, José; Campos, Gustavo de Los; Pérez, Paulino; Gianola, Daniel; Burgueño, Juan; Araus, José Luis; Makumbi, Dan; Singh, Ravi P; Dreisigacker, Susanne; Yan, Jianbing; Arief, Vivi; Banziger, Marianne; Braun, Hans-Joachim

2010-10-01

The availability of dense molecular markers has made possible the use of genomic selection (GS) for plant breeding. However, the evaluation of models for GS in real plant populations is very limited. This article evaluates the performance of parametric and semiparametric models for GS using wheat (Triticum aestivum L.) and maize (Zea mays) data in which different traits were measured in several environmental conditions. The findings, based on extensive cross-validations, indicate that models including marker information had higher predictive ability than pedigree-based models. In the wheat data set, and relative to a pedigree model, gains in predictive ability due to inclusion of markers ranged from 7.7 to 35.7%. Correlation between observed and predictive values in the maize data set achieved values up to 0.79. Estimates of marker effects were different across environmental conditions, indicating that genotype × environment interaction is an important component of genetic variability. These results indicate that GS in plant breeding can be an effective strategy for selecting among lines whose phenotypes have yet to be observed.

Participatory Plant Breeding with Traders and Farmers for White Pea Bean in Ethiopia

Science.gov (United States)

Assefa, T.; Sperling, L.; Dagne, B.; Argaw, W.; Tessema, D.; Beebe, S.

2014-01-01

Purpose: This research, conducted in Ethiopia, involved select stakeholders in the variety evaluation process early: to identify a greater number of acceptable varieties and to shorten a lengthy research and release process. Design/methodology/approach: A Participatory Plant Breeding (PPB) approach was used in both on-station and community-based…

Comparative regulatory approaches for groups of new plant breeding techniques.

Science.gov (United States)

Lusser, Maria; Davies, Howard V

2013-06-25

This manuscript provides insights into ongoing debates on the regulatory issues surrounding groups of biotechnology-driven 'New Plant Breeding Techniques' (NPBTs). It presents the outcomes of preliminary discussions and in some cases the initial decisions taken by regulators in the following countries: Argentina, Australia, Canada, EU, Japan, South Africa and USA. In the light of these discussions we suggest in this manuscript a structured approach to make the evaluation more consistent and efficient. The issue appears to be complex as these groups of new technologies vary widely in both the technologies deployed and their impact on heritable changes in the plant genome. An added complication is that the legislation, definitions and regulatory approaches for biotechnology-derived crops differ significantly between these countries. There are therefore concerns that this situation will lead to non-harmonised regulatory approaches and asynchronous development and marketing of such crops resulting in trade disruptions. Copyright © 2013 Elsevier B.V. All rights reserved.

The utility of covariance of combining ability in plant breeding.

Science.gov (United States)

Arunachalam, V

1976-11-01

The definition of covariances of half- and full sibs, and hence that of variances of general and specific combining ability with regard to a quantitative character, is extended to take into account the respective covariances between a pair of characters. The interpretation of the dispersion and correlation matrices of general and specific combining ability is discussed by considering a set of single, three- and four-way crosses, made using diallel and line × tester mating systems in Pennisetum typhoides. The general implications of the concept of covariance of combining ability in plant breeding are discussed.

Arbitrarily amplified DNA: New molecular approaches to plant breeding, ecology and evolution

Energy Technology Data Exchange (ETDEWEB)

Caetano-Anolles, G [Department of Biology, University of Oslo, Oslo (Norway)

2001-11-01

Several DNA fingerprinting techniques that use arbitrary primers to characterize, scan and tag genomic DNA were optimized and used to study plants and microbial pathogens. The generated arbitrarily amplified DNA (AAD) profiles could be tailored in their complexity and polymorphic content, allowing analysis of closely related organisms, such as vegetatively-propagated horticultural crops or clonal fungal populations. AAD markers were used in cultivar and strain identification, map-based cloning, and marker-assisted breeding, sometimes as sequence-tagged sites. Phenetic analysis using parsimony, cluster, and numerical methods was applied successfully to the identification of genetic relationships in turfgrass species such as bermudagrass, woody plants such as dogwoods, and floricultural species such as petunia and chrysanthemum. AAD profiles were used to measure for the first time a genome-wide mutation rate, directly in a plant. Mutation rates in vegetatively propagated bermudagrass were comparable to those in human, mice, fruit flies, and worms. In combination with established tools used in molecular systematics (e.g. rDNA sequence analysis), AAD markers tracked the introduction of exotic dogwood anthracnose-causing fungi in North America. As part of a breeding effort to combat dogwood diseases, AAD was used in pseudo-testcross mapping of the tree at the intra-specific level. Markers were efficiently generated despite the close relatedness of parental dogwood material. Finally, DNA markers and tags were also generated in soybean, and were used to construct high density maps and walk towards defined genomic regions in the positional cloning of the supernodulation nts-1 symbiotic gene. (author)

Arbitrarily amplified DNA: New molecular approaches to plant breeding, ecology and evolution

International Nuclear Information System (INIS)

Caetano-Anolles, G.

2001-01-01

Several DNA fingerprinting techniques that use arbitrary primers to characterize, scan and tag genomic DNA were optimized and used to study plants and microbial pathogens. The generated arbitrarily amplified DNA (AAD) profiles could be tailored in their complexity and polymorphic content, allowing analysis of closely related organisms, such as vegetatively-propagated horticultural crops or clonal fungal populations. AAD markers were used in cultivar and strain identification, map-based cloning, and marker-assisted breeding, sometimes as sequence-tagged sites. Phenetic analysis using parsimony, cluster, and numerical methods was applied successfully to the identification of genetic relationships in turfgrass species such as bermudagrass, woody plants such as dogwoods, and floricultural species such as petunia and chrysanthemum. AAD profiles were used to measure for the first time a genome-wide mutation rate, directly in a plant. Mutation rates in vegetatively propagated bermudagrass were comparable to those in human, mice, fruit flies, and worms. In combination with established tools used in molecular systematics (e.g. rDNA sequence analysis), AAD markers tracked the introduction of exotic dogwood anthracnose-causing fungi in North America. As part of a breeding effort to combat dogwood diseases, AAD was used in pseudo-testcross mapping of the tree at the intra-specific level. Markers were efficiently generated despite the close relatedness of parental dogwood material. Finally, DNA markers and tags were also generated in soybean, and were used to construct high density maps and walk towards defined genomic regions in the positional cloning of the supernodulation nts-1 symbiotic gene. (author)

Effectors as Tools in Disease Resistance Breeding Against Biotrophic, Hemibiotrophic, and Necrotrophic Plant Pathogens

NARCIS (Netherlands)

Vleeshouwers, V.G.A.A.; Oliver, R.P.

2014-01-01

One of most important challenges in plant breeding is improving resistance to the plethora of pathogens that threaten our crops. The ever-growing world population, changing pathogen populations, and fungicide resistance issues have increased the urgency of this task. In addition to a vital inflow of

Towards development of new ornamental plants

DEFF Research Database (Denmark)

Kuligowska, Katarzyna; Lütken, Henrik Vlk; Müller, Renate

2016-01-01

is one of the oldest breeding techniques that contributed enormously to the development of modern plant cultivars. Within ornamental breeding, it represents the main source of genetic variation. During the long history of wide hybridization, a number of methods were implemented allowing the evolution...... from a conventional breeding tool into a modern methodology. Nowadays, the research on model plants and crop species increases our understanding of reproductive isolation among distant species and partly explains the background of the traditional approaches previously used for overcoming hybridization...... barriers. Characterization of parental plants and hybrids is performed using molecular and cytological techniques that strongly facilitate breeding processes. Molecular markers and sequencing technologies are used for the assessment of genetic relationships among plants, as the genetic distance...

Elevating optimal human nutrition to a central goal of plant breeding and production of plant-based foods.

Science.gov (United States)

Sands, David C; Morris, Cindy E; Dratz, Edward A; Pilgeram, Alice

2009-11-01

High-yielding cereals and other staples have produced adequate calories to ward off starvation for much of the world over several decades. However, deficiencies in certain amino acids, minerals, vitamins and fatty acids in staple crops, and animal diets derived from them, have aggravated the problem of malnutrition and the increasing incidence of certain chronic diseases in nominally well-nourished people (the so-called diseases of civilization). Enhanced global nutrition has great potential to reduce acute and chronic disease, the need for health care, the cost of health care, and to increase educational attainment, economic productivity and the quality of life. However, nutrition is currently not an important driver of most plant breeding efforts, and there are only a few well-known efforts to breed crops that are adapted to the needs of optimal human nutrition. Technological tools are available to greatly enhance the nutritional value of our staple crops. However, enhanced nutrition in major crops might only be achieved if nutritional traits are introduced in tandem with important agronomic yield drivers, such as resistance to emerging pests or diseases, to drought and salinity, to herbicides, parasitic plants, frost or heat. In this way we might circumvent a natural tendency for high yield and low production cost to effectively select against the best human nutrition. Here we discuss the need and means for agriculture, food processing, food transport, sociology, nutrition and medicine to be integrated into new approaches to food production with optimal human nutrition as a principle goal.

Induced mutation research in plant breeding; Recherche sur les mutations radioinduites en phytogenetique

Energy Technology Data Exchange (ETDEWEB)

Briggs, R. W. [Biology Department, Brookhaven National Laboratory, Upton, NY (United States)

1970-01-15

The improvement of plants is of great importance to the developing countries. The author briefly describes, with references, recent work on mutation breeding by means of ionizing radiations. The aim of this work is to increase the quantity and quality of plants, e.g. by increasing yield, by developing disease- or insect-resistant varieties, by increasing nutritive value, by improving taste, storage life and appearance. (author) [French] L'amélioration des plantes présente une grande importance pour les pays en voie de développement. L’auteur décrit succinctement, en s'appuyant sur des exemples, certaines recherches récentes en phytogénétique faisant intervenir des mutations radioinduites. L'objet du travail exposé dans le mémoire est d'améliorer quantitativement et qualitativement les plantes, par exemple en augmentant les rendements, en créant des variétés résistant aux maladies et aux insectes, en augmentant la valeur nutritive des produits, ou en améliorant leur goût, leur durée de conservation et leur aspect. (author)

Utilization of ionizing radiations and radioisotopes in plant breeding and crop improvement in Arab countries

International Nuclear Information System (INIS)

Abo-Hegazi, A.M.T.

1983-01-01

A review for research work in the field of utilizing ionizing radiations and radioisotopes in plant breeding and crop improvement conducted in Arab countries has been summerized and discussed in the light of some economic features of the crop or the plant on national or regional (arab) level. Among the 241 articles in the above mentioned fields reviewed, around 230 articles were conducted in Egypt, 6 in Iraq, 2 in Algeria and 2 in Sudan. Some of the articles dealing with more than one crop and/or more than one type of radiation or radioisotope

Be-Breeder - an application for analysis of genomic data in plant breeding

OpenAIRE

Matias,Filipe Inácio; Granato,Italo Stefanine Correa; Dequigiovanni,Gabriel; Fritsche-Neto,Roberto

2017-01-01

Abstract Be-Breeder is an application directed toward genetic breeding of plants, developed through the Shiny package of the R software, which allows different phenotype and molecular (marker) analysis to be undertaken. The section for analysis of molecular data of the Be-Breeder application makes it possible to achieve quality control of genotyping data, to obtain genomic kinship matrices, and to analyze genome selection, genome association, and genetic diversity in a simple manner on line. ...

Exotic plant species receive adequate pollinator service despite variable integration into plant-pollinator networks.

Science.gov (United States)

Thompson, Amibeth H; Knight, Tiffany M

2018-05-01

Both exotic and native plant species rely on insect pollinators for reproductive success, and yet few studies have evaluated whether and how exotic plant species receive services from native pollinators for successful reproduction in their introduced range. Plant species are expected to successfully reproduce in their exotic range if they have low reliance on animal pollinators or if they successfully integrate themselves into resident plant-pollinator networks. Here, we quantify the breeding system, network integration, and pollen limitation for ten focal exotic plant species in North America. Most exotic plant species relied on animal pollinators for reproduction, and these species varied in their network integration. However, plant reproduction was limited by pollen receipt for only one plant species. Our results demonstrate that even poorly integrated exotic plant species can still have high pollination service and high reproductive success. The comprehensive framework considered here provides a method to consider the contribution of plant breeding systems and the pollinator community to pollen limitation, and can be applied to future studies to provide a more synthetic understanding of the factors that determine reproductive success of exotic plant species.

Plant Breeding and Genetics Newsletter, No. 35, July 2015

International Nuclear Information System (INIS)

2015-07-01

The mission of the Joint FAO/IAEA Division is continually evolving to address novel challenges in MSs and nuclear applications continue to provide added value to conventional approaches in addressing a range of agricultural problems and issues. Member States are increasingly concerned with climate change and have expressed support to respond to emerging challenges related to transboundary plant diseases. The FAO/IAEA’s Plant Breeding and Genetics Section is working with Member States in developing and introducing mutant crop varieties that respond to climate change and food security and has successfully supported the development of disease resistant mutant varieties, such as Ug99 wheat resistant varieties in Kenya. Future support is expected on developing resistant mutant varieties to TR4 (Fusarium wilt, known as Panama disease) in banana and to leaf rust in coffee. International collaboration is one of the priorities of the Joint FAO/IAEA Division. We are pleased to announce our collaboration with Hernan Ceballos and his group at the International Center for Tropical Agriculture (CIAT) for the genotyping of cassava accessions held at CIAT in the context of which we will be developing Ecotilling and next generation sequencing approaches to characterize cassava germplasm for nucleotide variation in genes involved in traits such as starch quality and herbicide tolerance

Plant breeding and genetics newsletter. No. 21, July 2008

International Nuclear Information System (INIS)

2008-07-01

A major milestone for our subprogramme will be the upcoming International Symposium on Induced Mutations in Plants, which will be held 12-15 August 2008 in Vienna, Austria. This will be the eighth in the Joint FAO/IAEA Programme?s Symposium series dedicated exclusively to harnessing and disseminating information on current trends in induced mutagenesis in plants, the first of which was held in 1969 and the most recent in 1995. These previous symposia dealt with themes relating to the development of efficient protocols for induced mutagenesis and their role in the enhancement of quality traits, as well as resistance to biotic and abiotic stresses in crops and the integration of in vitro and molecular genetic techniques in mutation induction. Topics which to be addressed at this symposium will be: Molecular genetics and biology of physical, chemical and transposon-induced mutagenesis; New mutation techniques, e.g. ion beam implantation, and their integration with other molecular and biotechnological techniques; Induced mutations in crop breeding programmes; Mutation induction for gene discovery and functional genomics, including targeting induced local lesions in genomes (TILLING) and other reverse genetic strategies; Mutational analysis of important crop characters (tolerance to abiotic stresses, resistance to diseases and insects, quality and nutritional characters, etc.); Socio-economic impact of widespread mutant varieties

Plant breeding and genetics newsletter. No. 21, July 2008

Energy Technology Data Exchange (ETDEWEB)

NONE

2008-07-15

A major milestone for our subprogramme will be the upcoming International Symposium on Induced Mutations in Plants, which will be held 12-15 August 2008 in Vienna, Austria. This will be the eighth in the Joint FAO/IAEA Programme?s Symposium series dedicated exclusively to harnessing and disseminating information on current trends in induced mutagenesis in plants, the first of which was held in 1969 and the most recent in 1995. These previous symposia dealt with themes relating to the development of efficient protocols for induced mutagenesis and their role in the enhancement of quality traits, as well as resistance to biotic and abiotic stresses in crops and the integration of in vitro and molecular genetic techniques in mutation induction. Topics which to be addressed at this symposium will be: Molecular genetics and biology of physical, chemical and transposon-induced mutagenesis; New mutation techniques, e.g. ion beam implantation, and their integration with other molecular and biotechnological techniques; Induced mutations in crop breeding programmes; Mutation induction for gene discovery and functional genomics, including targeting induced local lesions in genomes (TILLING) and other reverse genetic strategies; Mutational analysis of important crop characters (tolerance to abiotic stresses, resistance to diseases and insects, quality and nutritional characters, etc.); Socio-economic impact of widespread mutant varieties.

Nuclear science for food security. IAEA says plant breeding technique can help beat world hunger

Energy Technology Data Exchange (ETDEWEB)

NONE

2008-12-02

The International Atomic Energy Agency (IAEA) today called for increased investment in a plant breeding technique that could bolster efforts aimed at pulling millions of people out of the hunger trap. IAEA scientists use radiation to produce improved high-yielding plants that adapt to harsh climate conditions such as drought or flood, or that are resistant to certain diseases and insect pests. Called mutation induction, the technique is safe, proven and cost-effective. It has been in use since the 1920s. 'The global nature of the food crisis is unprecedented. Families all around the world are struggling to feed themselves,' says Mohamed ElBaradei, Director General of the IAEA. 'To provide sustainable, long-term solutions, we must make use of all available resources. Selecting the crops that are better able to feed us is one of humankind's oldest sciences. But we've neglected to give it the support and investment it requires for universal application. The IAEA is urging a revival of nuclear crop breeding technologies to help tackle world hunger.' For decades the IAEA, in partnership with the Food and Agriculture Organization of the United Nations (FAO), has assisted its Member States to produce more, better and safer food. In plant breeding and genetics, its expertise is helping countries around the world to achieve enhanced agricultural output using nuclear technology. Already more than 3000 crop varieties of some 170 different plant species have been released through the direct intervention of the IAEA: they include barley that grows at 5000 meters (16,400 ft) and rice that thrives in saline soil. These varieties provide much needed food as well as millions of dollars in economic benefits for farmers and consumers, especially in developing countries. But with increased investment and broader application, the technology could positively impact the health and livelihood of even greater numbers of people. And as world hunger grows, the need has never been more urgent.

Nuclear science for food security. IAEA says plant breeding technique can help beat world hunger

International Nuclear Information System (INIS)

2008-01-01

The International Atomic Energy Agency (IAEA) today called for increased investment in a plant breeding technique that could bolster efforts aimed at pulling millions of people out of the hunger trap. IAEA scientists use radiation to produce improved high-yielding plants that adapt to harsh climate conditions such as drought or flood, or that are resistant to certain diseases and insect pests. Called mutation induction, the technique is safe, proven and cost-effective. It has been in use since the 1920s. 'The global nature of the food crisis is unprecedented. Families all around the world are struggling to feed themselves,' says Mohamed ElBaradei, Director General of the IAEA. 'To provide sustainable, long-term solutions, we must make use of all available resources. Selecting the crops that are better able to feed us is one of humankind's oldest sciences. But we've neglected to give it the support and investment it requires for universal application. The IAEA is urging a revival of nuclear crop breeding technologies to help tackle world hunger.' For decades the IAEA, in partnership with the Food and Agriculture Organization of the United Nations (FAO), has assisted its Member States to produce more, better and safer food. In plant breeding and genetics, its expertise is helping countries around the world to achieve enhanced agricultural output using nuclear technology. Already more than 3000 crop varieties of some 170 different plant species have been released through the direct intervention of the IAEA: they include barley that grows at 5000 meters (16,400 ft) and rice that thrives in saline soil. These varieties provide much needed food as well as millions of dollars in economic benefits for farmers and consumers, especially in developing countries. But with increased investment and broader application, the technology could positively impact the health and livelihood of even greater numbers of people. And as world hunger grows, the need has never been more urgent

Forage plants of an Arctic-nesting herbivore show larger warming response in breeding than wintering grounds, potentially disrupting migration phenology

NARCIS (Netherlands)

Lameris, T.K.; Jochems, Femke; van der Graaf, A.J.; Andersson, M.; Limpens, J.; Nolet, B.A.

2017-01-01

During spring migration, herbivorous waterfowl breeding in the Arctic depend on peaks in the supply of nitrogen-rich forage plants, following a “green wave” of grass growth along their flyway to fuel migration and reproduction. The effects of climate warming on forage plant growth are expected to be

Breeding system and parental effect on fruit characters of Idesia polycarpa (Flacourtiaceae), a promising plant for biodiesel, in northwest China

International Nuclear Information System (INIS)

Wang, S.H.; Li, Z.Q.; Xie, Q.

2017-01-01

Idesia polycarpa Maxim. is a promising plant for biodiesel in China. We have reported the flowering phenology, breeding system and parental effect on fruit characters of this species distributed in Qinling-Bashan Mountain (Shaanxi Province) nature reserve. As a dioecious plant, the male and female flowered almost synchronously. The anthesis was from around 10th of May and proceeded until the end of May or the beginning of June at population level. To determine the breeding system of I. polycarpa, three pollination treatments were carried out on every three female plants: natural pollination (NP), apomixy (AP) and cross pollination (CP). Reproductive success of apoximy treatment indicated that, as a dioecious plant, I. polycarpa could also reproduce by apomixis. However, the mean fruit set under apomixy treatment was markerly lower (3.6–13.33%) than that of two pollination treatments (>65.69%). Fruit quality (fruit length, fruit width, 100 fruit weight, seed production and seed germination) of the cross pollination treatment was greater than the other two treatments, suggested that pollen competition in cross pollination treatment was the most intense in three treatments. To study parental effect on fruit characters, cross pollination was carried out with three female plants and three male plants. The result showed that maternal parents (P<0.001) and parental interaction significantly affected all the fruit characters (including 100 fruit weight, pulp/fruit ratio, oil content and seed germination) while paternal parents showed significant effects on 100 fruit weight, pulp/fruit ratio and seed germination. Fruit set was only significantly affected by maternal parents (P=0.001). Our findings will facilitate future breeding programs of I. polycarpa in parental selection. (author)

Development of radiation indicator plants by molecular breeding

Energy Technology Data Exchange (ETDEWEB)

Liu, Jang-Ryol; Min, Sung-Ran; Jeong, Won-Joong; Kwak, Sang-Soo; Lee, Haeng-Soon; Kwon, Seok-Yoon; Pai, Hyun-Sook; Cho, Hye-Sun; In, Dong-Su; Oh, Seung-Chol; Park, Sang- Gyu; Woo, Je-Wook; Kin, Tae-Hwan; Park, Ju-Hyun; Kim, Chang-Sook [Korea Research Institute of Bioscience and Biotechnology, Taejeon (Korea)

2001-04-01

To develop the transgenic plants with low level of antioxidant enzyme, transgenic tobacco plants (157 plants) using 8 different plant expression vectors which have APX genes in sense or antisense orientation under the control of CaMV 35S promoter or stress-inducible SWPA2 promoter were developed. The insertion of transgene in transgenic plants was confirmed by PCR analysis. The total APX activities of transgenic plants were enhanced or reduced by introduction of APX gene in plants. To clone the radiation-responsive genes and their promoter from plants, the NeIF2Bb, one of radiation-responsive genes from tobacco plant was characterized using molecular and cell biological tools. Promoter of GST6, a radiation-responsive gene, was cloned using RT-PCR. The GST6 promoter sequence was analyzed, and known sequence motif was searched. To develop the remediation technology of radioactively contaminated soil using transgenic plants uranium reductase and radiation resistance genes have been introduced in tobacco and indian mustard plans. The uranium reductase and radiation resistance (RecA) genes were confirmed in transgenic tobacco and indian mustard plants by PCR analysis. Also, Gene expression of uranium reductase and radiation resistance were confirmed in transgenic indian mustard plants by northern blot analysis. 42 refs., 12 figs. (Author)

Plant cultivars derived from mutation induction or the use of induced mutants in cross breeding

International Nuclear Information System (INIS)

Micke, A.; Maluszynski, M.; Donini, B.

1985-01-01

Since 1969 we have collected information on cultivated varieties of plants, developed by using induced mutations. Whenever we learn about a cultivar presumably derived from an induced mutant or from use of mutants in crosses. we mail a questionnaire to the breeder. The information gathered in this way is stored in our file on ''Mutant Varieties''. Excerpts are published regularly in the form of a list in the FAO/IAEA Mutation Breeding Newsletter. Our mutant variety list has repeatedly provided a basis for analyses on the value and prospects of mutation breeding

Plant cultivars derived from mutation induction or the use of induced mutants in cross breeding

Energy Technology Data Exchange (ETDEWEB)

Micke, A; Maluszynski, M; Donini, B [Joint FAO/IAEA Division, Plant Breeding and Genetics Section, Vienna (Austria)

1985-05-01

Since 1969 we have collected information on cultivated varieties of plants, developed by using induced mutations. Whenever we learn about a cultivar presumably derived from an induced mutant or from use of mutants in crosses. we mail a questionnaire to the breeder. The information gathered in this way is stored in our file on ''Mutant Varieties''. Excerpts are published regularly in the form of a list in the FAO/IAEA Mutation Breeding Newsletter. Our mutant variety list has repeatedly provided a basis for analyses on the value and prospects of mutation breeding.

Plant Protein Inhibitors of Enzymes: Their Role in Animal Nutrition and Plant Defence.

Science.gov (United States)

Richardson, Michael

1981-01-01

Current information and research related to plant protein inhibitors of enzymes are reviewed, including potential uses of the inhibitors for medical treatment and for breeding plant varieties with greater resistance to insects. (DC)

Kazusa Marker DataBase: a database for genomics, genetics, and molecular breeding in plants

Science.gov (United States)

Shirasawa, Kenta; Isobe, Sachiko; Tabata, Satoshi; Hirakawa, Hideki

2014-01-01

In order to provide useful genomic information for agronomical plants, we have established a database, the Kazusa Marker DataBase (http://marker.kazusa.or.jp). This database includes information on DNA markers, e.g., SSR and SNP markers, genetic linkage maps, and physical maps, that were developed at the Kazusa DNA Research Institute. Keyword searches for the markers, sequence data used for marker development, and experimental conditions are also available through this database. Currently, 10 plant species have been targeted: tomato (Solanum lycopersicum), pepper (Capsicum annuum), strawberry (Fragaria × ananassa), radish (Raphanus sativus), Lotus japonicus, soybean (Glycine max), peanut (Arachis hypogaea), red clover (Trifolium pratense), white clover (Trifolium repens), and eucalyptus (Eucalyptus camaldulensis). In addition, the number of plant species registered in this database will be increased as our research progresses. The Kazusa Marker DataBase will be a useful tool for both basic and applied sciences, such as genomics, genetics, and molecular breeding in crops. PMID:25320561

Food science meets plant science: A case study on improved nutritional quality by breeding for glucosinolate retention during food processing

NARCIS (Netherlands)

Hennig, K.; Verkerk, R.; Boekel, van M.A.J.S.; Dekker, M.; Bonnema, A.B.

2014-01-01

Nutritional quality of vegetables is affected by several steps in the food chain. Up to now the effects of these different steps are mostly studied separately. We propose the cooperation between plant breeding and food technology by using food technological parameters as breeding traits to identify

Plant Breeding and Genetics Newsletter, No. 33, July 2014

International Nuclear Information System (INIS)

2014-07-01

The Member States of IAEA have called for an initiative to renovate and modernize the Nuclear Sciences and Applications Laboratories in Seibersdorf, called the ReNuAL project. In the 52 years since the IAEA's Nuclear Applications Laboratories in Seibersdorf were established (five of which are in the field of agriculture under the Joint FAO/IAEA Division), there has been no comprehensive renovation or significant upgrading of equipment to ensure the continuing ability of the laboratories to respond to Member States' growing and evolving needs. The objective of the ReNuAL Project is to ensure that the laboratories are fit-for-purpose and appropriately positioned to meet the evolving needs of member countries with adequate infrastructure in place for the next 20 years. The goals are to: • Redesign and expand the current infrastructure to ensure the efficiency and effectiveness of laboratory operations and services to better meet the current and future requirements of member countries; • Ensure that the laboratories remain a vibrant research and training institution that continues to attract highly qualified scientists and other staff committed to advancing applied nuclear sciences to serve the needs and interests of member countries. The ReNuAL project includes in its first phase those elements to be achieved from 2014-2017 within a Euro 31 million target budget established by the Director General. Ground-breaking is planned for 29 September 2014, with completion by December 2017. We are dependent upon additional financial support and donations of the countries we serve, in order to be able to realize all the necessary renovation works. This year we also celebrate the 50th anniversary of the Joint FAO/IAEA Division. This provides an opportunity to honour the endeavours of individuals, teams and institutions in Member States in increasing sustainable food security through plant mutation breeding: Outstanding and Superior Achievement Awards to celebrate successes in

Using modern plant breeding to improve the nutritional and technological qualities of oil crops

Directory of Open Access Journals (Sweden)

Murphy Denis J.

2014-11-01

Full Text Available The last few decades have seen huge advances in our understanding of plant biology and in the development of new technologies for the manipulation of crop plants. The application of relatively straightforward breeding and selection methods made possible the “Green Revolution” of the 1960s and 1970s that effectively doubled or trebled cereal production in much of the world and averted mass famine in Asia. During the 2000s, much attention has been focused on genomic approaches to plant breeding with the deployment of a new generation of technologies, such as marker-assisted selection, next-generation sequencing, transgenesis (genetic engineering or GM and automatic mutagenesis/selection (TILLING, TargetIng Local Lesions IN Genomes. These methods are now being applied to a wide range of crops and have particularly good potential for oil crop improvement in terms of both overall food and non-food yield and nutritional and technical quality of the oils. Key targets include increasing overall oil yield and stability on a per seed or per fruit basis and very high oleic acid content in seed and fruit oils for both premium edible and oleochemical applications. Other more specialised targets include oils enriched in nutritionally desirable “fish oil”-like fatty acids, especially very long chain !-3 acids such as eicosapentaenoic acid (EPA and docosahexaenoic acid (DHA, or increased levels of lipidic vitamins such as carotenoids, tocopherols and tocotrienes. Progress in producing such oils in commercial crops has been good in recent years with several varieties being released or at advanced stages of development.

Plant Breeding and Genetics Newsletter, No. 34, January 2015

International Nuclear Information System (INIS)

2015-01-01

The year 2014 has passed, and we prepare for 2015. Many things have happened this year; please allow me to highlight some salient facts about the Plant Breeding and Genetic sub-programme. 2014 saw the achievement of a very successful regional IAEA/RCA Technical Cooperation project RAS/5/056 on ‘Supporting Mutation Breeding Approaches to Develop New Crop Varieties Adaptable to Climate Change’. In the mid-term project review meeting, it was highlighted that since inception, 17 mutant varieties have been officially released and that there are currently more than 100 advanced mutant lines in trials and more mutant populations in the pipeline for further selection and development. This project also demonstrated that mutation induction coupled with selection remains the cleanest and most inexpensive way to create varieties by changing single characters without affecting the overall phenotype. Our counterparts from RAS/5/056 also report on the beneficial products from mutant sorghum for human nutrition. The same is true for our colleagues participating in the CRP on food and feed, who report lignin modified sorghum mutant lines for animal nutrition. In addition, the final meeting of another successful interregional TC project ‘Responding to the Transboundary Threat of Wheat Black Stem Rust (Ug99)’, was held in Uganda, where it all began. The team of NAFA and TC got the IAEA Superior Achievement Team Award for the successful implementation of this project. This year, the Joint FAO/IAEA Division of Nuclear Techniques in Food and Agriculture is celebrating its 50th Anniversary. On the occasion of this milestone of the Joint FAO/IAEA Division, Achievement and Outstanding Achievement Awards were initiated to honor and appreciate the successes of Member States in plant mutation breeding and to further promote the use of nuclear techniques for sustainable food security. Five Outstanding Achievement Awards and 18 Achievement Awards were handed out to the representatives

Root Traits and Phenotyping Strategies for Plant Improvement

OpenAIRE

Ana Paez-Garcia; Christy M. Motes; Wolf-Rüdiger Scheible; Rujin Chen; Elison B. Blancaflor; Maria J. Monteros

2015-01-01

Roots are crucial for nutrient and water acquisition and can be targeted to enhance plant productivity under a broad range of growing conditions. A current challenge for plant breeding is the limited ability to phenotype and select for desirable root characteristics due to their underground location. Plant breeding efforts aimed at modifying root traits can result in novel, more stress-tolerant crops and increased yield by enhancing the capacity of the plant for soil exploration and, thus, wa...

Genetic variation in degradability of wheat straw and potential for improvement through plant breeding

DEFF Research Database (Denmark)

Jensen, Jacob Wagner; Magid, Jakob; Hansen-Møller, Jens

2011-01-01

contemporary gene pool. The cultivars were grown at two different locations to assess the potential for breeding for improved degradability. The straws exhibited much variation in degradability ranging from 258 g kg1 to 407 g kg1 of dry matter. The heritability for degradability was estimated to 29% indicating...... a reasonable potential for response to selection. Inclusion of height as a regression-term, indicated that only a minor part of genetic differences are directly related to plant height and that improvements in degradability may be achieved without unacceptable changes in straw length. Finally, a lack...... of correlation between degradability and grain yield indicated that straw degradability may be improved through breeding without serious negative effect on grain yield....

Unused natural variation can lift yield barriers in plant breeding.

Directory of Open Access Journals (Sweden)

Amit Gur

2004-10-01

Full Text Available Natural biodiversity is an underexploited sustainable resource that can enrich the genetic basis of cultivated plants with novel alleles that improve productivity and adaptation. We evaluated the progress in breeding for increased tomato (Solanum lycopersicum yield using genotypes carrying a pyramid of three independent yield-promoting genomic regions introduced from the drought-tolerant green-fruited wild species Solanum pennellii. Yield of hybrids parented by the pyramided genotypes was more than 50% higher than that of a control market leader variety under both wet and dry field conditions that received 10% of the irrigation water. This demonstration of the breaking of agricultural yield barriers provides the rationale for implementing similar strategies for other agricultural organisms that are important for global food security.

Selection and breeding of plant cultivars to minimize cadmium accumulation

Energy Technology Data Exchange (ETDEWEB)

Grant, C.A. [AAFC Brandon Research Centre, Box 1000A, R.R. 3, Brandon, MB, R7A 5Y3 (Canada)], E-mail: cgrant@agr.gc.ca; Clarke, J.M. [AAFC Semiarid Prairie Agricultural Research Centre, Swift Current, SK, S9H 3X2 (Canada); Duguid, S. [AAFC Morden Research Station, Morden, MB, R6M 1Y5 (Canada); Chaney, R.L. [USDA, ARS, Animal Manure and Byproducts Laboratory, Room 013, Building 007, BARC-West, 10300 Baltimore Avenue, Beltsville, MD 20705-2350 (United States)

2008-02-15

Natural variation occurs in the uptake and distribution of essential and nonessential trace elements among crop species and among cultivars within species. Such variation can be responsible for trace element deficiencies and toxicities, which in turn can affect the quality of food. Plant breeding can be an important tool to both increase the concentration of desirable trace elements and reduce that of potentially harmful trace elements such as cadmium (Cd). Selection programs for a low-Cd content of various crops, including durum wheat, sunflower, rice and soybean have been established and low-Cd durum wheat cultivars and sunflower hybrids have been developed. In durum wheat (Triticum turgidum L. var durum), low-Cd concentration is controlled by a single dominant gene. The trait is highly heritable, and incorporation of the low-Cd allele can help to reduce the average grain Cd to levels below proposed international limits. The allele for low-Cd concentration does not appear to affect major economic traits and should not cause problems when incorporated into durum cultivars. The cost of Cd selection in a breeding program is initially large both in terms of Cd determination and reduced progress towards development of other economic traits, but declines as more breeding lines in the program carry the low-Cd trait and are utilized in new crosses. Production of low-Cd crop cultivars can be used as a tool to reduce the risk of movement of Cd into the human diet.

From plant genomes to phenotypes

OpenAIRE

Bolger, Marie; Gundlach, Heidrun; Scholz, Uwe; Mayer, Klaus; Usadel, Björn; Schwacke, Rainer; Schmutzer, Thomas; Chen, Jinbo; Arend, Daniel; Oppermann, Markus; Weise, Stephan; Lange, Matthias; Fiorani, Fabio; Spannagl, Manuel

2017-01-01

Recent advances in sequencing technologies have greatly accelerated the rate of plant genome and applied breeding research. Despite this advancing trend, plant genomes continue to present numerous difficulties to the standard tools and pipelines not only for genome assembly but also gene annotation and downstream analysis.Here we give a perspective on tools, resources and services necessary to assemble and analyze plant genomes and link them to plant phenotypes.

Genomic prediction unifies animal and plant breeding programs to form platforms for biological discovery

OpenAIRE

Hickey, John M; Chiurugwi, Tinashe; Mackay, Ian; Powell, Wayne; Implementing Genomic Selection in CGIAR Breeding Programs Workshop Participants

2017-01-01

The rate of annual yield increases for major staple crops must more than double relative to current levels in order to feed a predicted global population of 9 billion by 2050. Controlled hybridization and selective breeding have been used for centuries to adapt plant and animal species for human use. However, achieving higher, sustainable rates of improvement in yields in various species will require renewed genetic interventions and dramatic improvement of agricultural practices. Genomic pre...

Between and beyond additivity and non-additivity : the statistical modelling of genotype by environment interaction in plant breeding

NARCIS (Netherlands)

Eeuwijk, van F.A.

1996-01-01

In plant breeding it is a common observation to see genotypes react differently to environmental changes. This phenomenon is called genotype by environment interaction. Many statistical approaches for analysing genotype by environment interaction rely heavily on the analysis of variance model.

Plant databases and data analysis tools

Science.gov (United States)

It is anticipated that the coming years will see the generation of large datasets including diagnostic markers in several plant species with emphasis on crop plants. To use these datasets effectively in any plant breeding program, it is essential to have the information available via public database...

New Insights on plant salt tolerance mechanisms and their potential use for breeding

Directory of Open Access Journals (Sweden)

Moez HANIN

2016-11-01

Full Text Available Soil salinization is a major threat to agriculture in arid and semi-arid regions, where water scarcity and inadequate drainage of irrigated lands severely reduce crop yield. Salt accumulation inhibits plant growth and reduces the ability to uptake water and nutrients, leading to osmotic or water-deficit stress. Salt is also causing injury of the young photosynthetic leaves and acceleration of their senescence, as the Na+ cation is toxic when accumulating in cell cytosol resulting in ionic imbalance and toxicity of transpiring leaves. To cope with salt stress, plants have evolved mainly two types of tolerance mechanisms based on either limiting the entry of salt by the roots, or controlling its concentration and distribution. Understanding the overall control of Na+ accumulation and functional studies of genes involved in transport processes, will provide a new opportunity to improve the salinity tolerance of plants relevant to food security in arid regions. A better understanding of these tolerance mechanisms can be used to breed crops with improved yield performance under salinity stress. Moreover, associations of cultures with nitrogen-fixing bactéria and arbuscular mycorrhizal fungi could serve as an alternative and sustainable strategy to increase crop yields in salt affected fields.

Accelerated Generation of Selfed Pure Line Plants for Gene Identification and Crop Breeding

Directory of Open Access Journals (Sweden)

Guijun Yan

2017-10-01

Full Text Available Production of pure lines is an important step in biological studies and breeding of many crop plants. The major types of pure lines for biological studies and breeding include doubled haploid (DH lines, recombinant inbred lines (RILs, and near isogenic lines (NILs. DH lines can be produced through microspore and megaspore culture followed by chromosome doubling while RILs and NILs can be produced through introgressions or repeated selfing of hybrids. DH approach was developed as a quicker method than conventional method to produce pure lines. However, its drawbacks of genotype-dependency and only a single chance of recombination limited its wider application. A recently developed fast generation cycling system (FGCS achieved similar times to those of DH for the production of selfed pure lines but is more versatile as it is much less genotype-dependent than DH technology and does not restrict recombination to a single event. The advantages and disadvantages of the technologies and their produced pure line populations for different purposes of biological research and breeding are discussed. The development of a concept of complete in vitro meiosis and mitosis system is also proposed. This could integrate with the recently developed technologies of single cell genomic sequencing and genome wide selection, leading to a complete laboratory based pre-breeding scheme.

Plant Breeding and Genetics Newsletter, No. 29, July 2012

International Nuclear Information System (INIS)

2012-07-01

Human population growth is projected to reach a staggering nine billion people by 2050. Who will feed the growing billions; how can more food be produced on less land; how can we protect crop yields from climate variability, pests and diseases? These are major issues of our generation. Thus, the theme of this year's Scientific Forum at the IAEA General Conference in September will be devoted to Food Security in all its aspects. Mutation breeding has played a major role in improving crops and stabilizing food security concerns worldwide. Classic examples are improved yields brought about by semi-dwarf mutant varieties of wheat and rice in the mid-twentieth century, which created the 'Green Revolution'. Mutation induction via irradiation is an established method in providing useful variation for crop improvement, despite this the sought after mutant is a rare event. Today these mutants can be detected efficiently using high-throughput phenotyping and genotyping methods. Read more about the direct involvement of the Plant Breeding and Genetics Laboratory in Seibersdorf pertaining to developing technology packages, and providing training and service to tackle the above mentioned topics in this issue. Also, we are proud to announce the 50th Anniversary of the Agency's laboratories in Seibersdorf, you will find more about this event in the News section inside this issue. In the section on Technical Cooperation Projects (TC) I want to highlight the first Coordination Meeting for the IAEA/RCA regional TC project RAS/5/056 on Supporting Mutation Breeding Approaches to Develop New Crop Varieties Adaptable to Climate Change. This regional TC project is a fully integrated endeavour between the Plant Breeding and Genetics Section and the Soil, Water Management and Crop Nutrition Section. This new TC project RAS/5/056 is a follow-up of the recently closed project RAS/5/045. Within this previous project, well characterized mutant lines improved for important agronomic traits such

Genomic Selection in the Era of Next Generation Sequencing for Complex Traits in Plant Breeding.

Science.gov (United States)

Bhat, Javaid A; Ali, Sajad; Salgotra, Romesh K; Mir, Zahoor A; Dutta, Sutapa; Jadon, Vasudha; Tyagi, Anshika; Mushtaq, Muntazir; Jain, Neelu; Singh, Pradeep K; Singh, Gyanendra P; Prabhu, K V

2016-01-01

Genomic selection (GS) is a promising approach exploiting molecular genetic markers to design novel breeding programs and to develop new markers-based models for genetic evaluation. In plant breeding, it provides opportunities to increase genetic gain of complex traits per unit time and cost. The cost-benefit balance was an important consideration for GS to work in crop plants. Availability of genome-wide high-throughput, cost-effective and flexible markers, having low ascertainment bias, suitable for large population size as well for both model and non-model crop species with or without the reference genome sequence was the most important factor for its successful and effective implementation in crop species. These factors were the major limitations to earlier marker systems viz., SSR and array-based, and was unimaginable before the availability of next-generation sequencing (NGS) technologies which have provided novel SNP genotyping platforms especially the genotyping by sequencing. These marker technologies have changed the entire scenario of marker applications and made the use of GS a routine work for crop improvement in both model and non-model crop species. The NGS-based genotyping have increased genomic-estimated breeding value prediction accuracies over other established marker platform in cereals and other crop species, and made the dream of GS true in crop breeding. But to harness the true benefits from GS, these marker technologies will be combined with high-throughput phenotyping for achieving the valuable genetic gain from complex traits. Moreover, the continuous decline in sequencing cost will make the WGS feasible and cost effective for GS in near future. Till that time matures the targeted sequencing seems to be more cost-effective option for large scale marker discovery and GS, particularly in case of large and un-decoded genomes.

Chemical mode control in nuclear power plant decommissioning during operation of technologies in individual radioactive waste processing plants

International Nuclear Information System (INIS)

Horvath, J.; Dugovic, L.

1999-01-01

Sewage treatment of nuclear power plant decommissioning is performed by system of sewage concentration in evaporator with formation of condensed rest, it means radioactive waste concentrate and breeding steam. During sewage treatment plant operation department of chemical mode performs chemical and radiochemical analysis of sewage set for treatment, chemical and radiochemical analysis of breeding steam condensate which is after final cleaning on ionization filter and fulfilling the limiting conditions released to environment; chemical and radiochemical analysis of heating steam condensate which is also after fulfilling the limiting conditions released to environment. Condensed radioactive concentrate is stored in stainless tanks and later converted into easy transportable and chemically stable matrix from the long term storage point of view in republic storage Mochovce. The article also refer to bituminous plant, vitrification plant, swimming pool decontamination plant of long term storage and operation of waste processing plant Bohunice

Plant Breeding and Genetics Newsletter, No. 30, January 2013

International Nuclear Information System (INIS)

2013-01-01

The Scientific Forum focused on sustainable food security in all its aspects. Plant Breeding and Genetics's (PBG) activities, which are demand driven, results based and outcome oriented, are already targeted towards broadening crop adaptation and change. In the future we will use the paradigm of 'climate smart agriculture' to even better meet the needs of the Member States. A central aspect of resilience to climate change, or adaptation to erratic weather variations, is broad biodiversity. According to the Convention on Biological Diversity (CBD) biodiversity 'includes all The Joint FAO/IAEA Division of Nuclear Techniques in Food and Agriculture is actively supporting Member States in adaptation strategies for climate change based on mutation induction and efficiency enhancing biotechnologies through various coordinated research projects (CRPs) and technical cooperation project (TCPs). Major thematic areas of the Plant Breeding and Genetics subprogramme are 'Crop improvement for high yield and enhanced adaptability to climate change' with major activities targeted towards fostering crop improvement (e.g. yield, quality, nutritional factors, market-preferred traits) as well as biodiversity protection, through applying mutation induction and efficiency enhancing bio-/molecular technologies, and 'Integrated soil-water-plant approaches to enhance food production and biomass productivity' with special emphasis on enhancing Member State capacities to advance food security through climate change mitigation and adaptation using integrated soil-plant approaches. The details of the coordinated research projects (CRPs) related to the issue of crop adaptability and supporting biodiversity implemented as part of the sub-programme are as follows: (1) The activities under the CRP 'Approaches to improvement of crop genotypes with high water and nutrient use efficiency for water scarce environments' focusses on assessing resources, in order to define and adapt best fit soil and

Recurring off-types in lettuce: Their significance in plant breeding and seed production.

Science.gov (United States)

Maxon Smith, J W

1977-03-01

The lettuce cv. Valentine regularly produces non-heading off-type plants at the relatively high frequency of 4 × 10(-3). They result from mutation to the dominant condition. A similar propensity has been reported twice before in lettuce; it is highly heritable.The propensity to produce off-types was not present in the parents of Valentine so it must have arisen during the pedigree breeding programme. Closely related cultivars do not carry the character but it was subsequently transmitted to Dandie a new cultivar of which Valentine was one of the parents. Allelism tests to relate Valentine off-types to those in crisphead cultivars were not successful.The elimination of off-types in breeding programmes is discussed. Contrary to the findings in day-neutral crisphead cultivars, mutant phenotypes in long-day butterhead cultivars have no selective advantage for seed production. Consequently, strict roguing ensures adequate varietal stability.

Breeding for plant adaptations and agricultural measures in response to climatic changes in Serbia

Directory of Open Access Journals (Sweden)

Popović Aleksandar

2014-01-01

Full Text Available Improving the production of different cultivated plant species is of great importance for both human and animals, as well as for industrial processing. In the light of global climate changing and searching for renewable sources of energy, this task becomes even more important. Scientists from different areas of research, are actively involved in solving this complex task. Climate changes represent a big challenge not only for agricultural practices, but also for the process of shaping agricultural strategies. Recent studies indicate that climate changes can not be stopped. Constantly growing problems brought by global climate changes could be, to a larger extent, overcome by breeding programs, along with application of adequate agrotechnical measures. Thus, development of new varieties and hybrids with improved performances in response to more frequent and unfavorable environmental conditions, is of prime importance in breeding centers.

Genomics and the Instrinsic Value of Plants

NARCIS (Netherlands)

Gremmen, H.G.J.

2005-01-01

In discussions on genetic engineering and plant breeding, the intrinsic value of plants and crops is used as an argument against this technology. This paper focuses on the new field of plant genomics, which, according to some, is almost the same as genetic engineering. This raises the question

Root Traits and Phenotyping Strategies for Plant Improvement.

Science.gov (United States)

Paez-Garcia, Ana; Motes, Christy M; Scheible, Wolf-Rüdiger; Chen, Rujin; Blancaflor, Elison B; Monteros, Maria J

2015-06-15

Roots are crucial for nutrient and water acquisition and can be targeted to enhance plant productivity under a broad range of growing conditions. A current challenge for plant breeding is the limited ability to phenotype and select for desirable root characteristics due to their underground location. Plant breeding efforts aimed at modifying root traits can result in novel, more stress-tolerant crops and increased yield by enhancing the capacity of the plant for soil exploration and, thus, water and nutrient acquisition. Available approaches for root phenotyping in laboratory, greenhouse and field encompass simple agar plates to labor-intensive root digging (i.e., shovelomics) and soil boring methods, the construction of underground root observation stations and sophisticated computer-assisted root imaging. Here, we summarize root architectural traits relevant to crop productivity, survey root phenotyping strategies and describe their advantages, limitations and practical value for crop and forage breeding programs.

Root Traits and Phenotyping Strategies for Plant Improvement

Directory of Open Access Journals (Sweden)

Ana Paez-Garcia

2015-06-01

Full Text Available Roots are crucial for nutrient and water acquisition and can be targeted to enhance plant productivity under a broad range of growing conditions. A current challenge for plant breeding is the limited ability to phenotype and select for desirable root characteristics due to their underground location. Plant breeding efforts aimed at modifying root traits can result in novel, more stress-tolerant crops and increased yield by enhancing the capacity of the plant for soil exploration and, thus, water and nutrient acquisition. Available approaches for root phenotyping in laboratory, greenhouse and field encompass simple agar plates to labor-intensive root digging (i.e., shovelomics and soil boring methods, the construction of underground root observation stations and sophisticated computer-assisted root imaging. Here, we summarize root architectural traits relevant to crop productivity, survey root phenotyping strategies and describe their advantages, limitations and practical value for crop and forage breeding programs.

Mutagenesis of Jatropha curcas - Exploring new traits in the breeding of a biofuel plant

International Nuclear Information System (INIS)

Azhar Mohamad; Sobri Hussein; Abdul Rahim Harun

2010-01-01

Mutagenesis in plant species is considered effective in recovering and producing useful mutants as it leads to a high degree of chimerism and produces high degree of somaclonal variations for further selection in breeding programmes. Jatropha curcas is a species with many attributes and considerable potential, especially as bio diesel. Narrow genetic background of Jatropha spp. gives less selection to growers for better quality plant materials. In this study, a new method through nuclear technology was used to increase the genetic variability of Jatropha towards novel superior potential mutant lines. The objective of the study is to generate new mutant varieties of Jatropha curcas through the mutagenesis approach in getting new sustainable mutants for high oil yield and improved plant characteristics. Seeds of a Jatropha cultivar were from selected materials from Lembaga Kenaf and Tembakau Negara, Kelantan. Radiosensitivity test was done by irradiating a total of each 60 seeds at multiple doses (0 Gy, 20 Gy, 40 Gy, 60 Gy, 80 Gy, 100 Gy, 200 Gy, 300 Gy, 400 Gy, 600 Gy and 700 Gy). After getting the LD 50 , three doses i.e. 250 Gy, 300 Gy and 350 Gy were selected for mutagenesis, where a total of 1000 seeds were exposed to gamma radiation. The seeds were hardened and field planted at close distance of 1 m x 1 m. Pruning was conducted three times at two months interval prior to screening for early flowering, short stature and high branching mutant lines. Radiosensitivity of seeds to acute gamma irradiation revealed that the LD 50 was at 320 Gy. At nursery stage, somatic mutations related to chlorophyll changes were observed on leaves with certain shapes. Screening of Jatropha via seed mutagenesis bore 6 early flowering mutants, 7 dwarf mutants and, 17 high branching plants. In narrowing the mutant lines, cuttings from each selected trait were collected and re-planted for further evaluation. (author)

Contributions of classical and molecular cytogenetic in meiotic analysis and pollen viability for plant breeding.

Science.gov (United States)

Lavinscky, M P; Souza, M M; Silva, G S; Melo, C A F

2017-09-27

The analysis of meiotic behavior has been widely used in the study of plants as they provide relevant information about the viability of a species. Meiosis boasts a host of highly conserved events and changes in genes that control these events will give rise to irregularities that can alter the normal course of meiosis and may lead to complete sterility of the plant. The recombination of genes that occur in meiosis is an important event to generate variability and has been important in studies for genetic improvement and to create viable hybrids. The use of fluorescence in situ hybridization and genomic in situ hybridization (GISH) in meiosis allows the localization of specific regions, enables to differentiate genomes in a hybrid, permits to observe the pairing of homoeologous chromosomes, and if there was a recombination between the genomes of progenitor species. Furthermore, the GISH allows us to observe the close relationship between the species involved. This article aims to report over meiosis studies on plants and hybrids, the use and importance of molecular cytogenetic in meiotic analysis and contributions of meiotic analysis in breeding programs.

Morphological Plant Modeling: Unleashing Geometric and Topological Potential within the Plant Sciences

Science.gov (United States)

Bucksch, Alexander; Atta-Boateng, Acheampong; Azihou, Akomian F.; Battogtokh, Dorjsuren; Baumgartner, Aly; Binder, Brad M.; Braybrook, Siobhan A.; Chang, Cynthia; Coneva, Viktoirya; DeWitt, Thomas J.; Fletcher, Alexander G.; Gehan, Malia A.; Diaz-Martinez, Diego Hernan; Hong, Lilan; Iyer-Pascuzzi, Anjali S.; Klein, Laura L.; Leiboff, Samuel; Li, Mao; Lynch, Jonathan P.; Maizel, Alexis; Maloof, Julin N.; Markelz, R. J. Cody; Martinez, Ciera C.; Miller, Laura A.; Mio, Washington; Palubicki, Wojtek; Poorter, Hendrik; Pradal, Christophe; Price, Charles A.; Puttonen, Eetu; Reese, John B.; Rellán-Álvarez, Rubén; Spalding, Edgar P.; Sparks, Erin E.; Topp, Christopher N.; Williams, Joseph H.; Chitwood, Daniel H.

2017-01-01

The geometries and topologies of leaves, flowers, roots, shoots, and their arrangements have fascinated plant biologists and mathematicians alike. As such, plant morphology is inherently mathematical in that it describes plant form and architecture with geometrical and topological techniques. Gaining an understanding of how to modify plant morphology, through molecular biology and breeding, aided by a mathematical perspective, is critical to improving agriculture, and the monitoring of ecosystems is vital to modeling a future with fewer natural resources. In this white paper, we begin with an overview in quantifying the form of plants and mathematical models of patterning in plants. We then explore the fundamental challenges that remain unanswered concerning plant morphology, from the barriers preventing the prediction of phenotype from genotype to modeling the movement of leaves in air streams. We end with a discussion concerning the education of plant morphology synthesizing biological and mathematical approaches and ways to facilitate research advances through outreach, cross-disciplinary training, and open science. Unleashing the potential of geometric and topological approaches in the plant sciences promises to transform our understanding of both plants and mathematics. PMID:28659934

Morphological Plant Modeling: Unleashing Geometric and Topological Potential within the Plant Sciences

Directory of Open Access Journals (Sweden)

Alexander Bucksch

2017-06-01

Full Text Available The geometries and topologies of leaves, flowers, roots, shoots, and their arrangements have fascinated plant biologists and mathematicians alike. As such, plant morphology is inherently mathematical in that it describes plant form and architecture with geometrical and topological techniques. Gaining an understanding of how to modify plant morphology, through molecular biology and breeding, aided by a mathematical perspective, is critical to improving agriculture, and the monitoring of ecosystems is vital to modeling a future with fewer natural resources. In this white paper, we begin with an overview in quantifying the form of plants and mathematical models of patterning in plants. We then explore the fundamental challenges that remain unanswered concerning plant morphology, from the barriers preventing the prediction of phenotype from genotype to modeling the movement of leaves in air streams. We end with a discussion concerning the education of plant morphology synthesizing biological and mathematical approaches and ways to facilitate research advances through outreach, cross-disciplinary training, and open science. Unleashing the potential of geometric and topological approaches in the plant sciences promises to transform our understanding of both plants and mathematics.

Plant breeding and genetics newsletter. No. 4

International Nuclear Information System (INIS)

1999-12-01

The Newsletter reports development of new Coordinated Research Projects (CRPs) and on efficient implementation of Technical Coperaton Projects related to regional activities. Following the organization of the CRP on 'Molecular characterization of mutated genes controlling important traits for seed crop improvement' the CRP on 'Mutational analysis of root characters in annual food plants related to plant performance' was also established with the participation of 21 institutes. It also presents recent training activities and meetings undertaken

Plant breeding and genetics newsletter. No. 17, July 2006

International Nuclear Information System (INIS)

2006-07-01

The Plant Breeding and Genetics (PBG) Section of the Joint FAO/IAEA Programme (NAFA/AGE) recently implemented two Research Coordination Meetings (RCMs). Particular attention was given to the first RCM of the Coordinated Research Project (CRP) on Assessment of Nutrients Uptake from Bio-fortified Crops in Populations from Developing Countries, Vienna, Austria, 17-19 May 2006, which was co-organized with our nutritionist colleagues from the Division of Human Health, Nuclear Applications Department (NAHU), and sponsored by Harvest Plus. Hidden hunger and enhancing crop quality for nutrition will be given increased attention in the new biennium 2008-2009. We encourage you to share your input with us on this subject. Several training courses were implemented in the framework of different Technical Cooperation (TC) projects. Details about these activities are covered in this issue of the Newsletter. A highlight of these activities, as in every year since 2001, was the Inter-regional Training Course on Mutant Germplasm Characterization using Molecular Markers at the Seibersdorf Laboratories, Seibersdorf, Austria, 14 May to 16 June 2006

Plant mutation breeding of pineapple (Ananas comosus (L.) Merr.) using gamma irradiation for improvement of smooth cayenne variety

International Nuclear Information System (INIS)

Soeranto Human; S Loekito; M Trilaksono; A Syaifudin

2016-01-01

Currently, the most famous pineapple cultivar cultivated for the world trade is Smooth Cayenne. Many clones derived from this cultivar such as GP1, GP2, GP3, GP4, GP5, and F180 are grown by GGPC for fresh and processed fruits. GGPC started pineapple breeding and varietal improvement programs in 1986 with the objectives to increase quality, tonage and yield. Mutation breeding in pineapple was started in 2006 i.e. in collaboration with the Center for Isotopes and Radiation Application (CIRA), the National Nuclear Energy Agency (BATAN). A number of 10 pineapple crowns originated from GP2, GP3 (A10) and F180 clones were treated with gamma irradiation from Cobalt-60 source installed in gamma chamber 4000 A, using the doses of 200 and 300 Gy. The irradiated crowns were then planted in the experimental field (as V1) and maintained following the GGPC commercial standard cultivation for pineapple. The results showed there was no significant differences between the two gamma irradiation doses (200 and 300 Gy) on pineapple phenotypic performances. However, high phenotypic variability was found in clones at the second vegetative propagation (V2). Some plant variations were recorded as follows: 47 % of normal vigour, 15 % of rosset, 11 % of spiny, 5 % of crowns with double tips, 4 % of plant having plenty of leaves and 18 % of fruits with abnormal shape. Significant mutant variation was also observed in clones the third vegetative propagation (V3) but some mutants seemed to be more stable in the V3 generation. This pineapple mutation breeding program will be continued for mutant evaluation that is related to improvement of productivity, quality and resistance to major insect and diseases. (author)

Mutation induction in plants by ionizing radiation

International Nuclear Information System (INIS)

1985-01-01

This training film deals with the use of x-rays, gamma rays and fast neutrons for mutation induction in plants. Specific features of different types of ionizing radiation and of biological materials are outlined and methods demonstrated which control modifying factors and warrant an efficient physical mutagenesis. The first step of mutation breeding aims at an enhanced level of genetic variation which forms the basis for mutant selection and use in plant breeding

Ecogeography and utility to plant breeding of the crop wild relatives of sunflower (Helianthus annuus L.

Directory of Open Access Journals (Sweden)

Michael Benjamin Kantar

2015-10-01

Full Text Available Crop wild relatives (CWR are a rich source of genetic diversity for crop improvement. Combining ecogeographic and phylogenetic techniques can inform both conservation and breeding. Geographic occurrence, bioclimatic, and biophysical data were used to predict species distributions, range overlap and niche occupancy in 36 taxa closely related to sunflower (Helianthus annuus L.. Taxa lacking comprehensive ex situ conservation were identified. The predicted distributions for 36 Helianthus taxa identified substantial range overlap and asymmetry and niche conservatism. Specific taxa (e.g., Helianthus deblis Nutt., Helianthus anomalus Blake, and Helianthus divaricatus L. were identified as targets for traits of interest, particularly for abiotic stress tolerance and adaptation to extreme soil properties. The combination of techniques demonstrates the potential for publicly available ecogeographic and phylogenetic data to facilitate the identification of possible sources of abiotic stress traits for plant breeding programs. Much of the primary genepool (wild H. annuus occurs in extreme environments indicating that introgression of targeted traits may be relatively straightforward. Sister taxa in Helianthus have greater range overlap than more distantly related taxa within the genus. This adds to a growing body of literature suggesting that in plants (unlike some animal groups, geographic isolation may not be necessary for speciation.

Ecogeography and utility to plant breeding of the crop wild relatives of sunflower (Helianthus annuus L.)

Science.gov (United States)

Kantar, Michael B.; Sosa, Chrystian C.; Khoury, Colin K.; Castañeda-Álvarez, Nora P.; Achicanoy, Harold A.; Bernau, Vivian; Kane, Nolan C.; Marek, Laura; Seiler, Gerald; Rieseberg, Loren H.

2015-01-01

Crop wild relatives (CWR) are a rich source of genetic diversity for crop improvement. Combining ecogeographic and phylogenetic techniques can inform both conservation and breeding. Geographic occurrence, bioclimatic, and biophysical data were used to predict species distributions, range overlap and niche occupancy in 36 taxa closely related to sunflower (Helianthus annuus L.). Taxa lacking comprehensive ex situ conservation were identified. The predicted distributions for 36 Helianthus taxa identified substantial range overlap, range asymmetry and niche conservatism. Specific taxa (e.g., Helianthus deblis Nutt., Helianthus anomalus Blake, and Helianthus divaricatus L.) were identified as targets for traits of interest, particularly for abiotic stress tolerance, and adaptation to extreme soil properties. The combination of techniques demonstrates the potential for publicly available ecogeographic and phylogenetic data to facilitate the identification of possible sources of abiotic stress traits for plant breeding programs. Much of the primary genepool (wild H. annuus) occurs in extreme environments indicating that introgression of targeted traits may be relatively straightforward. Sister taxa in Helianthus have greater range overlap than more distantly related taxa within the genus. This adds to a growing body of literature suggesting that in plants (unlike some animal groups), geographic isolation may not be necessary for speciation. PMID:26500675

Future breeding for organic and low-input agriculture: integrating values and modern breeding tools for improving robustness

NARCIS (Netherlands)

Lammerts Van Bueren, E.

2010-01-01

Organic production and also the attention for plant breeding for organic agriculture is still increasing in Europe. The question often raised is how much does plant breeding for the organic sector differ from modern plant breeding and does a ban on GMO also include refraining from molecular marker

Plant Phenotype Characterization System

Energy Technology Data Exchange (ETDEWEB)

Daniel W McDonald; Ronald B Michaels

2005-09-09

This report is the final scientific report for the DOE Inventions and Innovations Project: Plant Phenotype Characterization System, DE-FG36-04GO14334. The period of performance was September 30, 2004 through July 15, 2005. The project objective is to demonstrate the viability of a new scientific instrument concept for the study of plant root systems. The root systems of plants are thought to be important in plant yield and thus important to DOE goals in renewable energy sources. The scientific study and understanding of plant root systems is hampered by the difficulty in observing root activity and the inadequacy of existing root study instrumentation options. We have demonstrated a high throughput, non-invasive, high resolution technique for visualizing plant root systems in-situ. Our approach is based upon low-energy x-ray radiography and the use of containers and substrates (artificial soil) which are virtually transparent to x-rays. The system allows us to germinate and grow plant specimens in our containers and substrates and to generate x-ray images of the developing root system over time. The same plant can be imaged at different times in its development. The system can be used for root studies in plant physiology, plant morphology, plant breeding, plant functional genomics and plant genotype screening.

Induced mutations - a tool in plant research

International Nuclear Information System (INIS)

1981-01-01

These proceedings include 34 papers and 18 brief descriptions of poster presentations in the following areas as they are affected by induced mutations: advancement of genetics, plant evolution, plant physiology, plant parasites, plant symbioses, in vitro culture, gene ecology and plant breeding. Only a relatively small number of papers are of direct nuclear interest essentially in view of the mutations being induced by ionizing radiations. The papers of nuclear interest have been entered as separate and individual items of input

Improvement of basic food crops in Africa through plant breeding, including the use of induced mutations. Proceedings of a final research co-ordination meeting

Energy Technology Data Exchange (ETDEWEB)

NONE

1997-07-01

The Co-ordinated Research Programme (CRP) on Improvement of Basic Food Crops in Africa Through Plant Breeding, Including the Use of Induced Mutations, funded by the Italian Government, was initiated in 1989 in the Joint FAO/IAEA Division of Nuclear Techniques in Food and Agriculture. The primary objective of this CRP was to breed improved varieties of stable food crops of Africa with the main emphasis on the indigenous species and their local cultivars. The fourth and final Research Co-ordination meeting under the CRP was held in Naples, Italy from 30 October - 3 November 1995. This publication includes the reports, conclusions and recommendations made by the participants. We hope that it will be of value to researchers, students and policy makers alike in their endeavour to promote plant breeding and increase food productions in Africa. Refs, figs, tabs.

Improvement of basic food crops in Africa through plant breeding, including the use of induced mutations. Proceedings of a final research co-ordination meeting

International Nuclear Information System (INIS)

1997-07-01

The Co-ordinated Research Programme (CRP) on Improvement of Basic Food Crops in Africa Through Plant Breeding, Including the Use of Induced Mutations, funded by the Italian Government, was initiated in 1989 in the Joint FAO/IAEA Division of Nuclear Techniques in Food and Agriculture. The primary objective of this CRP was to breed improved varieties of stable food crops of Africa with the main emphasis on the indigenous species and their local cultivars. The fourth and final Research Co-ordination meeting under the CRP was held in Naples, Italy from 30 October - 3 November 1995. This publication includes the reports, conclusions and recommendations made by the participants. We hope that it will be of value to researchers, students and policy makers alike in their endeavour to promote plant breeding and increase food productions in Africa. Refs, figs, tabs

Intellectual property rights, international trade and plant breeding

NARCIS (Netherlands)

Eaton, D.J.F.

2013-01-01

Seed is the physical embodiment of the invention of the plant breeder. Plant varieties thus constitute a special form of innovation, and an assessment of intellectual property right (IPR) systems needs to take this into account. This thesis concentrates on IPRs but breeders do have a number of means

Mutation breeding in mangosteen

International Nuclear Information System (INIS)

Mohd Khalid Mohd Zain

2002-01-01

Mangosteen the queen of the tropical fruits is apomitic and only a cultivar is reported and it reproduces asexually. Conventional breeding is not possible and the other methods to create variabilities are through genetic engineering and mutation breeding. The former technique is still in the infantry stage in mangosteen research while the latter has been an established tool in breeding to improve cultivars. In this mutation breeding seeds of mangosteen were irradiated using gamma rays and the LD 50 for mangosteen was determined and noted to be very low at 10 Gy. After sowing in the seedbed, the seedlings were transplanted in polybags and observed in the nursery bed for about one year before planted in the field under old oil palm trees in Station MARDI, Kluang. After evaluation and screening, about 120 mutant mangosteen plants were selected and planted in Kluang. The plants were observed and some growth data taken. There were some mutant plants that have good growth vigour and more vigorous that the control plants. The trial are now in the fourth year and the plants are still in the juvenile stage. (Author)

Special Issue: Plant Genetics and Biotechnology in Biodiversity

Directory of Open Access Journals (Sweden)

Giandomenico Corrado

2018-03-01

Full Text Available The rapid progress and increasing affordability of novel investigation tools in plant genetics and biotechnology offer previously inaccessible opportunities for the exploitation of plant genetic diversity in agriculture. The Special Issue was lunched to highlight how new technologies are improving both genotyping and phenotyping methods, thus allowing us to uncover crop diversity and use genetic variability for plant breeding with remarkable precision and speed. Three thematic reviews report on scientific, technological, and legal advances in plant diversity and agriculture. Three contributions provide specific examples of the exploitation of different kinds of genetic resources, ranging from landraces to mutant populations. Six research articles are illustrative examples of the study of molecular and/or phenotypic diversity to address basic or applied questions in different plant species. Finally, this SI was also launched to honor the memory of Prof. Gian Tommaso Scarascia Mugnozza and a dedicated Editorial acknowledges his work in plant breeding and biodiversity protection.

Editing plants for virus resistance using CRISPR-Cas.

Science.gov (United States)

Green, J C; Hu, J S

This minireview summarizes recent advancements using the clustered regularly interspaced palindromic repeats-associated nuclease systems (CRISPR-Cas) derived from prokaryotes to breed plants resistant to DNA and RNA viruses. The CRISPR-Cas system represents a powerful tool able to edit and insert novel traits into plants precisely at chosen loci offering enormous advantages to classical breeding. Approaches to engineering plant virus resistance in both transgenic and non-transgenic plants are discussed. Iterations of the CRISPR-Cas system, FnCas9 and C2c2 capable of editing RNA in eukaryotic cells offer a particular advantage for providing resistance to RNA viruses which represent the great majority of known plant viruses. Scientists have obtained conflicting results using gene silencing technology to produce transgenic plants resistant to geminiviruses. CRISPR-Cas systems engineered in plants to target geminiviruses have consistently reduced virus accumulation providing increased resistance to virus infection. CRISPR-Cas may provide novel and reliable approaches to control geminiviruses and other ssDNA viruses such as Banana bunchy top virus (BBTV).

Radiation induced mutations for plant selection

International Nuclear Information System (INIS)

Brunner, H.

1994-01-01

The successful use of plant breeding for improving crops requires the existence of genetic variation of useful traits. Unfortunately, the desired variation is often lacking. However, radiation can be used to induce mutations and thereby generate genetic variation from which desired mutants may be selected. Mutation induction has become a proven way of creating variation within a crop variety. It offers the possibility of inducing desired attributes that either cannot be expressed in nature or have been lost during evolution. More than 1700 mutant cultivars of crop plants with significantly improved attributes such as increased yield, improved quality, disease and stress resistance, have been released worldwide in the last thirty years. The Joint FAO/IAEA Division of Nuclear Techniques in Food and Agriculture has contributed to these achievements through the promotion of research and development in mutation breeding techniques using nuclear and related biotechnological methods and the provision of in plant breeding is then transferred to Member States of the IAEA and the FAO through training in mutation breeding methods and the provision of technical advice. Moreover, radiation treatment services are provided to foster applications of nuclear techniques in crop improvement programmes of member states and more specifically to render direct support to plant breeders by efficient generation of mutations. Plant materials are standardized prior to radiation exposure to warrant reproducibility of the induced effects within practical limits and a radiosensitivity test is implemented to affirm useful doses for applied objectives of a request. This review deals with irradiation methods applied at the IAEA laboratories for the efficient induction of mutations in seeds, vegetative propagules and tissue and cell cultures and the establishment of genetically variable populations upon which selection of desired traits can be based. 3 tabs., 18 refs. (author)

Genomics-assisted breeding in fruit trees

OpenAIRE

Iwata, Hiroyoshi; Minamikawa, Mai F.; Kajiya-Kanegae, Hiromi; Ishimori, Motoyuki; Hayashi, Takeshi

2016-01-01

Recent advancements in genomic analysis technologies have opened up new avenues to promote the efficiency of plant breeding. Novel genomics-based approaches for plant breeding and genetics research, such as genome-wide association studies (GWAS) and genomic selection (GS), are useful, especially in fruit tree breeding. The breeding of fruit trees is hindered by their long generation time, large plant size, long juvenile phase, and the necessity to wait for the physiological maturity of the pl...

Seeds That Give: Participatory Plant Breeding

International Development Research Centre (IDRC) Digital Library (Canada)

The full text of the book is available online and leads the reader into a virtual ..... They select plant types (rather than varieties) based on their own .... Farmers and breeders, and other stakeholders — such as traders, processors, distributors, ...

Application of next-generation sequencing for rapid marker development in molecular plant breeding: a case study on anthracnose disease resistance in Lupinus angustifolius L.

Directory of Open Access Journals (Sweden)

Yang Huaan

2012-07-01

Full Text Available Abstract Background In the last 30 years, a number of DNA fingerprinting methods such as RFLP, RAPD, AFLP, SSR, DArT, have been extensively used in marker development for molecular plant breeding. However, it remains a daunting task to identify highly polymorphic and closely linked molecular markers for a target trait for molecular marker-assisted selection. The next-generation sequencing (NGS technology is far more powerful than any existing generic DNA fingerprinting methods in generating DNA markers. In this study, we employed a grain legume crop Lupinus angustifolius (lupin as a test case, and examined the utility of an NGS-based method of RAD (restriction-site associated DNA sequencing as DNA fingerprinting for rapid, cost-effective marker development tagging a disease resistance gene for molecular breeding. Results Twenty informative plants from a cross of RxS (disease resistant x susceptible in lupin were subjected to RAD single-end sequencing by multiplex identifiers. The entire RAD sequencing products were resolved in two lanes of the 16-lanes per run sequencing platform Solexa HiSeq2000. A total of 185 million raw reads, approximately 17 Gb of sequencing data, were collected. Sequence comparison among the 20 test plants discovered 8207 SNP markers. Filtration of DNA sequencing data with marker identification parameters resulted in the discovery of 38 molecular markers linked to the disease resistance gene Lanr1. Five randomly selected markers were converted into cost-effective, simple PCR-based markers. Linkage analysis using marker genotyping data and disease resistance phenotyping data on a F8 population consisting of 186 individual plants confirmed that all these five markers were linked to the R gene. Two of these newly developed sequence-specific PCR markers, AnSeq3 and AnSeq4, flanked the target R gene at a genetic distance of 0.9 centiMorgan (cM, and are now replacing the markers previously developed by a traditional DNA

Plant breeding and genetics newsletter. No. 6

International Nuclear Information System (INIS)

2000-12-01

We are approaching the end of yet another year and it is logical to take stock of the activities undertaken by the sub Programme during 2000. Our primary focus has continued to help Member States in improving crops by using radiation-induced mutations. Many allied technologies, particularly tissue culture and molecular biology have been added to enhance the efficiency of mutant induction, isolation, multiplication and their release as new varieties. We have continued to bring the latest developments and innovations in these rapidly advancing technologies for integration into the conventional breeding of mutation-derived varieties. This is reflected in the on-going Coordinated Research Projects (CRPs) on new and traditional industrial crops, creation of new useful banana genotypes, molecular characterization of mutated genes controlling important traits in seed crops, radioactively labeled DNA probes in crop improvement and the improvement of local food crops in Low Income Food Deficit Countries, and in the two newly initiated (CRPs), one on the analysis of root characters in annual food plants related to plant performance and the other on the improvement of tropical fruits. The necessity to have an inter-disciplinary approach to solve problems is also reflected in the implementation of Technical Co-operation Projects (TCPs). For example, in North Africa, date palm has a unique role in food security and the eco-system. However, 'Bayoud' disease has killed over 15 million trees and is posing a serious threat to date palm production in Tunisia. Under a regional TCP to control the disease, irradiation of embryogenic cultures was investigated and low dose gamma radiation was found to increase the formation of somatic embryos. Date palm trees can also be multiplied in vitro through either shoot formation or somatic embryos, which allows irradiation of large populations. Another example is fruit crops, many of which have not benefited from the use of radiation

Camelina as a sustainable oilseed crop: contributions of plant breeding and genetic engineering.

Science.gov (United States)

Vollmann, Johann; Eynck, Christina

2015-04-01

Camelina is an underutilized Brassicaceae oilseed plant with a considerable agronomic potential for biofuel and vegetable oil production in temperate regions. In contrast to most Brassicaceae, camelina is resistant to alternaria black spot and other diseases and pests. Sequencing of the camelina genome revealed an undifferentiated allohexaploid genome with a comparatively large number of genes and low percentage of repetitive DNA. As there is a close relationship between camelina and the genetic model plant Arabidopsis, this review aims at exploring the potential of translating basic Arabidopsis results into a camelina oilseed crop for food and non-food applications. Recently, Arabidopsis genes for drought resistance or increased photosynthesis and overall productivity have successfully been expressed in camelina. In addition, gene constructs affecting lipid metabolism pathways have been engineered into camelina for synthesizing either long-chain polyunsaturated fatty acids, hydroxy fatty acids or high-oleic oils in particular camelina strains, which is of great interest in human food, industrial or biofuel applications, respectively. These results confirm the potential of camelina to serve as a biotechnology platform in biorefinery applications thus justifying further investment in breeding and genetic research for combining agronomic potential, unique oil quality features and biosafety into an agricultural production system. Copyright © 2015 WILEY-VCH Verlag GmbH & Co. KGaA, Weinheim.

Domestication Origin and Breeding History of the Tea Plant (Camellia sinensis in China and India Based on Nuclear Microsatellites and cpDNA Sequence Data

Directory of Open Access Journals (Sweden)

Muditha K. Meegahakumbura

2018-01-01

Full Text Available Although China and India are the two largest tea-producing countries, the domestication origin and breeding history of the tea plant in these two countries remain unclear. Our previous study suggested that the tea plant includes three distinct lineages (China type tea, Chinese Assam type tea and Indian Assam type tea, which were independently domesticated in China and India, respectively. To determine the origin and historical timeline of tea domestication in these two countries we used a combination of 23 nSSRs (402 samples and three cpDNA regions (101 samples to genotype domesticated tea plants and its wild relative. Based on a combination of demographic modeling, NewHybrids and Neighbour joining tree analyses, three independent domestication centers were found. In addition, two origins of Chinese Assam type tea were detected: Southern and Western Yunnan of China. Results from demographic modeling suggested that China type tea and Assam type tea first diverged 22,000 year ago during the last glacial maximum and subsequently split into the Chinese Assam type tea and Indian Assam type tea lineages 2770 year ago, corresponding well with the early record of tea usage in Yunnan, China. Furthermore, we found that the three tea types underwent different breeding histories where hybridization appears to have been the most important approach for tea cultivar breeding and improvements: a high proportion of the hybrid lineages were found to be F2 and BCs. Collectively, our results underscore the necessity for the conservation of Chinese Assam type tea germplasm and landraces as a valuable resource for future tea breeding.

Virtual Plants Need Water Too: Functional-Structural Root System Models in the Context of Drought Tolerance Breeding.

Science.gov (United States)

Ndour, Adama; Vadez, Vincent; Pradal, Christophe; Lucas, Mikaël

2017-01-01

Developing a sustainable agricultural model is one of the great challenges of the coming years. The agricultural practices inherited from the Green Revolution of the 1960s show their limits today, and new paradigms need to be explored to counter rising issues such as the multiplication of climate-change related drought episodes. Two such new paradigms are the use of functional-structural plant models to complement and rationalize breeding approaches and a renewed focus on root systems as untapped sources of plant amelioration. Since the late 1980s, numerous functional and structural models of root systems were developed and used to investigate the properties of root systems in soil or lab-conditions. In this review, we focus on the conception and use of such root models in the broader context of research on root-driven drought tolerance, on the basis of root system architecture (RSA) phenotyping. Such models result from the integration of architectural, physiological and environmental data. Here, we consider the different phenotyping techniques allowing for root architectural and physiological study and their limits. We discuss how QTL and breeding studies support the manipulation of RSA as a way to improve drought resistance. We then go over the integration of the generated data within architectural models, how those architectural models can be coupled with functional hydraulic models, and how functional parameters can be measured to feed those models. We then consider the assessment and validation of those hydraulic models through confrontation of simulations to experimentations. Finally, we discuss the up and coming challenges facing root systems functional-structural modeling approaches in the context of breeding.

Virtual Plants Need Water Too: Functional-Structural Root System Models in the Context of Drought Tolerance Breeding

Directory of Open Access Journals (Sweden)

Adama Ndour

2017-09-01

Full Text Available Developing a sustainable agricultural model is one of the great challenges of the coming years. The agricultural practices inherited from the Green Revolution of the 1960s show their limits today, and new paradigms need to be explored to counter rising issues such as the multiplication of climate-change related drought episodes. Two such new paradigms are the use of functional-structural plant models to complement and rationalize breeding approaches and a renewed focus on root systems as untapped sources of plant amelioration. Since the late 1980s, numerous functional and structural models of root systems were developed and used to investigate the properties of root systems in soil or lab-conditions. In this review, we focus on the conception and use of such root models in the broader context of research on root-driven drought tolerance, on the basis of root system architecture (RSA phenotyping. Such models result from the integration of architectural, physiological and environmental data. Here, we consider the different phenotyping techniques allowing for root architectural and physiological study and their limits. We discuss how QTL and breeding studies support the manipulation of RSA as a way to improve drought resistance. We then go over the integration of the generated data within architectural models, how those architectural models can be coupled with functional hydraulic models, and how functional parameters can be measured to feed those models. We then consider the assessment and validation of those hydraulic models through confrontation of simulations to experimentations. Finally, we discuss the up and coming challenges facing root systems functional-structural modeling approaches in the context of breeding.

Between and beyond additivity and non-additivity : the statistical modelling of genotype by environment interaction in plant breeding

OpenAIRE

Eeuwijk, van, F.A.

1996-01-01

In plant breeding it is a common observation to see genotypes react differently to environmental changes. This phenomenon is called genotype by environment interaction. Many statistical approaches for analysing genotype by environment interaction rely heavily on the analysis of variance model. Genotype by environment interaction is then taken to be equivalent to non-additivity. This thesis criticizes the analysis of variance approach. Modelling genotype by environment interaction by non-addit...

Chromosome engineering: power tools for plant genetics.

Science.gov (United States)

Chan, Simon W L

2010-12-01

The term "chromosome engineering" describes technologies in which chromosomes are manipulated to change their mode of genetic inheritance. This review examines recent innovations in chromosome engineering that promise to greatly increase the efficiency of plant breeding. Haploid Arabidopsis thaliana have been produced by altering the kinetochore protein CENH3, yielding instant homozygous lines. Haploid production will facilitate reverse breeding, a method that downregulates recombination to ensure progeny contain intact parental chromosomes. Another chromosome engineering success is the conversion of meiosis into mitosis, which produces diploid gametes that are clones of the parent plant. This is a key step in apomixis (asexual reproduction through seeds) and could help to preserve hybrid vigor in the future. New homologous recombination methods in plants will potentiate many chromosome engineering applications. Copyright © 2010 Elsevier Ltd. All rights reserved.

Genomics-assisted breeding in fruit trees.

Science.gov (United States)

Iwata, Hiroyoshi; Minamikawa, Mai F; Kajiya-Kanegae, Hiromi; Ishimori, Motoyuki; Hayashi, Takeshi

2016-01-01

Recent advancements in genomic analysis technologies have opened up new avenues to promote the efficiency of plant breeding. Novel genomics-based approaches for plant breeding and genetics research, such as genome-wide association studies (GWAS) and genomic selection (GS), are useful, especially in fruit tree breeding. The breeding of fruit trees is hindered by their long generation time, large plant size, long juvenile phase, and the necessity to wait for the physiological maturity of the plant to assess the marketable product (fruit). In this article, we describe the potential of genomics-assisted breeding, which uses these novel genomics-based approaches, to break through these barriers in conventional fruit tree breeding. We first introduce the molecular marker systems and whole-genome sequence data that are available for fruit tree breeding. Next we introduce the statistical methods for biparental linkage and quantitative trait locus (QTL) mapping as well as GWAS and GS. We then review QTL mapping, GWAS, and GS studies conducted on fruit trees. We also review novel technologies for rapid generation advancement. Finally, we note the future prospects of genomics-assisted fruit tree breeding and problems that need to be overcome in the breeding.

Native plant development and deployment [Section VII

Science.gov (United States)

Jessica Wright; Kas Dumroese; Amy Symstad; Theresa Pitts-Singer; Jim Cane; Gary Krupnick; Peggy Olwell; Byron Love; Elizabeth Sellers; John Englert; Troy Wood

2015-01-01

Native plant materials are needed to create, enhance, or restore pollinator habitat. They provide critical foraging and breeding areas for wild and managed pollinator species, including transnational migratory species such as hummingbirds and monarch butterflies. Although many pollinators and plants are generalists, some have limited, obligate relationships (i.e., one...

Plant breeding and genetics newsletter. No. 8

International Nuclear Information System (INIS)

2002-01-01

The FAO/IAEA Interregional Training Course on Mutant Germplasm Characterisation Using Molecular Markers was definitely the most important event of the Plant Breeding and Genetics sub- Programmes activity in 2001. The course was held at the FAO/IAEA Agriculture and Biotechnology Laboratory, Seibersdorf, Austria, 1-25 October. The programme covered various DNA marker techniques such as genomic DNA isolation, restriction analysis of genomic and plasmid DNA, gel electrophoresis, southern transfer of genomic DNA, DNA hybridization, autoradiography, RFLP, AFLP, SSR, ISSR and RAPD analysis, and inverse PCR. The course was very successful mainly due to three major components: outstanding lecturers, very enthusiastic and motivated trainees, and last but not least, very efficient organization and excellent preparation of the course. We decided to prepare a laboratory manual on the basis of the reading materials and laboratory protocols, that were provided to the participants by the lecturers. Perry Gustafson (USA) and Brian Forster (UK), with the help of the lecturers, compiled and edited all protocols. It is expected that the manual will be printed before March 2002 and freely distributed to requesting scientists. The manual will also be available on CD-Rom and through our Homepage. 2001 was the last year of the Co-ordinated Research Project on 'Cellular biology and biotechnology including mutation techniques for creation of new useful banana genotypes'. The fourth and final Research Co-ordination Meeting was held in Leuven, Belgium, 24-28 September. This location was selected as the Belgium Government co-sponsored the CRP over the last five years. The CRP yielded many interesting results, which stimulated participants to apply to the Common Funds for Commodities for continuation of the work on banana improvement

Plant Mutation Reports, Vol. 3, No. 1, July 2013

International Nuclear Information System (INIS)

2013-07-01

Mutation induction as a tool in plant breeding and for genetics or genomics research is of continuous and increasing interest. Since the onset of the sequencing revolution the ability to target specific genes and to detect mutations in them has brought about a renaissance in plant mutation breeding. We are seeing increased interest in plant mutation induction which in addition to plant breeding is being used as a major tool in determining gene/allele function. This renaissance is also being fuelled by climate change as there is increasing urgency to develop crops that are more resilient to the effects of climate change and plant mutation breeding offers a fast response. As a consequence the Plant Mutation Reports (PMR) are in competition with a growing number of indexed journals with various impact factors that offer high quality standards and wide distribution through online publications. These are attractive and authors prefer to submit their data to these journals as they grant greater visibility and scientific merit. In response to this situation, and the necessity for the best possible application of the limited resources available, we have decided to dis- continue PMR as a regular journal. However, in order to allow for the publishing of short notes, e.g. on the release of new mutant varieties or success stories in plant mutation breeding, we will strengthen our regular publication of the Plant Breeding and Genetics Newsletter (PBGN), which is published twice a year. The PBGN has sections on 'success stories' and reports on the progress of Agency programmes in Technical Cooperation (TC) and in Coordinated Research Projects (CRP). We are particularly interested in short stories on the impact that the release of improved mutant varieties have on farmers, users and consumers in your respective countries. Please contact us if you have a success story and would like to have it published in the newsletters. Also, I would like to use this opportunity to encourage

New challenges for the design of high value plant products: stabilization of anthocyanins in plant vacuoles

Directory of Open Access Journals (Sweden)

Valentina ePasseri

2016-02-01

Full Text Available In the last decade plant biotechnologists and breeders have made several attempt to improve the antioxidant content of plant-derived food. Most efforts concentrated on increasing the synthesis of antioxidants, in particular anthocyanins, by inducing the transcription of genes encoding the synthesizing enzymes. We present here an overview of economically interesting plant species, both food crops and ornamentals, in which anthocyanin content was improved by traditional breeding or transgenesis. Old genetic studies in petunia and more recent biochemical work in brunfelsia, have shown that after synthesis and compartmentalization in the vacuole, anthocyanins need to be stabilized to preserve the color of the plant tissue over time. The final yield of antioxidant molecules is the result of the balance between synthesis and degradation. Therefore the understanding of the mechanism that determine molecule stabilization in the vacuolar lumen is the next step that needs to be taken to further improve the anthocyanin content in food.In several species a phenomenon known as fading is responsible for the disappearance of pigmentation which in some case can be nearly complete. We discuss the present knowledge about the genetic and biochemical factors involved in pigment preservation/destabilization in plant cells.The improvement of our understanding of the fading process will supply new tools for both biotechnological approaches and marker-assisted breeding.

Floral biology and the effects of plant-pollinator interaction on ...

African Journals Online (AJOL)

Reproductive biology and patterns of plant-pollinator interaction are fundamental to gene flow, diversity and evolutionary success of plants. Consequently, we examined the magnitude of insect-plant interaction based on the dynamics of breeding systems and floral biology and their effects on pollination intensity, fruit and ...

Germplasm morgue or gold mine? Enhancing the value of plant genetic resource collections for plant breeding

Science.gov (United States)

Genetic diversity is the raw material that plant breeders require to develop cultivars that are productive, nutritious, pest and stress tolerant, and water and nutrient use efficient. The USDA-ARS National Plant Germplasm System (NPGS) contains a wealth of genetic diversity, including improved varie...

Nuclear techniques and in vitro culture for plant improvement

International Nuclear Information System (INIS)

1986-01-01

The continuous series of food shortages in many parts of the world have led scientists to consider the possibilities of using the new techniques to develop better varieties of plants. The basis for plant breeding is suitable genetic variability and mutation induction as the means to create additional variation. In vitro techniques are a relatively new tool in practical plant breeding. These Proceedings contain 62 papers and posters presented at the symposium, as well as excerpts from the discussions. The Symposium presentations are divided into the following sessions: Genetic variation from in vitro culture; Genetic stability of in vitro cultures; In vitro culture with application of mutagens; Haploids; In vitro mutant selection; Use of genetic variation derived by in vitro culture; In vitro techniques as aids in mutation breeding and Genetic engineering. A separate abstract is prepared for each of these papers and posters

Plant breeding and rural development in the United States.

Science.gov (United States)

KE Woeste; SB Blanche; KA Moldenhauer; CD Nelson

2010-01-01

Plant breeders contributed enormously to the agricultural and economic development of the United States. By improving the profitability of farming, plant breeders improved the economic condition of farmers and contributed to the growth and structure of rural communities. In the years since World War II, agriculture and the quality of rural life have been driven by...

Plant domestication and gene banks

International Nuclear Information System (INIS)

Perrino, P.

1989-01-01

At the time of the dawn of agriculture, plant domestication was very slow. As agriculture progressed, however, domestication began to evolve faster and reached its highest point with the advent of plant breeders who played a very important role in solving the world food problem. One of the fastest moving strategies was a better exploitation of genetic diversity, both natural and induced. However, intensive plant breeding activity caused a heavy fall in genetic variability. Gene banks then provided a further tool for modern agriculture, specifically to preserve genetic resources and to help breeders to further domesticate important crops and to introduce and domesticate new species. (author). 3 refs

Genomics and Evolution in Traditional Medicinal Plants: Road to a Healthier Life.

Science.gov (United States)

Hao, Da-Cheng; Xiao, Pei-Gen

2015-01-01

Medicinal plants have long been utilized in traditional medicine and ethnomedicine worldwide. This review presents a glimpse of the current status of and future trends in medicinal plant genomics, evolution, and phylogeny. These dynamic fields are at the intersection of phytochemistry and plant biology and are concerned with the evolution mechanisms and systematics of medicinal plant genomes, origin and evolution of the plant genotype and metabolic phenotype, interaction between medicinal plant genomes and their environment, the correlation between genomic diversity and metabolite diversity, and so on. Use of the emerging high-end genomic technologies can be expanded from crop plants to traditional medicinal plants, in order to expedite medicinal plant breeding and transform them into living factories of medicinal compounds. The utility of molecular phylogeny and phylogenomics in predicting chemodiversity and bioprospecting is also highlighted within the context of natural-product-based drug discovery and development. Representative case studies of medicinal plant genome, phylogeny, and evolution are summarized to exemplify the expansion of knowledge pedigree and the paradigm shift to the omics-based approaches, which update our awareness about plant genome evolution and enable the molecular breeding of medicinal plants and the sustainable utilization of plant pharmaceutical resources.

Plant prebiotics and human health: Biotechnology to breed prebiotic-rich nutritious food crops

Directory of Open Access Journals (Sweden)

Sangam Dwivedi

2014-09-01

Full Text Available Microbiota in the gut play essential roles in human health. Prebiotics are non-digestible complex carbohydrates that are fermented in the colon, yielding energy and short chain fatty acids, and selectively promote the growth of Bifidobacteria and Lactobacillae in the gastro-intestinal tract. Fructans and inulin are the best-characterized plant prebiotics. Many vegetable, root and tuber crops as well as some fruit crops are the best-known sources of prebiotic carbohydrates, while the prebiotic-rich grain crops include barley, chickpea, lentil, lupin, and wheat. Some prebiotic-rich crop germplasm have been reported in barley, chickpea, lentil, wheat, yacon, and Jerusalem artichoke. A few major quantitative trait loci and gene-based markers associated with high fructan are known in wheat. More targeted search in genebanks using reduced subsets (representing diversity in germplasm is needed to identify accessions with prebiotic carbohydrates. Transgenic maize, potato and sugarcane with high fructan, with no adverse effects on plant development, have been bred, which suggests that it is feasible to introduce fructan biosynthesis pathways in crops to produce health-imparting prebiotics. Developing prebiotic-rich and super nutritious crops will alleviate the widespread malnutrition and promote human health. A paradigm shift in breeding program is needed to achieve this goal and to ensure that newly-bred crop cultivars are nutritious, safe and health promoting.

Determination of optimal doses of radiation for the plant breeding of pseudo cereals

International Nuclear Information System (INIS)

Gonzalez J, J.; Gomez P, L.

2005-01-01

With the purpose of promoting the use of the radiations for the plant breeding of pseudo cereals, it was determined a simple and economic method that allows the quick selection of radiation dose that induce in the vegetable organisms the changes wanted. For it it was work with quinua seeds (Chenopodium quinoa Willd.) an Andean pseudo cereal that, due to their nutritious and physiologic characteristics it is considered by the FAO like one of the foods of the future and for the NASA like an organism that is good to remove the carbon dioxide from the atmosphere and at the same time, to generate food, oxygen and water for the crew during the space missions of long duration and that it has already improved by means of the radiation application. The proposed method consists on the evaluation, of the embryonic structures (radicule, hypocotyl and cotyledons) in the irradiated seeds as well as of the development of root, primary shaft and true leaves in the plants. The changes in the growth, form, number and color of the structures as well as the time of appearance of each one, allow to predict the morphological changes and inclusive some physiologic ones that will have the mature organisms, so that in only three weeks it is possible to select the doses more appropriate. (Author)

ANTIBACTERIAL ACTIVITY OF SOME WILD MEDICAL PLANTS EXTRACT TO ANTIBIOTIC RESISTANT ESCHERICHIA COLI

Directory of Open Access Journals (Sweden)

Lukáš Hleba

2013-02-01

Full Text Available Antibiotics are probably the most successful family of drugs so far developed for improving human health. Because of increasing resistance to antibiotics of many bacteria, plant extracts and plant compounds are of new interest as antiseptics and antimicrobial agents in medicine. In this study, we researched antimicrobial effects of extracts of some medical plants (Tussilagofarfara, Equisetum arvense, Sambucusnigra, Aesculushippocastanumand Taraxacumofficinale from Slovakia to antibiotic resistant and antibiotic sensitive bacteria isolated from milk of cows and mare, which were breeded in different conditions. Microorganisms which were used in this experiment we isolated from milk from conventional breeding of cows (tenE. coli strains and from ecological breeding of Lipicanmare (tenE. coli strains by sterile cotton swabs. For antibiotic susceptibility testing was used disc diffusion method according by EUCAST. After dried at room temperature we weighed 50 g of crushed medical plants (parts and it were to extract in 400 ml methanol for two weeks at room temperature. For antimicrobial susceptibility testing of medical plants extract blank discs with 6 mm diameter disc diffusion method was used. We determined that all Escherichia coli strains isolated from milk of conventional breeding of cows were resistant to ampicillin and chloramphenicol. We determined that all tested ampicillin and chloramphenicol resistant E. coli strains isolated from conventional breeding of cow showed susceptibility to all used medical plants extracts. In difference, we determined that antibiotic susceptible E. coli strains isolated from ecological breeding of Lipicanmare were susceptible to Tussilagofarfara extract only. From these results we could be conclude some observations, which could be important step in treatment of bacterial infections caused by antibiotic resistant bacteria and it could be important knowledge for treatment of livestock in conventional breeding

Nordic research infrastructures for plant phenotyping

Directory of Open Access Journals (Sweden)

Kristiina Himanen

2018-03-01

Full Text Available Plant phenomics refers to the systematic study of plant phenotypes. Together with closely monitored, controlled climates, it provides an essential component for the integrated analysis of genotype-phenotype-environment interactions. Currently, several plant growth and phenotyping facilities are under establishment globally, and numerous facilities are already in use. Alongside the development of the research infrastructures, several national and international networks have been established to support shared use of the new methodology. In this review, an overview is given of the Nordic plant phenotyping and climate control facilities. Since many areas of phenomics such as sensor-based phenotyping, image analysis and data standards are still developing, promotion of educational and networking activities is especially important. These facilities and networks will be instrumental in tackling plant breeding and plant protection challenges. They will also provide possibilities to study wild species and their ecological interactions under changing Nordic climate conditions.

Molecular breeding to create optimized crops: from genetic manipulation to potential applications in plant factories

Directory of Open Access Journals (Sweden)

Kyoko eHiwasa-Tanase

2016-04-01

Full Text Available Crop cultivation in controlled environment plant factories offers great potential to stabilize the yield and quality of agricultural products. However, many crops are currently unsuited to these environments, particularly closed cultivation systems, due to space limitations, low light intensity, high implementation costs, and high energy requirements. A major barrier to closed system cultivation is the high running cost, which necessitates the use of high-margin crops for economic viability. High-value crops include those with enhanced nutritional value or containing additional functional components for pharmaceutical production or with the aim of providing health benefits. In addition, it is important to develop cultivars equipped with growth parameters that are suitable for closed cultivation. Small plant size is of particular importance due to the limited cultivation space. Other advantageous traits are short production cycle, the ability to grow under low light, and high nutriculture availability. Cost-effectiveness is improved from the use of cultivars that are specifically optimized for closed system cultivation. This review describes the features of closed cultivation systems and the potential application of molecular breeding to create crops that are optimized for cost-effectiveness and productivity in closed cultivation systems.

Trained to adapt: Researchers from Pakistan, Mauritius and Afghanistan breed mutant plants to take on a changing climate

International Nuclear Information System (INIS)

Jawerth, Nicole

2015-01-01

From cotton in Pakistan to tomatoes in Mauritius and wheat in Afghanistan, many crops around the world are being devastated by erratic rains, droughts, diseases and relentless heat, which are being exacerbated by climate change. As the global search for solutions to climate challenges continues, three researchers are using their training with the Joint FAO/IAEA Division of Nuclear Techniques in Food and Agriculture to develop new plant breeds that can withstand these adverse conditions and help keep their countries’ crops growing strong.

Molecular mechanisms governing differential robustness of development and environmental responses in plants

DEFF Research Database (Denmark)

Lachowiec, Jennifer; Queitsch, Christine; Kliebenstein, Daniel James

2016-01-01

-genome duplications, tandem gene duplication and hybridization are emerging as major regulators of robustness in development. Despite their obvious implications for plant evolution and plant breeding, the mechanistic underpinnings by which plants modulate precise levels of robustness, plasticity and evolvability...

Gramene database: Navigating plant comparative genomics resources

Directory of Open Access Journals (Sweden)

Parul Gupta

2016-11-01

Full Text Available Gramene (http://www.gramene.org is an online, open source, curated resource for plant comparative genomics and pathway analysis designed to support researchers working in plant genomics, breeding, evolutionary biology, system biology, and metabolic engineering. It exploits phylogenetic relationships to enrich the annotation of genomic data and provides tools to perform powerful comparative analyses across a wide spectrum of plant species. It consists of an integrated portal for querying, visualizing and analyzing data for 44 plant reference genomes, genetic variation data sets for 12 species, expression data for 16 species, curated rice pathways and orthology-based pathway projections for 66 plant species including various crops. Here we briefly describe the functions and uses of the Gramene database.

Changes in bird community composition in response to growth changes in short-rotation woody crop planting

International Nuclear Information System (INIS)

Tolbert, V.R.; Hanowski, J.; Schiller, A.; Hoffman, W.; Christian, D.; Lindberg, J.

1997-01-01

Hybrid poplar established as intensively managed short-rotation woody crops (SRWC) on former agricultural lands can provide habitat for wildlife. Studies of bird use of SRWC for nesting and during fall migration have shown that the numbers and kinds of breeding birds using mature plantings of hybrid poplar are similar to natural forested lands. In Minnesota, the number of species of breeding birds using habitat provided by clonal-trial plantings and young larger-scale plantings (12-64 ha) of hybrid poplar were initially most similar to those using grasslands and row-crops. As the plantings approached canopy closure, successional species became predominant. In the Pacific Northwest, breeding bird composition and density were very similar for mature plantings and forested areas; however, fall migrants were found primarily in forested areas. In the Southeast, preliminary comparisons of breeding bird use of plantings of sweetgum and sycamore with naturally regenerating forests of different ages and sizes and vegetation structure are showing no size effect on use. As with hybrid poplar, species use of the more mature plantings of sweetgum and sycamore was most similar to that of natural forests. (author)

Genotype x environment interaction QTL mapping in plants: lessons from Arabidopsis

NARCIS (Netherlands)

El-Soda, M.; Malosetti, M.; Zwaan, B.J.; Koornneef, M.; Aarts, M.G.M.

2014-01-01

Plant growth and development are influenced by the genetic composition of the plant (G), the environment (E), and the interaction between them (G × E). To produce suitable genotypes for multiple environments, G × E should be accounted for and assessed in plant-breeding programs. Here, we review the

Neutronic performance issues of the breeding blanket options for the European DEMO fusion power plant

Energy Technology Data Exchange (ETDEWEB)

Fischer, U., E-mail: ulrich.fischer@kit.edu [Karlsruhe Institute of Technology (KIT), Hermann-von-Helmholtz-Platz 1, 76344 Eggenstein-Leopoldshafen (Germany); Bachmann, C. [EUROfusion—Programme Management Unit, Boltzmannstr. 2, 85748 Garching (Germany); Jaboulay, J.-C. [CEA-Saclay, DEN, DM2S, SERMA, LPEC, 91191 Gif-sur-Yvette (France); Moro, F. [ENEA, Dipartimento Fusione e tecnologie per la Sicurezza Nucleare, Via E. Fermi 45, 00044 Frascati, Rome (Italy); Palermo, I. [Centro de Investigaciones Energéticas, Medioambientales y Tecnológicas (CIEMAT), Madrid (Spain); Pereslavtsev, P. [Karlsruhe Institute of Technology (KIT), Hermann-von-Helmholtz-Platz 1, 76344 Eggenstein-Leopoldshafen (Germany); Villari, R. [ENEA, Dipartimento Fusione e tecnologie per la Sicurezza Nucleare, Via E. Fermi 45, 00044 Frascati, Rome (Italy)

2016-11-01

Highlights: • Breeder blanket concepts for DEMO—design features. • Neutronic characteristics of breeder blankets. • Evaluation of Tritium breeding potential. • Evaluation of shielding performance. - Abstract: This paper presents nuclear performance issues of the HCPB, HCLL, DCLL and WCLL breeder blankets, which are under development within the PPPT (Power Plant Physics and Technology) programme of EUROfusion, with the objective to assess the potential and suitability of the blankets for the application to DEMO. The assessment is based on the initial design versions of the blankets developed in 2014. The Tritium breeding potential is considered sufficient for all breeder blankets although the initial design versions of the HCPB, HCLL and DCLL blankets were shown to require further design improvements. Suitable measures have been proposed and proven to be sufficient to achieve the required Tritium Breeding Ratio (TBR) ≥ 1.10. The shielding performance was shown to be sufficient to protect the super-conducting toroidal field coil provided that efficient shielding material mixtures including WC or borated water are utilized. The WCLL blanket does not require the use of such shielding materials due to a very compact blanket support structure/manifold configuration which yet requires design verification. The vacuum vessel can be safely operated over the full anticipated DEMO lifetime of 6 full power years for all blanket concepts considered.

Standard Operation Procedure (SOP) on Planting and Curing of Stevia in Malaysian Nuclear Agency

International Nuclear Information System (INIS)

Norellia Bahari; Norazlina Noordin; Peng, C.S.

2015-01-01

Mutation breeding on stevia study was conducted at the Malaysian Nuclear Agency began in 2012 through the projects under auspices of Science Funs and MOSTI. This research involves the irradiation og gamma rays for acute and chronic tissue culture of stevia. The resulting plant from this tissue cultures process should be planted in a nursery fro the propagation of seedlings for the work of mutant screening potential. For this purpose, the SOP for planting, care and management of stevia has ben developed to ensure that this plant can grow in abundance, disease free and quality. This paper will discuss the SOP including acclimatization techniques of tissue culture plant lets, seedlings and planting in Bio Design Facility, fertilization using fertilizers and planting of trees in the plot for the purpose of potentially screening mutant breeding. (author)

Root traits contributing to plant productivity under drought

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Louise eComas

2013-11-01

Full Text Available Geneticists and breeders are positioned to breed plants with root traits that improve productivity under drought. However, a better understanding of root functional traits and how traits are related to whole plant strategies to increase crop productivity under different drought conditions is needed. Root traits associated with maintaining plant productivity under drought include small fine root diameters, long specific root length (SRL, and considerable root length density, especially at depths in soil with available water. In environments with late season water deficits, small xylem diameters in targeted seminal roots save soil water deep in the soil profile for use during crop maturation and result in improved yields. Capacity for deep root growth and large xylem diameters in deep roots may also improve root acquisition of water when ample water at depth is available. Xylem pit anatomy that makes xylem less ‘leaky’ and prone to cavitation warrants further exploration holding promise that such traits may improve plant productivity in water-limited environments without negatively impacting yield under adequate water conditions. Rapid resumption of root growth following soil rewetting may improve plant productivity under episodic drought. Genetic control of many of these traits through breeding appears feasible. Several recent reviews have covered methods for screening root traits but an appreciation for the complexity of root systems (e.g. functional differences between fine and coarse roots needs to be paired with these methods to successfully identify relevant traits for crop improvement. Screening of root traits at early stages in plant development can proxy traits at mature stages but verification is needed on a case by case basis that traits are linked to increased crop productivity under drought. Examples in lesquerella (Physaria and rice (Oryza show approaches to phenotyping of root traits and current understanding of root trait

Insect-resistant transgenic plants in a multi-trophic context

NARCIS (Netherlands)

Groot, A.T.; Dicke, M.

2002-01-01

So far, genetic engineering of plants in the context of insect pest control has involved insertion of genes that code for toxins, and may be characterized as the incorporation of biopesticides into classical plant breeding. In the context of pesticide usage in pest control, natural enemies of

Principle and application of plant mutagenesis in crop improvement: a review

Directory of Open Access Journals (Sweden)

Yusuff Oladosu

2016-01-01

Full Text Available The first step in plant breeding is to identify suitable genotypes containing the desired genes among existing varieties, or to create one if it is not found in nature. In nature, variation occurs mainly as a result of mutations and without it, plant breeding would be impossible. In this context, the major aim in mutation-based breeding is to develop and improve well-adapted plant varieties by modifying one or two major traits to increase their productivity or quality. Both physical and chemical mutagenesis is used in inducing mutations in seeds and other planting materials. Then, selection for agronomic traits is done in the first generation, whereby most mutant lines may be discarded. The agronomic traits are confirmed in the second and third generations through evident phenotypic stability, while other evaluations are carried out in the subsequent generations. Finally, only the mutant lines with desirable traits are selected as a new variety or as a parent line for cross breeding. New varieties derived by induced mutatgenesis are used worldwide: rice in Vietnam, Thailand, China and the United States; durum wheat in Italy and Bulgaria; barley in Peru and European nations; soybean in Vietnam and China; wheat in China; as well as leguminous food crops in Pakistan and India. This paper integrates available data about the impact of mutation breeding-derived crop varieties around the world and highlights the potential of mutation breeding as a flexible and practicable approach applicable to any crop provided that appropriate objectives and selection methods are used.

Characterization of Foliage Mutants for Plant Variety Registration

International Nuclear Information System (INIS)

Affrida Abu Hassan; Shuhaimi Shamsuddin; Zaiton Ahmad

2011-01-01

Breeding for new plant varieties requires a substantial investment in terms of skill, labour, material resources and financing. Thus, registration of new plant variety is important to ensure return of revenue and protection of the breeder's right. Before a new variety is registered, it has to comply certain requirements under Plant Variety Protection Act. One of the most important requirements is, the new species/variety must be morphologically distinguishable from existing plant varieties. This paper discusses detailed leaf characteristics of 4 foliage mutants produced by Malaysian Nuclear Agency as part of the requirement for new variety registration. (author)

Plants as solar collectors. Optimizing productivity for energy. An assessment study

Energy Technology Data Exchange (ETDEWEB)

Coombs, J.; Hall, D.O.; Chartier, P.

1983-01-01

An overview is given of the productivity problem and some suggestions on ways and means to approach it. An analysis is given of the fundamental mechanisms of light trapping and carbon dioxide absorption in the plant's leaf and as a result the basic limitations of productivity in a plant. Water, temperature, nutrient and other stresses for the plant's development are reviewed and the limits to productivity analysed in detail. Recommendations are given for future work on how to improve the plant's productivity by means of a comprehensive breeding programme. As far as Europe is concerned, it appears that trees and other perennial woody species offer most promise as biomass crops. Tree species present many unique problems as far as breeding for improved performance is concerned. When at breeding a desired specific characteristic is not available in the germ plasm of a species it might be possible to transfer this by recombinant DNA technology. However, there is still a long way from realisation.

Analysing patent landscapes in plant biotechnology and new plant breeding techniques.

Science.gov (United States)

Parisi, Claudia; Rodríguez-Cerezo, Emilio; Thangaraj, Harry

2013-02-01

This article aims to inform the reader of the importance of searching patent landscapes in plant biotechnology and the use of basic tools to perform a patent search. The recommendations for a patent search strategy are illustrated with the specific example of zinc finger nuclease technology for genetic engineering in plants. Within this scope, we provide a general introduction to searching using two online and free-access patent databases esp@cenet and PatentScope. The essential features of the two databases, and their functionality is described, together with short descriptions to enable the reader to understand patents, searching, their content, patent families, and their territorial scope. We mostly stress the value of patent searching for mining scientific, rather than legal information. Search methods through the use of keywords and patent codes are elucidated together with suggestions about how to search with or combine codes with keywords and we also comment on limitations of each method. We stress the importance of patent literature to complement more mainstream scientific literature, and the relative complexities and difficulties in searching patents compared to the latter. A parallel online resource where we describe detailed search exercises is available through reference for those intending further exploration. In essence this is aimed at a novice patent searcher who may want to examine accessory patent literature to complement knowledge gained from mainstream journal resources.

Manual on mutation breeding. 2. ed.

International Nuclear Information System (INIS)

1977-01-01

The manual is a compilation of work done on the use of induced mutations in plant breeding, and presents general methods and techniques in this field. The use of chemical mutagens and ionizing radiations (X-rays, gamma rays, α- and β-particles, protons, neutrons) are described as well as the effects of these mutagens. The different types of mutations achieved can be divided into genome mutations, chromosome mutations and extra nuclear mutations. Separate chapters deal with mutation techniques in breeding seed-propagated species and asexually propagated plants (examples of development of cultivars given). Plant characters which can be improved by mutation breeding include yield, ripening time, growth habit, disease resistance and tolerance to environmental factors (temperature, salinity etc.). The use of mutagens for some specific plant breeding problems is discussed and attention is also paid to somatic cell genetics in connection with induced mutations. The manual contains a comprehensive bibliography (60 p. references) and a subject index

Experimental evidence for the ancestry of allotetraploid Trifolium repens and creation of synthetic forms with value for plant breeding.

Science.gov (United States)

Williams, Warren M; Ellison, Nicholas W; Ansari, Helal A; Verry, Isabelle M; Hussain, S Wajid

2012-04-24

White clover (Trifolium repens) is a ubiquitous weed of the temperate world that through use of improved cultivars has also become the most important legume of grazed pastures world-wide. It has long been suspected to be allotetraploid, but the diploid ancestral species have remained elusive. Putative diploid ancestors were indicated by DNA sequence phylogeny to be T. pallescens and T. occidentale. Here, we use further DNA evidence as well as a combination of molecular cytogenetics (FISH and GISH) and experimental hybridization to test the hypothesis that white clover originated as a hybrid between T. pallescens and T. occidentale. T. pallescens plants were identified with chloroplast trnL intron DNA sequences identical to those of white clover. Similarly, T. occidentale plants with nuclear ITS sequences identical to white clover were also identified. Reciprocal GISH experiments, alternately using labeled genomic DNA probes from each of the putative ancestral species on the same white clover cells, showed that half of the chromosomes hybridized with each probe. F1 hybrids were generated by embryo rescue and these showed strong interspecific chromosome pairing and produced a significant frequency of unreduced gametes, indicating the likely mode of polyploidization. The F1 hybrids are inter-fertile with white clover and function as synthetic white clovers, a valuable new resource for the re-incorporation of ancestral genomes into modern white clover for future plant breeding. Evidence from DNA sequence analyses, molecular cytogenetics, interspecific hybridization and breeding experiments supports the hypothesis that a diploid alpine species (T. pallescens) hybridized with a diploid coastal species (T. occidentale) to generate tetraploid T. repens. The coming together of these two narrowly adapted species (one alpine and the other maritime), along with allotetraploidy, has led to a transgressive hybrid with a broad adaptive range.

Experimental evidence for the ancestry of allotetraploid Trifolium repens and creation of synthetic forms with value for plant breeding

Directory of Open Access Journals (Sweden)

Williams Warren M

2012-04-01

Full Text Available Abstract Background White clover (Trifolium repens is a ubiquitous weed of the temperate world that through use of improved cultivars has also become the most important legume of grazed pastures world-wide. It has long been suspected to be allotetraploid, but the diploid ancestral species have remained elusive. Putative diploid ancestors were indicated by DNA sequence phylogeny to be T. pallescens and T. occidentale. Here, we use further DNA evidence as well as a combination of molecular cytogenetics (FISH and GISH and experimental hybridization to test the hypothesis that white clover originated as a hybrid between T. pallescens and T. occidentale. Results T. pallescens plants were identified with chloroplast trnL intron DNA sequences identical to those of white clover. Similarly, T. occidentale plants with nuclear ITS sequences identical to white clover were also identified. Reciprocal GISH experiments, alternately using labeled genomic DNA probes from each of the putative ancestral species on the same white clover cells, showed that half of the chromosomes hybridized with each probe. F1 hybrids were generated by embryo rescue and these showed strong interspecific chromosome pairing and produced a significant frequency of unreduced gametes, indicating the likely mode of polyploidization. The F1 hybrids are inter-fertile with white clover and function as synthetic white clovers, a valuable new resource for the re-incorporation of ancestral genomes into modern white clover for future plant breeding. Conclusions Evidence from DNA sequence analyses, molecular cytogenetics, interspecific hybridization and breeding experiments supports the hypothesis that a diploid alpine species (T. pallescens hybridized with a diploid coastal species (T. occidentale to generate tetraploid T. repens. The coming together of these two narrowly adapted species (one alpine and the other maritime, along with allotetraploidy, has led to a transgressive hybrid with a

Medicinal plants: traditions and study prospects (devoted to the 100th anniversary of establishing the Experimental Station of Medicinal Plants

Directory of Open Access Journals (Sweden)

О. С. Дем’янюк

2016-12-01

Full Text Available Historical review was done concerning the formation and development of scientific research of the Experimental Station of Medicinal Plants over the period 1916–2016. The main stages of experimenting in the direction of “medicinal plant cultivation’’ in Ukraine were covered. Role and importance of the Experimental Station of Medicinal Plants in the scientific and methodological support of such scientific directions as breeding, seed production, cultivation technologies, pharmacognosy in medicinal plant cultivation were shown. For the needs of the branch, over 100 species of introduced medicinal plants were studied at the Station and agricultu­ral techniques of their growing were developed, in addition, more than 50 varieties of medicinal plants were crea­ted, a number of machines and devices for growing, harves­ting and initial treatment of raw materials and seeds of the most important medicinal plants was designed. Other scientific achievements of the Station were mentioned and promising areas of medicinal plant research in Ukraine were outlined.

Fuel management of mixed reactor type power plant systems

International Nuclear Information System (INIS)

Csom, Gyula

1988-01-01

Breeding gain in symbiotic nuclear power plant system consisting of both thermal and fast breeder reactors depends on the characteristics and the ratio of thermal and fast reactors. The composition of the symbiotic power plant systems was determined for equilibrium and plutonium deficient systems. According to natural uranium utilization, symbiotic power plant systems are not less efficient than the systems containing only fast breeders. Depleted uranium can be applied in both types of systems. Reprocessing demands of the symbiotic power plant sytems were determined. (V.N.) 23 figs.; 1 tab

Populations in clonal plants

Directory of Open Access Journals (Sweden)

Jussi Tammisola

1986-12-01

Full Text Available Population phenomena in higher plants are reviewed critically, particularly in relation to clonality. An array of concepts used in the field are discussed. In contrast to animals, higher plants are modular in structure. Plant populations show hierarchy at two levels: ramets and genets. In addition, their demography is far more complicated, since even the direction of development of a ramet may change by rejuvenation. Therefore, formulae concerning animal populations often require modification for plants. Furthermore, at the zygotic stage, higher plants are generally less mobile than animals. Accordingly, their population processes tend to be more local. Most populations of plants have a genetic structure: alleles and genotypes are spatially aggregated. Due to the short-ranged foraging behaviour of pollinators, genetically non-random pollination prevails. A generalized formula for parent-offspring dispersal variance is derived. It is used to analyze the effect of clonality on genetic patchiness in populations. In self-compatible species, an increase in clonality will tend to increase the degree of patchiness, while in self-incompatible species a decrease may result. Examples of population structure studies in different species are presented. A considerable degree of genetic variation appears to be found also in the populations of species with a strong allocation of resources to clonal growth or apomictic seed production. Some consequences of clonality are considered from the point of view of genetic conservation and plant breeding.

Experimental mutagenesis in plants

International Nuclear Information System (INIS)

Conger, B.V.

1979-01-01

Considerable progress has been made in directed or controlled mutagenesis with bacterial systems, the genetic resolving power of which is much greater than that of higher plants. The mutagen specificity in higher plants has been of great interest, and numerous results and observations have been reported. The advances in the culture of plant cells and tissues have created much interest concerning the possibility of inducing and recovering mutants at the cellular level. There are great problems including the failure to regenerate plants from cells in all but a few species. The genetic and cytogenetic instability in the culture of plant tissues is well known, and the most common nuclear change is polyploidy including aneuploidy. The degree of polyploidy increases with calluses or culture age. In rice, the frequency of aneuploidy is greater in the calluses derived from roots than those derived from stem internodes. Polyploid and/or self-incompatible plant species are not as amenable to conventional mutation breeding techniques as diploid, self-fertilizing species. Inducing mutations in somatic tissues creates the problem of chimeras. However, the new cultivars of highly heterozygous, outcrossing, self-incompatible species are produced by combining several different clones. The performance of the progeny of at least 4 generations removed from the polycross of the parent clones is the important factor, and a high amount of heterozygocity is tolerated within cultivars and even on the same plants. (Yamashita, S.)

A simple language to script and simulate breeding schemes: the breeding scheme language

Science.gov (United States)

It is difficult for plant breeders to determine an optimal breeding strategy given that the problem involves many factors, such as target trait genetic architecture and breeding resource availability. There are many possible breeding schemes for each breeding program. Although simulation study may b...

78 FR 45494 - Plant Breeding Listening Session meeting

Science.gov (United States)

2013-07-29

... areas, including a discussion of relevant work, goals, and results. In the late morning, the audience... development programs and/or their perception of needs and potential improvements in publicly-funded plant...

Plant biotechnology: transgenic crops.

Science.gov (United States)

Shewry, Peter R; Jones, Huw D; Halford, Nigel G

2008-01-01

Transgenesis is an important adjunct to classical plant breeding, in that it allows the targeted manipulation of specific characters using genes from a range of sources. The current status of crop transformation is reviewed, including methods of gene transfer, the selection of transformed plants and control of transgene expression. The application of genetic modification technology to specific traits is then discussed, including input traits relating to crop production (herbicide tolerance and resistance to insects, pathogens and abiotic stresses) and output traits relating to the composition and quality of the harvested organs. The latter include improving the nutritional quality for consumers as well as the improvement of functional properties for food processing.

Climate change may alter breeding ground distributions of eastern migratory monarchs (Danaus plexippus) via range expansion of Asclepias host plants.

Science.gov (United States)

Lemoine, Nathan P

2015-01-01

Climate change can profoundly alter species' distributions due to changes in temperature, precipitation, or seasonality. Migratory monarch butterflies (Danaus plexippus) may be particularly susceptible to climate-driven changes in host plant abundance or reduced overwintering habitat. For example, climate change may significantly reduce the availability of overwintering habitat by restricting the amount of area with suitable microclimate conditions. However, potential effects of climate change on monarch northward migrations remain largely unknown, particularly with respect to their milkweed (Asclepias spp.) host plants. Given that monarchs largely depend on the genus Asclepias as larval host plants, the effects of climate change on monarch northward migrations will most likely be mediated by climate change effects on Asclepias. Here, I used MaxEnt species distribution modeling to assess potential changes in Asclepias and monarch distributions under moderate and severe climate change scenarios. First, Asclepias distributions were projected to extend northward throughout much of Canada despite considerable variability in the environmental drivers of each individual species. Second, Asclepias distributions were an important predictor of current monarch distributions, indicating that monarchs may be constrained as much by the availability of Asclepias host plants as environmental variables per se. Accordingly, modeling future distributions of monarchs, and indeed any tightly coupled plant-insect system, should incorporate the effects of climate change on host plant distributions. Finally, MaxEnt predictions of Asclepias and monarch distributions were remarkably consistent among general circulation models. Nearly all models predicted that the current monarch summer breeding range will become slightly less suitable for Asclepias and monarchs in the future. Asclepias, and consequently monarchs, should therefore undergo expanded northern range limits in summer months

Landscaping plant epigenetics.

Science.gov (United States)

McKeown, Peter C; Spillane, Charles

2014-01-01

The understanding of epigenetic mechanisms is necessary for assessing the potential impacts of epigenetics on plant growth, development and reproduction, and ultimately for the response of these factors to evolutionary pressures and crop breeding programs. This volume highlights the latest in laboratory and bioinformatic techniques used for the investigation of epigenetic phenomena in plants. Such techniques now allow genome-wide analyses of epigenetic regulation and help to advance our understanding of how epigenetic regulatory mechanisms affect cellular and genome function. To set the scene, we begin with a short background of how the field of epigenetics has evolved, with a particular focus on plant epigenetics. We consider what has historically been understood by the term "epigenetics" before turning to the advances in biochemistry, molecular biology, and genetics which have led to current-day definitions of the term. Following this, we pay attention to key discoveries in the field of epigenetics that have emerged from the study of unusual and enigmatic phenomena in plants. Many of these phenomena have involved cases of non-Mendelian inheritance and have often been dismissed as mere curiosities prior to the elucidation of their molecular mechanisms. In the penultimate section, consideration is given to how advances in molecular techniques are opening the doors to a more comprehensive understanding of epigenetic phenomena in plants. We conclude by assessing some opportunities, challenges, and techniques for epigenetic research in both model and non-model plants, in particular for advancing understanding of the regulation of genome function by epigenetic mechanisms.

Toxicity and tolerance of aluminum in plants: tailoring plants to suit to acid soils.

Science.gov (United States)

Sade, Hemalatha; Meriga, Balaji; Surapu, Varalakshmi; Gadi, Jogeswar; Sunita, M S L; Suravajhala, Prashanth; Kavi Kishor, P B

2016-04-01

Aluminum (Al) stress is one of the serious limiting factors in plant productivity in acidic soils, which constitute about 50 % of the world's potentially arable lands and causes anywhere between 25 and 80 % of yield losses depending upon the species. The mechanism of Al toxicity and tolerance has been examined in plants, which is vital for crop improvement and enhanced food production in the future. Two mechanisms that facilitate Al tolerance in plants are Al exclusion from the roots and the ability to tolerate Al in the symplast or both. Although efforts have been made to unravel Al-resistant factors, many aspects remain unclear. Certain gene families such as MATE, ALMT, ASR, and ABC transporters have been implicated in some plants for resistance to Al which would enhance the opportunities for creating crop plants suitable to grow in acidic soils. Though QTLs have been identified related to Al-tolerance, no crop plant that is tolerant to Al has been evolved so far using breeding or molecular approaches. The remarkable changes that plants experience at the physiological, biochemical and molecular level under Al stress, the vast array of genes involved in Al toxicity-tolerance, the underlying signaling events and the holistic image of the molecular regulation, and the possibility of creating transgenics for Al tolerance are discussed in this review.

Genetic Improvement of Switchgrass and Other Herbaceous Plants for Use as Biomass Fuel Feedstock

Energy Technology Data Exchange (ETDEWEB)

Vogel, K.P.

2001-01-11

It should be highly feasible to genetically modify the feedstock quality of switchgrass and other herbaceous plants using both conventional and molecular breeding techniques. Effectiveness of breeding to modify herbages of switchgrass and other perennial and annual herbaceous species has already been demonstrated. The use of molecular markers and transformation technology will greatly enhance the capability of breeders to modify the plant structure and cell walls of herbaceous plants. It will be necessary to monitor gene flow to remnant wild populations of plants and have strategies available to curtail gene flow if it becomes a potential problem. It also will be necessary to monitor plant survival and long-term productivity as affected by genetic changes that improve forage quality. Information on the conversion processes that will be used and the biomass characteristics that affect conversion efficiency and rate is absolutely essential as well as information on the relative economic value of specific traits. Because most forage or biomass quality characteristics are highly affected by plant maturity, it is suggested that plant material of specific maturity stages be used in research to determining desirable feedstock quality characteristics. Plant material could be collected at various stages of development from an array of environments and storage conditions that could be used in conversion research. The same plant material could be used to develop NIRS calibrations that could be used by breeders in their selection programs and also to develop criteria for a feedstock quality assessment program. Breeding for improved feedstock quality will likely affect the rate of improvement of biomass production per acre. If the same level of resources are used, multi-trait breeding simply reduces the selection pressure and hence the breeding progress that can be made for a single trait unless all the traits are highly correlated. Since desirable feedstock traits are likely

The Role of Biodiversity, Traditional Knowledge and Participatory Plant Breeding in Climate Change Adaptation in Karst Mountain Areas in SW China

Energy Technology Data Exchange (ETDEWEB)

Song, Yiching; Li, Jingsong [Center for Chinese Agricultural Policy (China)

2011-07-15

This is a report of a country case study on the impacts of climate change and local people's adaptation. The research sites are located in the karst mountainous region in 3 SW China provinces - Guangxi, Guizhou and Yunnan – an area inhabited by 33 ethnic groups of small farmers and the poor, with rich Plant Genetic Resources (PGR) and culture. Climate change is exacerbating already harsh natural conditions and impacting on biodiversity of remote farmers living in extreme poverty, with very limited arable land. Genetic diversity has also suffered from the adoption of high yielding hybrids. Yet traditional varieties, related TK and Participatory Plant Breeding (PPB) for maize and rice are showing real potential for resilience and adaptation.

Genetic divergence and its implication in breeding of desired plant type in coriander -Coriandrum sativum L.-

Directory of Open Access Journals (Sweden)

Singh S.P.

2005-01-01

Full Text Available Seventy germplasm lines of coriander (Coriandrum sativum L. of diverse eco-geographical origin were undertaken in present investigation to determine the genetic divergence following multivariate and canonical analysis for seed yield and its 9 component traits. The 70 genotypes were grouped into 9 clusters depending upon the genetic architecture of genotypes and characters uniformity and confirmed by canonical analysis. Seventy percent of total genotypes (49/70 were grouped in 4 clusters (V, VI, VIII and IX, while apparent diversity was noticed for 30 percent genotypes (21/70 that diverged into 5 clusters (I, II, III, FV, and VII. The maximum inter cluster distance was between I and IV (96.20 followed by III and IV (91.13 and I and VII (87.15. The cluster VI was very unique having genotypes of high mean values for most of the component traits. The cluster VII had highest seeds/umbel (35.3 ± 2.24, and leaves/plant (12.93 ± 0.55, earliest flowering (65.05 ± 1.30 and moderately high mean values for other characters. Considering high mean and inter cluster distance breeding plan has been discussed to select desirable plant types.

Dewpoint - unstudied factor in ecology, physiology and plant introduction

Directory of Open Access Journals (Sweden)

Prokhorov Alexey

2015-12-01

Study of the mechanism of the condensation of atmospheric moisture on the surface of the plant and allow for modification of plant breeding with pronounced effect and reduce the temperature dependence on the least insolation. Such plants could be beneficial in reducing costs for irrigation of crops, and in the fight against desertification. The study of the mechanism of the phenomenon, allow for modification and selection of plants with the most pronounced effect of lowering the temperature and the lowest dependent on insolation. The plants, which are more efficient moisture capacitors can bring huge benefits in reducing costs for irrigation of crops, and in the fight against desertification.

Opinion piece: genomics and crop plant science in Europe.

Science.gov (United States)

Hughes, Steve

2006-01-01

Recent report reviews and funding initiatives in the field of plant genomic research are considered in the context of their translation into practical and economic value via plant breeding. It is concluded that there is a deficit in investment and that a change in working styles towards knowledge sharing and connectivity is required.

Mutation breeding for disease resistance using in-vitro culture techniques

International Nuclear Information System (INIS)

1985-07-01

Breeding for disease resistance is a major aspect of plant breeding, which may take at least 20% of a plant breeder's time, effort and budget. Nevertheless, numerous resistance problems remain unsolved and present major constraints to the production of food, feed, fiber and industrial commodities. The application of novel biotechnology and genetic engineering will extend the possibilities of conventional plant breeding. Therefore a meeting of experts in plant protection, plant breeding and in-vitro culture technology was convened by the Joint FAO/IAEA Division in Vienna. The experts were asked to discuss and give advice on prospects of biotechnology, especially plant in-vitro cultures, to contribute towards improved chances of success in mutation breeding for disease resistance. The plant breeder, in searching for resistance to a particular pathogen, like for any other desirable character, needs genetic variation to begin with. In addition he needs an appropriate screening method to detect the desired character. Science has developed so fast that it is now time to apply the existing knowledge of biotechnology to practical problems in agriculture, also in developing countries. In the near future this may be true also for novel techniques of genetic engineering. The usefulness and feasibility of the application of in-vitro techniques for these purposes varies with crops and pathogens, but also depends on the strength of plant breeding and plant pathology and the facilities available in a particular country. The members of the Advisory Group attempted to discuss the various aspects and to reach sound conclusions

Introduction to nuclear techniques in agronomy and plant biology

International Nuclear Information System (INIS)

Vose, P.B.

1980-01-01

The subject is covered in chapters, entitled: nature of isotopes and radiation; nuclear reactions; working with radioisotopes; detection systems and instrumentation; radioassay; radioisotopes and tracer principles; stable isotopes as tracers - mainly the use of 15 N; activation analysis for biological samples; x-ray fluorescence spectrography for plants and soils; autoradiography; isotopes in soils studies; isotopic tracers in field experimentation; nuclear techniques in plant science; nuclear techniques for soil water; radiation and other induced mutation in plant breeding. (author)

Use of NAP gene to manipulate leaf senescence in plants

Science.gov (United States)

Gan, Susheng; Guo, Yongfeng

2013-04-16

The present invention discloses transgenic plants having an altered level of NAP protein compared to that of a non-transgenic plant, where the transgenic plants display an altered leaf senescence phenotype relative to a non-transgenic plant, as well as mutant plants comprising an inactivated NAP gene, where mutant plants display a delayed leaf senescence phenotype compared to that of a non-mutant plant. The present invention also discloses methods for delaying leaf senescence in a plant, as well as methods of making a mutant plant having a decreased level of NAP protein compared to that of a non-mutant plant, where the mutant plant displays a delayed leaf senescence phenotype relative to a non-mutant plant. Methods for causing precocious leaf senescence or promoting leaf senescence in a plant are also disclosed. Also disclosed are methods of identifying a candidate plant suitable for breeding that displays a delayed leaf senescence and/or enhanced yield phenotype.

An innovative procedure of genome-wide association analysis fits studies on germplasm population and plant breeding.

Science.gov (United States)

He, Jianbo; Meng, Shan; Zhao, Tuanjie; Xing, Guangnan; Yang, Shouping; Li, Yan; Guan, Rongzhan; Lu, Jiangjie; Wang, Yufeng; Xia, Qiuju; Yang, Bing; Gai, Junyi

2017-11-01

The innovative RTM-GWAS procedure provides a relatively thorough detection of QTL and their multiple alleles for germplasm population characterization, gene network identification, and genomic selection strategy innovation in plant breeding. The previous genome-wide association studies (GWAS) have been concentrated on finding a handful of major quantitative trait loci (QTL), but plant breeders are interested in revealing the whole-genome QTL-allele constitution in breeding materials/germplasm (in which tremendous historical allelic variation has been accumulated) for genome-wide improvement. To match this requirement, two innovations were suggested for GWAS: first grouping tightly linked sequential SNPs into linkage disequilibrium blocks (SNPLDBs) to form markers with multi-allelic haplotypes, and second utilizing two-stage association analysis for QTL identification, where the markers were preselected by single-locus model followed by multi-locus multi-allele model stepwise regression. Our proposed GWAS procedure is characterized as a novel restricted two-stage multi-locus multi-allele GWAS (RTM-GWAS, https://github.com/njau-sri/rtm-gwas ). The Chinese soybean germplasm population (CSGP) composed of 1024 accessions with 36,952 SNPLDBs (generated from 145,558 SNPs, with reduced linkage disequilibrium decay distance) was used to demonstrate the power and efficiency of RTM-GWAS. Using the CSGP marker information, simulation studies demonstrated that RTM-GWAS achieved the highest QTL detection power and efficiency compared with the previous procedures, especially under large sample size and high trait heritability conditions. A relatively thorough detection of QTL with their multiple alleles was achieved by RTM-GWAS compared with the linear mixed model method on 100-seed weight in CSGP. A QTL-allele matrix (402 alleles of 139 QTL × 1024 accessions) was established as a compact form of the population genetic constitution. The 100-seed weight QTL-allele matrix was

Plant senescence and crop productivity

DEFF Research Database (Denmark)

Gregersen, Per L.; Culetic, Andrea; Boschian, Luca

2013-01-01

Senescence is a developmental process which in annual crop plants overlaps with the reproductive phase. Senescence might reduce crop yield when it is induced prematurely under adverse environmental conditions. This review covers the role of senescence for the productivity of crop plants....... With the aim to enhance productivity, a number of functional stay-green cultivars have been selected by conventional breeding, in particular of sorghum and maize. In many cases, a positive correlation between leaf area duration and yield has been observed, although in a number of other cases, stay...... plants, the expression of the IPT gene under control of senescence-associated promoters has been the most successful. The promoters employed for senescence-regulated expression contain cis-elements for binding of WRKY transcription factors and factors controlled by abscisic acid. In most crops...

Gas core reactor power plants designed for low proliferation potential

International Nuclear Information System (INIS)

Lowry, L.L.

1977-09-01

The feasibility of gas core nuclear power plants to provide adequate power while maintaining a low inventory and low divertability of fissile material is studied. Four concepts were examined. Two used a mixture of UF 6 and helium in the reactor cavities, and two used a uranium-argon plasma, held away from the walls by vortex buffer confinement. Power levels varied from 200 to 2500 MWth. Power plant subsystems were sized to determine their fissile material inventories. All reactors ran, with a breeding ratio of unity, on 233 U born from thorium. Fission product removal was continuous. Newly born 233 U was removed continuously from the breeding blanket and returned to the reactor cavities. The 2500-MWth power plant contained a total of 191 kg of 233 U. Less than 4 kg could be diverted before the reactor shut down. The plasma reactor power plants had smaller inventories. In general, inventories were about a factor of 10 less than those in current U.S. power reactors

Research progress on the space-flight mutation breeding of woodyplant

International Nuclear Information System (INIS)

Cui Binbin; Sun Yuhan; Li Yun

2013-01-01

The space-flight mutation breeding conception, characteristics, mutagenic effects, research progress at home and abroad in woody plant were reviewed in this paper. Compared with crops, although the research of the woody plants space-flight mutation breeding in China started later, but it has developed rapidly and has gotten certain achievement. Now the satellite and high-altitude balloon experiment were conducted with over 20 tree species such as Populus ussuriensis and 50 flower species such as Paeonia suffruticosa. The above work will has profound significance for space-flight breeding technology application on woody plants. In the end, this thesis analyzes the prospect in the future from four aspects such as using woody plants asexual reproduction characteristic, strengthening the space mutation mechanism study, enhancing new space mutation varieties screen and strengthening ornamental specific types selection. This thesis also thinks that the space mutation breeding is expected to become an effective way in woody plant genetic breeding. (authors)

Selenium accumulation by plants

Science.gov (United States)

White, Philip J.

2016-01-01

Background Selenium (Se) is an essential mineral element for animals and humans, which they acquire largely from plants. The Se concentration in edible plants is determined by the Se phytoavailability in soils. Selenium is not an essential element for plants, but excessive Se can be toxic. Thus, soil Se phytoavailability determines the ecology of plants. Most plants cannot grow on seleniferous soils. Most plants that grow on seleniferous soils accumulate 100 mg Se kg–1 dry matter. These plants are considered to be Se accumulators. Some species can even accumulate Se concentrations of 1000–15 000 mg Se kg–1 dry matter and are called Se hyperaccumulators. Scope This article provides an overview of Se uptake, translocation and metabolism in plants and highlights the possible genetic basis of differences in these between and within plant species. The review focuses initially on adaptations allowing plants to tolerate large Se concentrations in their tissues and the evolutionary origin of species that hyperaccumulate Se. It then describes the variation in tissue Se concentrations between and within angiosperm species and identifies genes encoding enzymes limiting the rates of incorporation of Se into organic compounds and chromosomal loci that might enable the development of crops with greater Se concentrations in their edible portions. Finally, it discusses transgenic approaches enabling plants to tolerate greater Se concentrations in the rhizosphere and in their tissues. Conclusions The trait of Se hyperaccumulation has evolved several times in separate angiosperm clades. The ability to tolerate large tissue Se concentrations is primarily related to the ability to divert Se away from the accumulation of selenocysteine and selenomethionine, which might be incorporated into non-functional proteins, through the synthesis of less toxic Se metabilites. There is potential to breed or select crops with greater Se concentrations in their edible tissues, which

Role of plant biotechnology and genetic engineering in crop-improvement, with special emphases on cotton: A review

International Nuclear Information System (INIS)

Akhtar, L.H.; Siddiq, S.Z.; Tariq, A.H.; Arshad, M.; Gorham, J.

2003-01-01

Plant biotechnology and genetic engineering offer novel approaches to plant-breeding, production, propagation and preservation of germplasm. In this manuscript, the population and food-requirements of Pakistan, role of biotechnology and genetic engineering in crop-improvement, along with potential uses in cotton, have been discussed. The latest position of plant biotechnology and genetic engineering in Pakistan and the advantages of biotechnology and genetic-engineering techniques over conventional plant-breeding techniques, along with critical views of various scientists have been reviewed. (author)

Climate Change May Alter Breeding Ground Distributions of Eastern Migratory Monarchs (Danaus plexippus) via Range Expansion of Asclepias Host Plants

Science.gov (United States)

Lemoine, Nathan P.

2015-01-01

Climate change can profoundly alter species’ distributions due to changes in temperature, precipitation, or seasonality. Migratory monarch butterflies (Danaus plexippus) may be particularly susceptible to climate-driven changes in host plant abundance or reduced overwintering habitat. For example, climate change may significantly reduce the availability of overwintering habitat by restricting the amount of area with suitable microclimate conditions. However, potential effects of climate change on monarch northward migrations remain largely unknown, particularly with respect to their milkweed (Asclepias spp.) host plants. Given that monarchs largely depend on the genus Asclepias as larval host plants, the effects of climate change on monarch northward migrations will most likely be mediated by climate change effects on Asclepias. Here, I used MaxEnt species distribution modeling to assess potential changes in Asclepias and monarch distributions under moderate and severe climate change scenarios. First, Asclepias distributions were projected to extend northward throughout much of Canada despite considerable variability in the environmental drivers of each individual species. Second, Asclepias distributions were an important predictor of current monarch distributions, indicating that monarchs may be constrained as much by the availability of Asclepias host plants as environmental variables per se. Accordingly, modeling future distributions of monarchs, and indeed any tightly coupled plant-insect system, should incorporate the effects of climate change on host plant distributions. Finally, MaxEnt predictions of Asclepias and monarch distributions were remarkably consistent among general circulation models. Nearly all models predicted that the current monarch summer breeding range will become slightly less suitable for Asclepias and monarchs in the future. Asclepias, and consequently monarchs, should therefore undergo expanded northern range limits in summer months

Climate change may alter breeding ground distributions of eastern migratory monarchs (Danaus plexippus via range expansion of Asclepias host plants.

Directory of Open Access Journals (Sweden)

Nathan P Lemoine

Full Text Available Climate change can profoundly alter species' distributions due to changes in temperature, precipitation, or seasonality. Migratory monarch butterflies (Danaus plexippus may be particularly susceptible to climate-driven changes in host plant abundance or reduced overwintering habitat. For example, climate change may significantly reduce the availability of overwintering habitat by restricting the amount of area with suitable microclimate conditions. However, potential effects of climate change on monarch northward migrations remain largely unknown, particularly with respect to their milkweed (Asclepias spp. host plants. Given that monarchs largely depend on the genus Asclepias as larval host plants, the effects of climate change on monarch northward migrations will most likely be mediated by climate change effects on Asclepias. Here, I used MaxEnt species distribution modeling to assess potential changes in Asclepias and monarch distributions under moderate and severe climate change scenarios. First, Asclepias distributions were projected to extend northward throughout much of Canada despite considerable variability in the environmental drivers of each individual species. Second, Asclepias distributions were an important predictor of current monarch distributions, indicating that monarchs may be constrained as much by the availability of Asclepias host plants as environmental variables per se. Accordingly, modeling future distributions of monarchs, and indeed any tightly coupled plant-insect system, should incorporate the effects of climate change on host plant distributions. Finally, MaxEnt predictions of Asclepias and monarch distributions were remarkably consistent among general circulation models. Nearly all models predicted that the current monarch summer breeding range will become slightly less suitable for Asclepias and monarchs in the future. Asclepias, and consequently monarchs, should therefore undergo expanded northern range limits in

Development of Plant Mutant Resources with an useful characters by Radiation Fusion Technology

International Nuclear Information System (INIS)

Kang, Si Yong; Kim, Dong Sub; Lee, Geung Joo

2009-02-01

A mutation breeding is to use physical or chemical mutagens to induce mutagenesis, followed by individual selections with favorable traits. The mutation breeding has many advantages over other breeding methods, which include the usefulness for improving one or two inferior characteristics, applications to broad species with different reproductive systems or to diverse plant materials, native or plant introduction with narrow genetic background, time and cost-effectiveness, and valuable mutant resources for genomics researches. Recent applications of the radiation breeding techniques to developments of flowering plants or food crops with improved functional constituents heightened the public's interests in agriculture and in our genetic resources and seed industries. The goals of this project, therefore, include achieving advances in domestic seed industries and agricultural productivities by developing and using new radiation mutants with favored traits, protecting an intellectual property right of domestic seeds or germplasms, and sharing the valuable mutants and mutated gene information for the genomics and biotech researches that eventually leads to economic benefits

Genomic selection in plant breeding.

Science.gov (United States)

Newell, Mark A; Jannink, Jean-Luc

2014-01-01

Genomic selection (GS) is a method to predict the genetic value of selection candidates based on the genomic estimated breeding value (GEBV) predicted from high-density markers positioned throughout the genome. Unlike marker-assisted selection, the GEBV is based on all markers including both minor and major marker effects. Thus, the GEBV may capture more of the genetic variation for the particular trait under selection.

Strategies to increase vitamin C in plants: from plant defense perspective to food biofortification.

Science.gov (United States)

Locato, Vittoria; Cimini, Sara; Gara, Laura De

2013-01-01

Vitamin C participates in several physiological processes, among others, immune stimulation, synthesis of collagen, hormones, neurotransmitters, and iron absorption. Severe deficiency leads to scurvy, whereas a limited vitamin C intake causes general symptoms, such as increased susceptibility to infections, fatigue, insomnia, and weight loss. Surprisingly vitamin C deficiencies are spread in both developing and developed countries, with the latter actually trying to overcome this lack through dietary supplements and food fortification. Therefore new strategies aimed to increase vitamin C in food plants would be of interest to improve human health. Interestingly, plants are not only living bioreactors for vitamin C production in optimal growing conditions, but also they can increase their vitamin C content as consequence of stress conditions. An overview of the different approaches aimed at increasing vitamin C level in plant food is given. They include genotype selection by "classical" breeding, bio-engineering and changes of the agronomic conditions, on the basis of the emerging concepts that plant can enhance vitamin C synthesis as part of defense responses.

Strategies to increase Vitamin C in plants: from plant defence perspective to food biofortification

Directory of Open Access Journals (Sweden)

Vittoria eLocato

2013-05-01

Full Text Available Vitamin C participates in several physiological processes, among others, immune stimulation, synthesis of collagen, hormones, neurotransmitters and iron absorption. Severe deficiency leads to scurvy, whereas a limited vitamin C intake causes general symptoms, such as increased susceptibility to infections, fatigue, insomnia and weight loss. Surprisingly vitamin C deficiencies are spread in both developing and developed countries, with the latter actually trying to overcome this lack through dietary supplements and food fortification. Therefore new strategies aimed to increase vitamin C in food plants would be of interest to improve human health. Interestingly, plants are not only living bioreactors for vitamin C production in optimal growing conditions, but also they can increase their vitamin C content as consequence of stress conditions. An overview of the different approaches aimed at increasing vitamin C level in plant food is given. They include genotype selection by classical breeding, bio-engineering and changes of the agronomic conditions, on the basis of the emerging concepts that plant can enhance vitamin C synthesis as part of defence responses.

Use of induced mutations in soybean breeding

International Nuclear Information System (INIS)

Zakri, A.H.; Jalani, B.S.; Ng, K.F.

1981-01-01

Artificial induction of mutation in plants is carried out using #betta#-irradiation and ethyl metanesulphonate (EMS) to expand the genetic variability of locally-grown soybean. This aspect of mutation breeding complements of conventional breeding approach undertaken by the Joint Malaysia Soybean Breeding Project group. Recovery of agronomically-important mutants such as earliness, lateness, bigger seed size and improved plant architecture were recorded. The significance of these findings is discussed. (author)

Biotechnology in plant nutrient management for agricultural ...

African Journals Online (AJOL)

Biotechnology in plant nutrient management for agricultural production in the tropics: ... and yields, marker assisted selection breeding, to develop new uses for agricultural products, to facilitate early maturation and to improve food and feed ...

The effect of plant growth regulators, explants and cultivars on ...

African Journals Online (AJOL)

ONOS

2010-07-05

Jul 5, 2010 ... The effect of plant growth regulators, explants and cultivars on spinach (Spinacia oleracea L.) tissue culture. Taha Roodbar Shojaei1*, Vahid Salari2, Darioush Ramazan3, Mahdi Ehyaei1, Javad. Gharechahi4 and Roya Motallebi Chaleshtori5. 1Department of Agronomy and Plant Breeding, College of ...

Thermonuclear power plants and the environment

International Nuclear Information System (INIS)

Becka, J.

1978-01-01

Environmental safety and protection from the effects of the thermonuclear power plants are discussed. Factors are assessed which should be considered in the choice of fuel and breeding material of a thermonuclear reactor, the problems of structural material activation and the overall reactor concepts. Main specifications are given of the US thermonuclear power plant projects with D-T reaction based reactors. The overall amounts of tritium in the reactor cycles are shown. The potential biological risk is evaluated for the different materials considered for the UWMAK-1 project. Discussed are possible pathways of activity release in normal plant operation, non-radioactive aspects, such as waste heat, the magnetic field effect on personnel and population, etc., as well as possible environmental impacts in case of accidents. (B.S.)

Invasive plant erodes local song diversity in a migratory passerine

Science.gov (United States)

Yvette K. Ortega; Aubree Benson; Erick Greene

2014-01-01

Exotic plant invasions threaten ecosystems globally, but we still know little about the specific consequences for animals. Invasive plants can alter the quality of breeding habitat for songbirds, thereby impacting important demographic traits such as dispersal, philopatry, and age structure. These demographic effects may in turn alter song-learning conditions to affect...

Selenium accumulation by plants.

Science.gov (United States)

White, Philip J

2016-02-01

Selenium (Se) is an essential mineral element for animals and humans, which they acquire largely from plants. The Se concentration in edible plants is determined by the Se phytoavailability in soils. Selenium is not an essential element for plants, but excessive Se can be toxic. Thus, soil Se phytoavailability determines the ecology of plants. Most plants cannot grow on seleniferous soils. Most plants that grow on seleniferous soils accumulate plant species have evolved tolerance to Se, and commonly accumulate tissue Se concentrations >100 mg Se kg(-1) dry matter. These plants are considered to be Se accumulators. Some species can even accumulate Se concentrations of 1000-15 000 mg Se kg(-1 )dry matter and are called Se hyperaccumulators. This article provides an overview of Se uptake, translocation and metabolism in plants and highlights the possible genetic basis of differences in these between and within plant species. The review focuses initially on adaptations allowing plants to tolerate large Se concentrations in their tissues and the evolutionary origin of species that hyperaccumulate Se. It then describes the variation in tissue Se concentrations between and within angiosperm species and identifies genes encoding enzymes limiting the rates of incorporation of Se into organic compounds and chromosomal loci that might enable the development of crops with greater Se concentrations in their edible portions. Finally, it discusses transgenic approaches enabling plants to tolerate greater Se concentrations in the rhizosphere and in their tissues. The trait of Se hyperaccumulation has evolved several times in separate angiosperm clades. The ability to tolerate large tissue Se concentrations is primarily related to the ability to divert Se away from the accumulation of selenocysteine and selenomethionine, which might be incorporated into non-functional proteins, through the synthesis of less toxic Se metabilites. There is potential to breed or select crops

A desk evaluation review of project POL/5/006 plant breeding using induced mutations. Project desk evaluation

International Nuclear Information System (INIS)

1993-01-01

Projects POL/5/006 was initiated in 1985 to assist the Government of Poland in improving the mutation breeding efforts in the country to promote the development of new and higher yielding crop varieties. The difficult economic situation in the country at this time restricted the procurement of special equipment, spare parts and supplies from abroad and, therefore, impeded research and development work in this field. The project was implemented using a distinctive approach and design characterized by having six recipient institutions and the establishment of one central gamma-irradiation facility to be made available to all participating institutions for mutation induction. The project was formally closed in 1989. The review of project POL/5/006 was undertaken in accord with the expressed wishes of the Board of Governors for selected ex-post evaluations of completed projects. The main purpose of the review was to ascertain if the project objectives were achieved, and to determine what impact the technical assistance provided may have had on continued post-project and current plant breeding programmes in Poland

A desk evaluation review of project POL/5/006 plant breeding using induced mutations. Project desk evaluation

Energy Technology Data Exchange (ETDEWEB)

NONE

1993-09-14

Projects POL/5/006 was initiated in 1985 to assist the Government of Poland in improving the mutation breeding efforts in the country to promote the development of new and higher yielding crop varieties. The difficult economic situation in the country at this time restricted the procurement of special equipment, spare parts and supplies from abroad and, therefore, impeded research and development work in this field. The project was implemented using a distinctive approach and design characterized by having six recipient institutions and the establishment of one central gamma-irradiation facility to be made available to all participating institutions for mutation induction. The project was formally closed in 1989. The review of project POL/5/006 was undertaken in accord with the expressed wishes of the Board of Governors for selected ex-post evaluations of completed projects. The main purpose of the review was to ascertain if the project objectives were achieved, and to determine what impact the technical assistance provided may have had on continued post-project and current plant breeding programmes in Poland.

Harvesting Legume Genomes: Plant Genetic Resources

Science.gov (United States)

Genomics and high through-put phenotyping are ushering in a new era of accessing genetic diversity held in plant genetic resources, the cornerstone of both traditional and genomics-assisted breeding efforts of food legume crops. Acknowledged or not, yield plateaus must be broken given the daunting ...

Physiological plant investigations for the purpose of growing smoke resistant conifers

Energy Technology Data Exchange (ETDEWEB)

Polster, H; Bortitz, S; Vogl, M

1965-01-01

Spruce and pine are the main commercial wood varieties used in East Germany. These are also the most sensitive to smoke. Usually replacement of the damaged trees is necessary. The Department of Smoke Research of the Institute for Plant Chemistry of the Dresden Institute of Technology has been able to develop conifers resistant to SO2. In order to select smoke resistant trees for breeding, the Institute for Forestry and Plant Physiology of the Institute of Forestry Breeding in Graupa, East Germany has developed a rapid selection test. It is based on subjecting a small branch to doses of SO2. A method of breeding smoke resistant conifers is given in detail. It takes approximately ten years to produce the seeds.

Plant Mutation Reports, Vol. 2, No. 2, June 2010

Energy Technology Data Exchange (ETDEWEB)

NONE

2010-06-15

Breeding a new variety is far more complex and takes much more time than performing a laboratory experiment in well controlled conditions. Further, breeding information is often not published in scientific journals, and is sometimes kept as a trade secret. Therefore, it is not an easy job to collect and analyse relevant information and write a paper to review the achievements in plant breeding. As in many other countries, induced mutations have played an important role in crop breeding in Bulgaria. In this issue, Dr. N. Tomlekova presents an excellent paper on this subject. She has succeeded in portraying a comprehensive picture of research and application of mutation breeding in Bulgaria: about 80 mutant varieties of 14 different plant species; leading mutant varieties are covering about 50% of maize growing area and almost 100% of durum wheat area; novel mutations have not only played a role in improving resistance/ tolerance to biotic/abiotic stresses, quality and nutrition traits, but also in facilitating hybrid seed production and enabling adaptation to mechanization of crop production; thousands of mutant lines have been generated and preserved as germplasm collections and used in breeding programmes. The great success in hybrid maize breeding may surprise most readers since it is widely believed that out-crossing crops like maize have sufficient genetic variability, and that induced mutations have limited roles. Such perceptions should be re-assessed against the great success of maize mutation breeding in Bulgaria

Plant Mutation Reports, Vol. 2, No. 2, June 2010

International Nuclear Information System (INIS)

2010-06-01

Breeding a new variety is far more complex and takes much more time than performing a laboratory experiment in well controlled conditions. Further, breeding information is often not published in scientific journals, and is sometimes kept as a trade secret. Therefore, it is not an easy job to collect and analyse relevant information and write a paper to review the achievements in plant breeding. As in many other countries, induced mutations have played an important role in crop breeding in Bulgaria. In this issue, Dr. N. Tomlekova presents an excellent paper on this subject. She has succeeded in portraying a comprehensive picture of research and application of mutation breeding in Bulgaria: about 80 mutant varieties of 14 different plant species; leading mutant varieties are covering about 50% of maize growing area and almost 100% of durum wheat area; novel mutations have not only played a role in improving resistance/ tolerance to biotic/abiotic stresses, quality and nutrition traits, but also in facilitating hybrid seed production and enabling adaptation to mechanization of crop production; thousands of mutant lines have been generated and preserved as germplasm collections and used in breeding programmes. The great success in hybrid maize breeding may surprise most readers since it is widely believed that out-crossing crops like maize have sufficient genetic variability, and that induced mutations have limited roles. Such perceptions should be re-assessed against the great success of maize mutation breeding in Bulgaria

Plant Mutation Reports, Vol. 2, No. 3, April 2011

Energy Technology Data Exchange (ETDEWEB)

NONE

2011-04-15

Enhancing crop yields, improving food quality and value in an environmentally friendly manner, and sustaining crop biodiversity continue to be key goals for improving agricultural production. Mutation induction techniques are undergoing a renaissance in crop improvement because of advancements in modern efficiency enhancing biotechnologies - irreplaceable tools in the tool box of the breeder. In the context of climate change and variability, mutation induction is a proven way to generate diversity in existing crop varieties, to widen the extent of adaptability and enhance productivity of crop biomass. We are encouraged by the contributions from our Member States to this journal. In many countries, we see that a broad variety of plant species and target traits are addressed using mutation induction. In this issue, the technical papers highlight studies on induced mutagenesis using either physical or chemical mutagens in a range of food and industrial crops. Dr Tulmann Neto gives an extensive review of 40 years of induced mutations in plant breeding in Brazil. A number of mutant derived varieties ranging from cereals, legumes, fruits and spices were developed together with commercial breeding companies and have significant economic value in Latin America. We trust that these reports will reignite a drive in experienced users of induced mutants in plant breeding and stir an interest in younger scientists

Plant Mutation Reports, Vol. 2, No. 3, April 2011

International Nuclear Information System (INIS)

2011-04-01

Enhancing crop yields, improving food quality and value in an environmentally friendly manner, and sustaining crop biodiversity continue to be key goals for improving agricultural production. Mutation induction techniques are undergoing a renaissance in crop improvement because of advancements in modern efficiency enhancing biotechnologies - irreplaceable tools in the tool box of the breeder. In the context of climate change and variability, mutation induction is a proven way to generate diversity in existing crop varieties, to widen the extent of adaptability and enhance productivity of crop biomass. We are encouraged by the contributions from our Member States to this journal. In many countries, we see that a broad variety of plant species and target traits are addressed using mutation induction. In this issue, the technical papers highlight studies on induced mutagenesis using either physical or chemical mutagens in a range of food and industrial crops. Dr Tulmann Neto gives an extensive review of 40 years of induced mutations in plant breeding in Brazil. A number of mutant derived varieties ranging from cereals, legumes, fruits and spices were developed together with commercial breeding companies and have significant economic value in Latin America. We trust that these reports will reignite a drive in experienced users of induced mutants in plant breeding and stir an interest in younger scientists

2012 Gordon Research Conference, Plant molecular biology, July 15-20 2012

Energy Technology Data Exchange (ETDEWEB)

Sussman, Michael R. [Univ. of Wisconsin, Madison, WI (United States)

2013-07-20

The 2012 Gordon Conference on Plant Molecular Biology will present cutting-edge research on molecular aspects of plant growth and development, with particular emphasis on recent discoveries in molecular mechanisms involved with plant signaling systems. The Conference will feature a wide range of topics in plant molecular biology including hormone receptors and early events in hormone signaling, plant perception of and response to plant pathogen and symbionts, as well as technological and biological aspects of epigenomics particularly as it relates to signaling systems that regulate plant growth and development. Genomic approaches to plant signaling will be emphasized, including genomic profiling technologies for quantifying various biological subsystems, such as the epigenome, transcriptome, phosphorylome, and metabolome. The meeting will include an important session devoted to answering the question, "What are the biological and technological limits of plant breeding/genetics, and how can they be solved"?

Plant host finding by parasitic plants: a new perspective on plant to plant communication.

Science.gov (United States)

Mescher, Mark C; Runyon, Justin B; De Moraes, Consuelo M

2006-11-01

Plants release airborne chemicals that can convey ecologically relevant information to other organisms. These plant volatiles are known to mediate a large array of, often complex, interactions between plants and insects. It has been suggested that plant volatiles may have similar importance in mediating interactions among plant species, but there are few well-documented examples of plant-to-plant communication via volatiles, and the ecological significance of such interactions has been much debated. To date, nearly all studies of volatile-mediated interactions among plant species have focused on the reception of herbivore-induced volatiles by neighboring plants. We recently documented volatile effects in another system, demonstrating that the parasitic plant Cuscuta pentagona uses volatile cues to locate its hosts. This finding may broaden the discussion regarding plant-to-plant communication, and suggests that new classes of volatile-meditated interactions among plant species await discovery.

Modifying plants for biofuel and biomaterial production.

Science.gov (United States)

Furtado, Agnelo; Lupoi, Jason S; Hoang, Nam V; Healey, Adam; Singh, Seema; Simmons, Blake A; Henry, Robert J

2014-12-01

The productivity of plants as biofuel or biomaterial crops is established by both the yield of plant biomass per unit area of land and the efficiency of conversion of the biomass to biofuel. Higher yielding biofuel crops with increased conversion efficiencies allow production on a smaller land footprint minimizing competition with agriculture for food production and biodiversity conservation. Plants have traditionally been domesticated for food, fibre and feed applications. However, utilization for biofuels may require the breeding of novel phenotypes, or new species entirely. Genomics approaches support genetic selection strategies to deliver significant genetic improvement of plants as sources of biomass for biofuel manufacture. Genetic modification of plants provides a further range of options for improving the composition of biomass and for plant modifications to assist the fabrication of biofuels. The relative carbohydrate and lignin content influences the deconstruction of plant cell walls to biofuels. Key options for facilitating the deconstruction leading to higher monomeric sugar release from plants include increasing cellulose content, reducing cellulose crystallinity, and/or altering the amount or composition of noncellulosic polysaccharides or lignin. Modification of chemical linkages within and between these biomass components may improve the ease of deconstruction. Expression of enzymes in the plant may provide a cost-effective option for biochemical conversion to biofuel. © 2014 Society for Experimental Biology, Association of Applied Biologists and John Wiley & Sons Ltd.

Phytoremediation and Potency of Hyperaccumulator Plants

Directory of Open Access Journals (Sweden)

NURIL HIDAYATI

2005-03-01

Full Text Available Phytoremediation is defined as cleaning up of pollutants mediated primarily by plants. It is an emerging technology for environmental remediation that offers a low-cost technique suitable for use against different types of contaminants in a variety of media. Phytoremediation is potentially applicable to a diversity of substances, involving hyperaccumulators heavy metals and radionuclides. It is also applicable to other inorganic contaminants such as arsenic, various salts and nutrients, and a variety of organic contaminants, including explosives, petroleum hydrocarbons and pesticides. At least there are one taxon of plant as hyperaccumulator for Cd, 28 taxa for Co, 37 taxa for Cu, 9 taxa for Mg, 317 taxa for Ni, and 11 taxa for Zn. Extensive progress were done in characterizing physiology of plants which hyperaccumulate or hypertolerate metals. Hypertolerance is fundamental to hyperaccumulator, and high rates of uptake and translocation are observed in hyperaccumulator plants. Hyperaccumulator plants and agronomic technology were undertaken to improve the annual rate of phytoextraction and to allow recycling of soil toxic metals accumulated in plant biomass. These techniques are very likely to support commercial environmental remediation. Most phytoremediation systems are still in development, or in the stage of plant breeding to improve the cultivars for field use. However, application for commercial purposes has already been initiated. Many opportunities have also been identified for research and development to improve the efficiency of phytoremediation

The relationship between plants used to sustain finches (Fringillidae) and uses for human medicine in southeast Spain

OpenAIRE

Belda, Antonio; Peiro, Victoriano; Seva Román, Eduardo

2012-01-01

We analyzed plants that are traditionally used by wild bird hunters and breeders to capture and promote captive breeding of Fringillidae (finches or songbirds) in the province of Alicante, Spain. The majority of plants used in songbird breeding have medicinal properties in traditional human medicine (48 different uses); thus, another main goal was to show their relationships with human medical uses. We compiled a list of 97 plant species from 31 botanical families that are used to attract fin...

A Practical Introduction to Skeletons for the Plant Sciences

Directory of Open Access Journals (Sweden)

Alexander Bucksch

2014-08-01

Full Text Available Before the availability of digital photography resulting from the invention of charged couple devices in 1969, the measurement of plant architecture was a manual process either on the plant itself or on traditional photographs. The introduction of cheap digital imaging devices for the consumer market enabled the wide use of digital images to capture the shape of plant networks such as roots, tree crowns, or leaf venation. Plant networks contain geometric traits that can establish links to genetic or physiological characteristics, support plant breeding efforts, drive evolutionary studies, or serve as input to plant growth simulations. Typically, traits are encoded in shape descriptors that are computed from imaging data. Skeletons are one class of shape descriptors that are used to describe the hierarchies and extent of branching and looping plant networks. While the mathematical understanding of skeletons is well developed, their application within the plant sciences remains challenging because the quality of the measurement depends partly on the interpretation of the skeleton. This article is meant to bridge the skeletonization literature in the plant sciences and related technical fields by discussing best practices for deriving diameters and approximating branching hierarchies in a plant network.

Challenges and opportunities for improving food quality and nutrition through plant biotechnology.

Science.gov (United States)

Francis, David; Finer, John J; Grotewold, Erich

2017-04-01

Plant biotechnology has been around since the advent of humankind, resulting in tremendous improvements in plant cultivation through crop domestication, breeding and selection. The emergence of transgenic approaches involving the introduction of defined DNA sequences into plants by humans has rapidly changed the surface of our planet by further expanding the gene pool used by plant breeders for plant improvement. Transgenic approaches in food plants have raised concerns on the merits, social implications, ecological risks and true benefits of plant biotechnology. The recently acquired ability to precisely edit plant genomes by modifying native genes without introducing new genetic material offers new opportunities to rapidly exploit natural variation, create new variation and incorporate changes with the goal to generate more productive and nutritious plants. Copyright © 2016 Elsevier Ltd. All rights reserved.

Mutation Breeding Newsletter. No. 37

International Nuclear Information System (INIS)

1991-01-01

This newsletter contains a brief account of FAO/IAEA meetings held in 1990 on plant breeding involving the use of induced mutations. It also features a list of commercially available plant cultivars produced by such techniques. Refs and tabs

The case for differentiated appropriability in intellectual property rights for plant varieties

NARCIS (Netherlands)

Tongeren, van F.W.; Eaton, D.J.F.

2004-01-01

This chapter adapts an existing model of innovation in the plant breeding sector to demonstrate that common standards are not optimum from a global welfare point of view. Policy issues relating to Plant Variety Protection from an economic perspective are reviewed, with particular emphasis on the

Plant domestication slows pest evolution.

Science.gov (United States)

Turcotte, Martin M; Lochab, Amaneet K; Turley, Nash E; Johnson, Marc T J

2015-09-01

Agricultural practices such as breeding resistant varieties and pesticide use can cause rapid evolution of pest species, but it remains unknown how plant domestication itself impacts pest contemporary evolution. Using experimental evolution on a comparative phylogenetic scale, we compared the evolutionary dynamics of a globally important economic pest - the green peach aphid (Myzus persicae) - growing on 34 plant taxa, represented by 17 crop species and their wild relatives. Domestication slowed aphid evolution by 13.5%, maintained 10.4% greater aphid genotypic diversity and 5.6% higher genotypic richness. The direction of evolution (i.e. which genotypes increased in frequency) differed among independent domestication events but was correlated with specific plant traits. Individual-based simulation models suggested that domestication affects aphid evolution directly by reducing the strength of selection and indirectly by increasing aphid density and thus weakening genetic drift. Our results suggest that phenotypic changes during domestication can alter pest evolutionary dynamics. © 2015 John Wiley & Sons Ltd/CNRS.

Recent Advances in our Understanding of Tocopherol Biosynthesis in Plants: An Overview of Key Genes, Functions, and Breeding of Vitamin E Improved Crops

Science.gov (United States)

Fritsche, Steffi; Wang, Xingxing; Jung, Christian

2017-01-01

Tocopherols, together with tocotrienols and plastochromanols belong to a group of lipophilic compounds also called tocochromanols or vitamin E. Considered to be one of the most powerful antioxidants, tocochromanols are solely synthesized by photosynthetic organisms including plants, algae, and cyanobacteria and, therefore, are an essential component in the human diet. Tocochromanols potent antioxidative properties are due to their ability to interact with polyunsaturated acyl groups and scavenge lipid peroxyl radicals and quench reactive oxygen species (ROS), thus protecting fatty acids from lipid peroxidation. In the plant model species Arabidopsis thaliana, the required genes for tocopherol biosynthesis and functional roles of tocopherols were elucidated in mutant and transgenic plants. Recent research efforts have led to new outcomes for the vitamin E biosynthetic and related pathways, and new possible alternatives for the biofortification of important crops have been suggested. Here, we review 30 years of research on tocopherols in model and crop species, with emphasis on the improvement of vitamin E content using transgenic approaches and classical breeding. We will discuss future prospects to further improve the nutritional value of our food. PMID:29194404

Plant Host Finding by Parasitic Plants: A New Perspective on Plant to Plant Communication

OpenAIRE

Mescher, Mark C; Runyon, Justin B; De Moraes, Consuelo M

2006-01-01

Plants release airborne chemicals that can convey ecologically relevant information to other organisms. These plant volatiles are known to mediate a large array of, often complex, interactions between plants and insects. It has been suggested that plant volatiles may have similar importance in mediating interactions among plant species, but there are few well-documented examples of plant-to-plant communication via volatiles, and the ecological significance of such interactions has been much d...

Redefining plant systems biology: from cell to ecosystem

NARCIS (Netherlands)

Keurentjes, J.J.B.; Angenent, G.C.; Dicke, M.; Martins Dos Santos, V.A.P.; Molenaar, J.; Van der Putten, W.H.; de Ruiter, P.C.; Struik, P.C.; Thomma, B.P.H.J.

2011-01-01

Molecular biologists typically restrict systems biology to cellular levels. By contrast, ecologists define biological systems as communities of interacting individuals at different trophic levels that process energy, nutrient and information flows. Modern plant breeding needs to increase

Emerging microbial biocontrol strategies for plant pathogens.

Science.gov (United States)

Syed Ab Rahman, Sharifah Farhana; Singh, Eugenie; Pieterse, Corné M J; Schenk, Peer M

2018-02-01

To address food security, agricultural yields must increase to match the growing human population in the near future. There is now a strong push to develop low-input and more sustainable agricultural practices that include alternatives to chemicals for controlling pests and diseases, a major factor of heavy losses in agricultural production. Based on the adverse effects of some chemicals on human health, the environment and living organisms, researchers are focusing on potential biological control microbes as viable alternatives for the management of pests and plant pathogens. There is a growing body of evidence that demonstrates the potential of leaf and root-associated microbiomes to increase plant efficiency and yield in cropping systems. It is important to understand the role of these microbes in promoting growth and controlling diseases, and their application as biofertilizers and biopesticides whose success in the field is still inconsistent. This review focusses on how biocontrol microbes modulate plant defense mechanisms, deploy biocontrol actions in plants and offer new strategies to control plant pathogens. Apart from simply applying individual biocontrol microbes, there are now efforts to improve, facilitate and maintain long-term plant colonization. In particular, great hopes are associated with the new approaches of using "plant-optimized microbiomes" (microbiome engineering) and establishing the genetic basis of beneficial plant-microbe interactions to enable breeding of "microbe-optimized crops". Copyright © 2017 Elsevier B.V. All rights reserved.

In vitro technology for mutation breeding

International Nuclear Information System (INIS)

1986-10-01

The ultimate aim of the Co-ordinated Research Programme on In Vitro Technology for Mutation Breeding is to provide new effective tools for plant breeders to construct new cultivars, thus increasing agricultural production of food, feed and industrial raw material, particularly in developing countries. The participants of the research co-ordination meetings considered the potential of new advances of agricultural biotechnology, especially the use of in vitro techniques for mutation breeding. They discussed and co-ordinated plans in conjunction with the impact on plant breeding of novel technologies, such as use of somaclonal variation, cell hybridization and molecular genetics

From Mendel's discovery on pea to today's plant genetics and breeding : Commemorating the 150th anniversary of the reading of Mendel's discovery.

Science.gov (United States)

Smýkal, Petr; K Varshney, Rajeev; K Singh, Vikas; Coyne, Clarice J; Domoney, Claire; Kejnovský, Eduard; Warkentin, Thomas

2016-12-01

This work discusses several selected topics of plant genetics and breeding in relation to the 150th anniversary of the seminal work of Gregor Johann Mendel. In 2015, we celebrated the 150th anniversary of the presentation of the seminal work of Gregor Johann Mendel. While Darwin's theory of evolution was based on differential survival and differential reproductive success, Mendel's theory of heredity relies on equality and stability throughout all stages of the life cycle. Darwin's concepts were continuous variation and "soft" heredity; Mendel espoused discontinuous variation and "hard" heredity. Thus, the combination of Mendelian genetics with Darwin's theory of natural selection was the process that resulted in the modern synthesis of evolutionary biology. Although biology, genetics, and genomics have been revolutionized in recent years, modern genetics will forever rely on simple principles founded on pea breeding using seven single gene characters. Purposeful use of mutants to study gene function is one of the essential tools of modern genetics. Today, over 100 plant species genomes have been sequenced. Mapping populations and their use in segregation of molecular markers and marker-trait association to map and isolate genes, were developed on the basis of Mendel's work. Genome-wide or genomic selection is a recent approach for the development of improved breeding lines. The analysis of complex traits has been enhanced by high-throughput phenotyping and developments in statistical and modeling methods for the analysis of phenotypic data. Introgression of novel alleles from landraces and wild relatives widens genetic diversity and improves traits; transgenic methodologies allow for the introduction of novel genes from diverse sources, and gene editing approaches offer possibilities to manipulate gene in a precise manner.

I. V. Michurin’S Work on Expansion of the Plant Horticulture Assortment and Improvement of Food Quality

Directory of Open Access Journals (Sweden)

Sokolov Viktor V.

2015-09-01

Full Text Available October 2015 marks the 160th anniversary of the birth of Ivan V. Michurin. As a scientist and plant breeder, he made a significant improvement of many fruit and berry plants, and flowers. He developed methods of plant breeding, especially regarding long-distance hybridisation of fruit plants, and promoted gardening to the north and east of Russia. He introduced some new berry species, such as Actinidia and black chokeberry, and was the first in Russia to use dwarf and semi dwarf stocks of apples. Michurin initiated the mass movement of gardeners and horticulture experimenters in USSR who changed and significantly extended the assortment and areas of fruit and berries cultivation in the country. He not only brought together a representative collection of species and varieties of fruit, berry and flower plants from around the world, but also used them in breeding by hybridization, including interspecific. He created some new artificial interspecific hybrids such as Cerapadus (cherry and bird cherry tree hybrid, and others. Michurin created 132 cultivars. Eleven of them are not only cultivated, but are also included in “The State Register of Protected Plant Breeding of the Russian Federation”.

The plant microbiome explored: implications for experimental botany

Energy Technology Data Exchange (ETDEWEB)

Berg, Gabriele; Rybakova, Daria; Grube, Martin; Köberl, Martina

2015-11-07

The importance of microbial root inhabitants for plant growth and health was recognized as early as 100 years ago. Recent insights reveal a close symbiotic relationship between plants and their associated microorganisms, and high structural and functional diversity within plant microbiomes. Plants provide microbial communities with specific habitats, which can be broadly categorized as the rhizosphere, phyllosphere, and endosphere. Plant-associated microbes interact with their host in essential functional contexts. They can stimulate germination and growth, help plants fend off disease, promote stress resistance, and influence plant fitness. Therefore, plants have to be considered as metaorganisms within which the associated microbes usually outnumber the cells belonging to the plant host. The structure of the plant microbiome is determined by biotic and abiotic factors but follows ecological rules. Metaorganisms are coevolved species assemblages. The metabolism and morphology of plants and their microbiota are intensively connected with each other, and the interplay of both maintains the functioning and fitness of the holobiont. Our study of the current literature shows that analysis of plant microbiome data has brought about a paradigm shift in our understanding of the diverse structure and functioning of the plant microbiome with respect to the following: (i) the high interplay of bacteria, archaea, fungi, and protists; (ii) the high specificity even at cultivar level; (iii) the vertical transmission of core microbiomes; (iv) the extraordinary function of endophytes; and (v) several unexpected functions and metabolic interactions. The plant microbiome should be recognized as an additional factor in experimental botany and breeding strategies.

‘Omics’ and Plant Responses to Botrytis cinerea

Directory of Open Access Journals (Sweden)

Synan F. AbuQamar

2016-11-01

Full Text Available Botrytis cinerea is a dangerous plant pathogenic fungus with wide host ranges. This aggressive pathogen uses multiple weapons to invade and cause serious damages on its host plants. The continuing efforts of how to solve the puzzle of the multigenic nature of B. cinerea’s pathogenesis and plant defense mechanisms against the disease caused by this mold, the integration of omic approaches, including genomics, transcriptomics, proteomics and metabolomics, along with functional analysis could be a potential solution. Omic studies will provide a foundation for development of genetic manipulation and breeding programs that will eventually lead to crop improvement and protection. In this mini-review, we will highlight the current progresses in research in plant stress responses to B. cinerea using high-throughput omic technologies. We also discuss the opportunities that omic technologies can provide to research on B. cinerea-plant interactions as an example showing the impacts of omics on agricultural research.

Metabolic Engineering Strategies for the Optimization of Medicinal and Aromatic Plants : Expectations and Realities

NARCIS (Netherlands)

Kayser, O.; Baricevic, D; Novak, J; Pank, F

2010-01-01

In recent years classic genetic and molecular biology strategies (Bioballistics, Agrobacterium tumefaciens transformation, recombinant enzymes) for production of natural compounds or even breeding of medicinal and aromatic plants have expanded and improved productivity of plant-derived fine

Fuel management of mixed reactor type power plant systems

International Nuclear Information System (INIS)

Csom, Gyula

1988-01-01

In equilibrium symbiotic power plant system containing both thermal reactors and fast breeders, excess plutonium produced by the fast breeders is used to enrich the fuel of the thermal reactors. In plutonium deficient symbiotic power plant system plutonium is supplied both by thermal plants and fast breeders. Mathematical models were constructed and different equations solved to characterize the fuel utilization of both systems if they contain only a single thermal type and a single fast type reactor. The more plutonium is produced in the system, the higher output ratio of thermal to fast reactors is achieved in equilibrium symbiotic power plant system. Mathematical equations were derived to calculate the doubling time and the breeding gain of the equilibrium symbiotic system. (V.N.) 2 figs.; 2 tabs

In vitro screening methods for assessing plant disease resistance

International Nuclear Information System (INIS)

Lebeda, A.; Svabova, L.

2010-01-01

A combination of biotechnological and phytopathological techniques provides an alternative approach to classical resistance breeding methods. Such techniques have been increasingly used since the 1980s, in parallel with the progress in plant biotechnology. In the approach of resistance screening and selection in vitro, both experimental objects, i.e., the plant and the pathogen, must first be transferred to in vitro conditions, and finally, the plant material must be transferred back to in vivo conditions and adapted to the outside settings. Specific attention must be paid to the methods of pathogen preparation for use in screening and selection in vitro. The selection agents are classified according to their origin, the methods of preparation, nature and content of active substances, and effective utilisation for screening or selection in vitro. Basic principles and methodological aspects of the in vitro work (explant cultures, sources of in vitro variability, screening and selection methods, types of selection agents) as well as examples of practical applications in the breeding of different crops are critically reviewed in this chapter. (author)

Quantitative Resistance to Plant Pathogens in Pyramiding Strategies for Durable Crop Protection

Directory of Open Access Journals (Sweden)

Marie-Laure Pilet-Nayel

2017-10-01

Full Text Available Quantitative resistance has gained interest in plant breeding for pathogen control in low-input cropping systems. Although quantitative resistance frequently has only a partial effect and is difficult to select, it is considered more durable than major resistance (R genes. With the exponential development of molecular markers over the past 20 years, resistance QTL have been more accurately detected and better integrated into breeding strategies for resistant varieties with increased potential for durability. This review summarizes current knowledge on the genetic inheritance, molecular basis, and durability of quantitative resistance. Based on this knowledge, we discuss how strategies that combine major R genes and QTL in crops can maintain the effectiveness of plant resistance to pathogens. Combining resistance QTL with complementary modes of action appears to be an interesting strategy for breeding effective and potentially durable resistance. Combining quantitative resistance with major R genes has proven to be a valuable approach for extending the effectiveness of major genes. In the plant genomics era, improved tools and methods are becoming available to better integrate quantitative resistance into breeding strategies. Nevertheless, optimal combinations of resistance loci will still have to be identified to preserve resistance effectiveness over time for durable crop protection.

Biotechnological approach in crop improvement by mutation breeding in Indonesia

Energy Technology Data Exchange (ETDEWEB)

Soeranto, H.; Sobrizal; Sutarto, Ismiyati; Manurung, Simon; Mastrizal [National Nuclear Energy Agency, Center for Research and Development of Isotope and Radiation Technology, Jakarta (Indonesia)

2002-02-01

Mutation breeding has become a proven method of improving crop varieties. Most research on plant mutation breeding in Indonesia is carried out at the Center for Research and Development of Isotope and Radiation Technology, National Nuclear Energy Agency (BATAN). Nowadays, a biotechnological approach has been incorporated in some mutation breeding researches in order to improve crop cultivars. This approach is simply based on cellular totipotency, or the ability to regenerate whole, flowering plants from isolated organs, pieces of tissue, individual cells, and protoplasts. Tissue culture technique has bee extensively used for micro propagation of disease-free plants. Other usage of this technique involves in various steps of the breeding process such as germplasm preservation, clonal propagation, and distant hybridization. Mutation breeding combined with tissue culture technique has made a significant contribution in inducing plant genetic variation, by improving selection technology, and by accelerating breeding time as for that by using anther or pollen culture. In Indonesia, research on mutation breeding combined with tissue culture techniques has been practiced in different crop species including rice, ginger, banana, sorghum etc. Specially in rice, a research on identification of DNA markers linked to blast disease resistance is now still progressing. A compiled report from some research activities is presented in this paper. (author)

Mutation Breeding for Crop Improvement

International Nuclear Information System (INIS)

Rajbir, S. Sangwan

2017-01-01

Chromosomes contain genes responsible of different traits of any organism. Induced mutation using chemical mutagens and radiation to modify molecular structure of plants played a major role in the development of high genetic variability and help develop new superior crop varieties. The Mutation Breeding is applicable to all plants and has generated lot of agronomically interesting mutants, both in vegetatively and seed propagated plants. The technique is easy but long and challenging to detect, isolate and characterize the mutant and gene. A specific dose of irradiation has to be used to obtain desired mutants. However, with modern molecular technique, the gene responsible for mutation can be identified. The CRISPR-Cas9 allows the removal of a specific gene which is responsible of unwanted trait and replacing it with a gene which induces a desired trait. There have been more than 2700 officially released mutant varieties from 170 different plant species in more than 60 countries throughout the world and A more participatory approach, involving all stakeholders in plant breeding, is needed to ensure that it is demand/farmers driven.

A review of the latest concepts in molecular plant pathology and applications to potato breeding

Science.gov (United States)

Co-evolution between pathogens and plants has led to the development of a range of constitutive and inducible resistance mechanisms that help plants survive pathogen attack. Different models have been proposed to describe the plant immune system. The most popular current model indicates that plants ...

Systems Modeling For The Laser Fusion-Fission Energy (LIFE) Power Plant

International Nuclear Information System (INIS)

Meier, W.R.; Abbott, R.; Beach, R.; Blink, J.; Caird, J.; Erlandson, A.; Farmer, J.; Halsey, W.; Ladran, T.; Latkowski, J.; MacIntyre, A.; Miles, R.; Storm, E.

2008-01-01

A systems model has been developed for the Laser Inertial Fusion-Fission Energy (LIFE) power plant. It combines cost-performance scaling models for the major subsystems of the plant including the laser, inertial fusion target factory, engine (i.e., the chamber including the fission and tritium breeding blankets), energy conversion systems and balance of plant. The LIFE plant model is being used to evaluate design trade-offs and to identify high-leverage R and D. At this point, we are focused more on doing self consistent design trades and optimization as opposed to trying to predict a cost of electricity with a high degree of certainty. Key results show the advantage of large scale (>1000 MWe) plants and the importance of minimizing the cost of diodes and balance of plant cost

Plant host finding by parasitic plants: A new perspective on plant to plant communication

Science.gov (United States)

Mark C. Mescher; Justin B. Runyon; Consuelo M. De Moraes

2006-01-01

Plants release airborne chemicals that can convey ecologically relevant information to other organisms. These plant volatiles are known to mediate a large array of, often complex, interactions between plants and insects. It has been suggested that plant volatiles may have similar importance in mediating interactions among plant species, but there are few well-...

Mutation breeding newsletter. No. 45

International Nuclear Information System (INIS)

2001-07-01

This issue of the Mutation Breeding newsletter contains 39 articles dealing with radiation induced mutations and chemical mutagenesis techniques in plant breeding programs with the aims of improving crop productivity and disease resistance as well as exploring genetic variabilities

Plant biotechnology and implications for rapeseed agronomy: development of new methods of pest and disease control

Energy Technology Data Exchange (ETDEWEB)

Maas, C. [Hoechst Schering AgrEvo GmbH, Frankfurt am Main (Germany)

1998-12-31

The last years several strategies are becoming available for molecular breeding to improve resistance of transgenic plants against pests. Generally, transgenic plants expressing antifungal proteins (chitinase, glucanase and RIP) have been effectively protected against a variety of fungal diseases, whereas symbiotic mycorrhizal fungi remain unaffected. Other antifungal strategies, such as artificial localized cell death, do exist for pyramiding strategies against fungal diseases. Insect predation has been controlled by expression of insect specific proteins from the bacterium Bacillus thuringensis (B.t.-toxin). A combination with other genes coding for insecticidal proteins in a transgenic plant could further enhance protection of plants against insect pests. Control of viral diseases in transgenic plants was achieved by overexpression of coat- or movement protein from the virus itself, which limits replication and spread in the plants. Other viral genes, or subgenomic fragments, either in sense or antisense orientation effectively conferred resistance to viral diseases. Several strategies also become available to engineer resistance against bacterial diseases and nemathode attack. Expression of proteinase inhibitors, active against nematodes, or specific physiological manipulation which leads to the collapse of feeding cells of sedentary nematodes has been shown to control nematode pests. This demonstrates that a fair number of strategies already exists to control plant pests by molecular breeding. In several cases a combination of different resistance strategies in one and the same plant has been shown to exert synergistic protective effects. In future, this probably will reduce the emergence of resistance breaking strains leading to genetically engineered plants with improved and stable resistance characteristics. The use of genetic engineering in resistance breeding as part of integrated pest management clearly could lead to a more ecologically sustainable

Machine Learning for High-Throughput Stress Phenotyping in Plants.

Science.gov (United States)

Singh, Arti; Ganapathysubramanian, Baskar; Singh, Asheesh Kumar; Sarkar, Soumik

2016-02-01

Advances in automated and high-throughput imaging technologies have resulted in a deluge of high-resolution images and sensor data of plants. However, extracting patterns and features from this large corpus of data requires the use of machine learning (ML) tools to enable data assimilation and feature identification for stress phenotyping. Four stages of the decision cycle in plant stress phenotyping and plant breeding activities where different ML approaches can be deployed are (i) identification, (ii) classification, (iii) quantification, and (iv) prediction (ICQP). We provide here a comprehensive overview and user-friendly taxonomy of ML tools to enable the plant community to correctly and easily apply the appropriate ML tools and best-practice guidelines for various biotic and abiotic stress traits. Copyright © 2015 Elsevier Ltd. All rights reserved.

Revolution of Nuclear Power Plant Design Through Digital Technology

International Nuclear Information System (INIS)

Zhang, L.; Shi, J.; Chen, W.

2015-01-01

In the digital times, digital technology has penetrated into every industry. As the highest safety requirement standard, nuclear power industry needs digital technology more to breed high quality and efficiency. Digital power plant is derived from digital design and the digitisation of power plant transfer is an inevitable trend. This paper introduces the technical solutions and features of digital nuclear power plant construction by Shanghai Nuclear Engineering Research & Design Institute, points out the key points and technical difficulties that exist in the process of construction and can serve as references for further promoting construction of digital nuclear power plant. Digital technology is still flourishing. Although many problems will be encountered in construction, it is believed that digital technology will make nuclear power industry more safe, cost-effective and efficient. (author)

Metabolic engineering strategies for the optimization of medicinal and aromatic plants : realities and expectations

NARCIS (Netherlands)

Hendrawati, O.; Woerdenbag, H. J.; Hille, J.; Kayser, O.

In recent years, strategies and techniques for the production of natural compounds (plant derived fine chemicals) and/or the breeding of medicinal and aromatic plants has expanded. Efficient production of high value natural products with medicinal and cosmetic purpose (e.g. essential oils,

Demonstration tokamak power plant

International Nuclear Information System (INIS)

Abdou, M.; Baker, C.; Brooks, J.; Ehst, D.; Mattas, R.; Smith, D.L.; DeFreece, D.; Morgan, G.D.; Trachsel, C.

1983-01-01

A conceptual design for a tokamak demonstration power plant (DEMO) was developed. A large part of the study focused on examining the key issues and identifying the R and D needs for: (1) current drive for steady-state operation, (2) impurity control and exhaust, (3) tritium breeding blanket, and (4) reactor configuration and maintenance. Impurity control and exhaust will not be covered in this paper but is discussed in another paper in these proceedings, entitled Key Issues of FED/INTOR Impurity Control System

Plant stress signalling: understanding and exploiting plant-plant interactions.

Science.gov (United States)

Pickett, J A; Rasmussen, H B; Woodcock, C M; Matthes, M; Napier, J A

2003-02-01

When plants are attacked by insects, volatile chemical signals can be released, not only from the damaged parts, but also systemically from other parts of the plant and this continues after cessation of feeding by the insect. These signals are perceived by olfactory sensory mechanisms in both the herbivorous insects and their parasites. Molecular structures involved can be characterized by means of electrophysiological assays, using the insect sensory system linked to chemical analysis. Evidence is mounting that such signals can also affect neighbouring intact plants, which initiate defence by the induction of further signalling systems, such as those that increase parasitoid foraging. Furthermore, insect electrophysiology can be used in the identification of plant compounds having effects on the plants themselves. It has been found recently that certain plants can release stress signals even when undamaged, and that these can cause defence responses in intact plants. These discoveries provide the basis for new crop protection strategies, that are either delivered by genetic modification of plants or by conventionally produced plants to which the signal is externally applied. Delivery can also be made by means of mixed seed strategies in which the provoking and recipient plants are grown together. Related signalling discoveries within the rhizosphere seem set to extend these approaches into new ways of controlling weeds, by exploiting the elusive potential of allelopathy, but through signalling rather than by direct physiological effects.

PHYSIOLOGICAL AND BIOCHEMICAL MARKERS OF SALINITY TOLERANCE IN PLANTS

Directory of Open Access Journals (Sweden)

Mustafa YILDIZ

2011-02-01

Full Text Available Salt stress limits plant productivity in arid and semi arid regions. Salt stress causes decrease in plant growth by adversely affecting physiological processes, especially photosynthesis. Salinity tolerance is defined as the ability of plant to maintain normal rowth and development under salt conditions. Salt stress results in accumulation of low molecular weight compounds, termed compatible solutes, which do not interfere with the normal biochemical reactions. These compatible solutes such as carbohydrates, polyols, amino acids and amides, quaternary ammonium compounds, polyamines andsoluble proteins may play a crucial role in osmotic adjustment, protection of macromolecules, maintenance of cellular pH and detoxification of free radicals. On the other hand, plants subjected to environmental stresses such as salinity produce reactive oxygen species (ROS and these ROS are efficiently eliminated by antioxidant enzyme systems. In plant breeding studies, the use of some physiological and biochemical markers for improving the salt tolerance in plants is crucial. In this review, the possibility of using some physiological and biochemical markers as selection criteria for salt tolerance is discussed.

The plant microbiome explored: implications for experimental botany.

Science.gov (United States)

Berg, Gabriele; Rybakova, Daria; Grube, Martin; Köberl, Martina

2016-02-01

The importance of microbial root inhabitants for plant growth and health was recognized as early as 100 years ago. Recent insights reveal a close symbiotic relationship between plants and their associated microorganisms, and high structural and functional diversity within plant microbiomes. Plants provide microbial communities with specific habitats, which can be broadly categorized as the rhizosphere, phyllosphere, and endosphere. Plant-associated microbes interact with their host in essential functional contexts. They can stimulate germination and growth, help plants fend off disease, promote stress resistance, and influence plant fitness. Therefore, plants have to be considered as metaorganisms within which the associated microbes usually outnumber the cells belonging to the plant host. The structure of the plant microbiome is determined by biotic and abiotic factors but follows ecological rules. Metaorganisms are co-evolved species assemblages. The metabolism and morphology of plants and their microbiota are intensively connected with each other, and the interplay of both maintains the functioning and fitness of the holobiont. Our study of the current literature shows that analysis of plant microbiome data has brought about a paradigm shift in our understanding of the diverse structure and functioning of the plant microbiome with respect to the following: (i) the high interplay of bacteria, archaea, fungi, and protists; (ii) the high specificity even at cultivar level; (iii) the vertical transmission of core microbiomes; (iv) the extraordinary function of endophytes; and (v) several unexpected functions and metabolic interactions. The plant microbiome should be recognized as an additional factor in experimental botany and breeding strategies. © The Author 2015. Published by Oxford University Press on behalf of the Society for Experimental Biology. All rights reserved. For permissions, please email: journals.permissions@oup.com.

Assessment of Genetic Heterogeneity in Structured Plant Populations Using Multivariate Whole-Genome Regression Models.

Science.gov (United States)

Lehermeier, Christina; Schön, Chris-Carolin; de Los Campos, Gustavo

2015-09-01

Plant breeding populations exhibit varying levels of structure and admixture; these features are likely to induce heterogeneity of marker effects across subpopulations. Traditionally, structure has been dealt with as a potential confounder, and various methods exist to "correct" for population stratification. However, these methods induce a mean correction that does not account for heterogeneity of marker effects. The animal breeding literature offers a few recent studies that consider modeling genetic heterogeneity in multibreed data, using multivariate models. However, these methods have received little attention in plant breeding where population structure can have different forms. In this article we address the problem of analyzing data from heterogeneous plant breeding populations, using three approaches: (a) a model that ignores population structure [A-genome-based best linear unbiased prediction (A-GBLUP)], (b) a stratified (i.e., within-group) analysis (W-GBLUP), and (c) a multivariate approach that uses multigroup data and accounts for heterogeneity (MG-GBLUP). The performance of the three models was assessed on three different data sets: a diversity panel of rice (Oryza sativa), a maize (Zea mays L.) half-sib panel, and a wheat (Triticum aestivum L.) data set that originated from plant breeding programs. The estimated genomic correlations between subpopulations varied from null to moderate, depending on the genetic distance between subpopulations and traits. Our assessment of prediction accuracy features cases where ignoring population structure leads to a parsimonious more powerful model as well as others where the multivariate and stratified approaches have higher predictive power. In general, the multivariate approach appeared slightly more robust than either the A- or the W-GBLUP. Copyright © 2015 by the Genetics Society of America.

Application of hordothionins and cecropin B for engineering bacterial disease resistance into plants

NARCIS (Netherlands)

Florack, D.

1994-01-01

Bacterial diseases can cause a drastic decrease of yield in certain crops. Breeding for bacterial disease resistance therefore is of utmost necessity. Up to now, traditional plant breeding was the only method to reach this goal. Recent developments in genetic engineering technology however

Large SNP arrays for genotyping in crop plants

Indian Academy of Sciences (India)

Genotyping with large numbers of molecular markers is now an indispensable tool within plant genetics and breeding. Especially through the identification of large numbers of single nucleotide polymorphism (SNP) markers using the novel high-throughput sequencing technologies, it is now possible to reliably identify many ...

2010 Plant Molecular Biology Gordon Research Conference

Energy Technology Data Exchange (ETDEWEB)

Michael Sussman

2010-07-23

The Plant Molecular Biology Conference has traditionally covered a breadth of exciting topics and the 2010 conference will continue in that tradition. Emerging concerns about food security have inspired a program with three main themes: (1) genomics, natural variation and breeding to understand adaptation and crop improvement, (2) hormonal cross talk, and (3) plant/microbe interactions. There are also sessions on epigenetics and proteomics/metabolomics. Thus this conference will bring together a range of disciplines, will foster the exchange of ideas and enable participants to learn of the latest developments and ideas in diverse areas of plant biology. The conference provides an excellent opportunity for individuals to discuss their research because additional speakers in each session will be selected from submitted abstracts. There will also be a poster session each day for a two-hour period prior to dinner. In particular, this conference plays a key role in enabling students and postdocs (the next generation of research leaders) to mingle with pioneers in multiple areas of plant science.

Predicting plant biomass accumulation from image-derived parameters

Science.gov (United States)

Chen, Dijun; Shi, Rongli; Pape, Jean-Michel; Neumann, Kerstin; Graner, Andreas; Chen, Ming; Klukas, Christian

2018-01-01

Abstract Background Image-based high-throughput phenotyping technologies have been rapidly developed in plant science recently, and they provide a great potential to gain more valuable information than traditionally destructive methods. Predicting plant biomass is regarded as a key purpose for plant breeders and ecologists. However, it is a great challenge to find a predictive biomass model across experiments. Results In the present study, we constructed 4 predictive models to examine the quantitative relationship between image-based features and plant biomass accumulation. Our methodology has been applied to 3 consecutive barley (Hordeum vulgare) experiments with control and stress treatments. The results proved that plant biomass can be accurately predicted from image-based parameters using a random forest model. The high prediction accuracy based on this model will contribute to relieving the phenotyping bottleneck in biomass measurement in breeding applications. The prediction performance is still relatively high across experiments under similar conditions. The relative contribution of individual features for predicting biomass was further quantified, revealing new insights into the phenotypic determinants of the plant biomass outcome. Furthermore, methods could also be used to determine the most important image-based features related to plant biomass accumulation, which would be promising for subsequent genetic mapping to uncover the genetic basis of biomass. Conclusions We have developed quantitative models to accurately predict plant biomass accumulation from image data. We anticipate that the analysis results will be useful to advance our views of the phenotypic determinants of plant biomass outcome, and the statistical methods can be broadly used for other plant species. PMID:29346559

High-Throughput Phenotyping and QTL Mapping Reveals the Genetic Architecture of Maize Plant Growth.

Science.gov (United States)

Zhang, Xuehai; Huang, Chenglong; Wu, Di; Qiao, Feng; Li, Wenqiang; Duan, Lingfeng; Wang, Ke; Xiao, Yingjie; Chen, Guoxing; Liu, Qian; Xiong, Lizhong; Yang, Wanneng; Yan, Jianbing

2017-03-01

With increasing demand for novel traits in crop breeding, the plant research community faces the challenge of quantitatively analyzing the structure and function of large numbers of plants. A clear goal of high-throughput phenotyping is to bridge the gap between genomics and phenomics. In this study, we quantified 106 traits from a maize ( Zea mays ) recombinant inbred line population ( n = 167) across 16 developmental stages using the automatic phenotyping platform. Quantitative trait locus (QTL) mapping with a high-density genetic linkage map, including 2,496 recombinant bins, was used to uncover the genetic basis of these complex agronomic traits, and 988 QTLs have been identified for all investigated traits, including three QTL hotspots. Biomass accumulation and final yield were predicted using a combination of dissected traits in the early growth stage. These results reveal the dynamic genetic architecture of maize plant growth and enhance ideotype-based maize breeding and prediction. © 2017 American Society of Plant Biologists. All Rights Reserved.

Fire creates host plant patches for monarch butterflies

Science.gov (United States)

Baum, Kristen A.; Sharber, Wyatt V.

2012-01-01

Monarch butterflies (Danaus plexippus) depend on the presence of host plants (Asclepias spp.) within their breeding range for reproduction. In the southern Great Plains, Asclepias viridis is a perennial that flowers in May and June, and starts to senesce by August. It is locally abundant and readily used by monarchs as a host plant. We evaluated the effects of summer prescribed fire on A. viridis and the use of A. viridis by monarch butterflies. Summer prescribed fire generated a newly emergent population of A. viridis that was absent in other areas. Pre-migrant monarch butterflies laid eggs on A. viridis in summer burned plots in late August and September, allowing adequate time for a new generation of adult monarchs to emerge and migrate south to their overwintering grounds. Thus, summer prescribed fire may provide host plant patches and/or corridors for pre-migrant monarchs during a time when host plant availability may be limited in other areas. PMID:22859559

Plant-soil feedbacks: role of plant functional group and plant traits

NARCIS (Netherlands)

Cortois, R.; Schröder-Georgi, T.; Weigelt, A.; van der Putten, W.H.; De Deyn, G.B.

2016-01-01

Plant-soil feedback (PSF), plant trait and functional group concepts advanced our understanding of plant community dynamics, but how they are interlinked is poorly known. To test how plant functional groups (FGs: graminoids, small herbs, tall herbs, legumes) and plant traits relate to PSF, we grew

Maize sugary enhancer1 (se1) is a presence-absence variant of a previously uncharacterized gene and development of educational videos to raise the profile of plant breeding and improve curricula

Science.gov (United States)

Haro von Mogel, Karl J.

Carbohydrate metabolism is a biologically, economically, and culturally important process in crop plants. Humans have selected many crop species such as maize (Zea mays L.) in ways that have resulted in changes to carbohydrate metabolic pathways, and understanding the underlying genetics of this pathway is therefore exceedingly important. A previously uncharacterized starch metabolic pathway mutant, sugary enhancer1 (se1), is a recessive modifier of sugary1 (su1) sweet corn that increases the sugar content while maintaining an appealing creamy texture. This allele has been incorporated into many sweet corn varieties since its discovery in the 1970s, however, testing for the presence of this allele has been difficult. A genetic stock was developed that allowed the presence of se1 to be visually scored in segregating ears, which were used to genetically map se1 to the deletion of a single gene model located on the distal end of the long arm of chromosome 2. An analysis of homology found that this gene is specific to monocots, and the gene is expressed in the endosperm and developing leaf. The se1 allele increased water soluble polysaccharide (WSP) and decreased amylopectin in maize endosperm, but there was no overall effect on starch content in mature leaves due to se1. This discovery will lead to a greater understanding of starch metabolism, and the marker developed will assist in breeding. There is a present need for increased training for plant breeders to meet the growing needs of the human population. To raise the profile of plant breeding among young students, a series of videos called Fields of Study was developed. These feature interviews with plant breeders who talk about what they do as plant breeders and what they enjoy about their chosen profession. To help broaden the education of students in college biology courses, and assist with the training of plant breeders, a second video series, Pollination Methods was developed. Each video focuses on one or two

Plant root proliferation in nitrogen-rich patches confers competitive advantage

Science.gov (United States)

Robinson, D.; Hodge, A.; Griffiths, B. S.; Fitter, A. H.

1999-01-01

Plants respond strongly to environmental heterogeneity, particularly below ground, where spectacular root proliferations in nutrient-rich patches may occur. Such 'foraging' responses apparently maximize nutrient uptake and are now prominent in plant ecological theory. Proliferations in nitrogen-rich patches are difficult to explain adaptively, however. The high mobility of soil nitrate should limit the contribution of proliferation to N capture. Many experiments on isolated plants show only a weak relation between proliferation and N uptake. We show that N capture is associated strongly with proliferation during interspecific competition for finite, locally available, mixed N sources, precisely the conditions under which N becomes available to plants on generally infertile soils. This explains why N-induced root proliferation is an important resource-capture mechanism in N-limited plant communities and suggests that increasing proliferation by crop breeding or genetic manipulation will have a limited impact on N capture by well-fertilized monocultures.

Domestication and Breeding of Jatropha curcas L.

Science.gov (United States)

Montes, Juan M; Melchinger, Albrecht E

2016-12-01

Jatropha curcas L. (jatropha) has a high, untapped potential to contribute towards sustainable production of food and bioenergy, rehabilitation of degraded land, and reduction of atmospheric carbon dioxide. Tremendous progress in jatropha domestication and breeding has been achieved during the past decade. This review: (i) summarizes current knowledge about the domestication and breeding of jatropha; (ii) identifies and prioritizes areas for further research; and (iii) proposes strategies to exploit the full genetic potential of this plant species. Altogether, the outlook is promising for accelerating the domestication of jatropha by applying modern scientific methods and novel technologies developed in plant breeding. Copyright © 2016 Elsevier Ltd. All rights reserved.

Efficiency of Sanitary Treatment in Poultry Breeding and Poultry Meat Processing Plant

Directory of Open Access Journals (Sweden)

A. Kašková

2006-01-01

Full Text Available The aim of this study was to observe the effectiveness of disinfection on a broiler farm and in a plant processing the poultry from this farm. The broiler farm was disinfected with a preparation based on peracetic acid while a preparation based on quarternary ammonium salt was used in the processing plant. We evaluated swabs taken from surfaces, which come into contact with broilers and broiler meat. Results of the swabs taken by standard microbiological swabbing method were evaluated with results of the swabs taken by the ATP-bioluminescence method. The microbiological examination included total counts of microorganisms, coliform count and moulds. When using the standard plate counts method on the broiler farm we found that the plate counts in 0% of swabs were 100 CFU. In the processing plant, out of 22% of swabs 100. The bioluminescence method was applied only in the processing plant where 300 RLU were measured in 80, 10 and 10% of swabs, resp. Our observations and results allowed us to conclude that the disinfectants tested appeared suitable for the respective premises and the ATP bioluminescence method could be use as a as a suitable complement for detection of cleanliness of individual surfaces.

International symposium on induced mutations in plants (ISIM). Book of abstracts

Energy Technology Data Exchange (ETDEWEB)

NONE

2008-07-01

The year 2008 will mark the 80th anniversary of mutation induction in crop plants. The application of mutation techniques, i.e. gamma rays and other physical and chemical mutagens, has generated a vast amount of genetic variability and has played a significant role in plant breeding and genetic studies. The widespread use of induced mutants in plant breeding programmes throughout the world has led to the official release of more than 2600 mutant crop varieties. A large number of these varieties (including cereals, pulses, oil, root and tuber crops, and ornamentals) have been released in developing countries, resulting in enormous positive economic impacts. The International Symposium on Induced Mutations in Plants (ISIM) will be the eighth in the Joint FAO/IAEA Programme's Symposium series dedicated exclusively to harnessing and disseminating information on current trends in induced mutagenesis in plants, the first of which was held in 1969 and the last in 1995. These previous symposia dealt with themes relating to the development of efficient protocols for induced mutagenesis and their role in the enhancement of quality traits, as well as resistance to biotic and abiotic stresses in crops and the integration of in vitro and molecular genetic techniques in mutation induction. Since 1995, there has been an increased interest within the scientific community, not only in the use of induced mutations for developing improved crop varieties and for the discovery of genes controlling important traits and in the understanding the functions and mechanisms of actions of these genes, but also in deciphering the biological nature of DNA damage, repair and mutagenesis. A symposium that brings together the key players in basic research, as well as in the development and application of technologies relating to the efficient use of induced mutations for crop improvement and empirical genetic studies, is therefore justified and necessary. Topics addressed at the symposium

In vitro embryo rescue and plant regeneration following self ...

African Journals Online (AJOL)

EJIRO

2015-07-08

Jul 8, 2015 ... 2Department of Biological Sciences, College of Natural Sciences, Makerere ... Key words: Cassava, doubled haploids, embryo rescue, plant regeneration, pollen germination, pollen ... breeding as inbred lines are readily tested and used within a ... dominance, allowing the separation of homozygotes from.

LNG plant combined with power plant

Energy Technology Data Exchange (ETDEWEB)

Aoki, I; Kikkawa, Y [Chiyoda Chemical Engineering and Construction Co. Ltd., Tokyo (Japan)

1997-06-01

The LNG plant consumers a lot of power of natural gas cooling and liquefaction. In some LNG plant location, a rapid growth of electric power demand is expected due to the modernization of area and/or the country. The electric power demand will have a peak in day time and low consumption in night time, while the power demand of the LNG plant is almost constant due to its nature. Combining the LNG plant with power plant will contribute an improvement the thermal efficiency of the power plant by keeping higher average load of the power plant, which will lead to a reduction of electrical power generation cost. The sweet fuel gas to the power plant can be extracted from the LNG plant, which will be favorable from view point of clean air of the area. (Author). 5 figs.

LNG plant combined with power plant

International Nuclear Information System (INIS)

Aoki, I.; Kikkawa, Y.

1997-01-01

The LNG plant consumers a lot of power of natural gas cooling and liquefaction. In some LNG plant location, a rapid growth of electric power demand is expected due to the modernization of area and/or the country. The electric power demand will have a peak in day time and low consumption in night time, while the power demand of the LNG plant is almost constant due to its nature. Combining the LNG plant with power plant will contribute an improvement the thermal efficiency of the power plant by keeping higher average load of the power plant, which will lead to a reduction of electrical power generation cost. The sweet fuel gas to the power plant can be extracted from the LNG plant, which will be favorable from view point of clean air of the area. (Author). 5 figs

Plant Breeding and Genetics Newsletter, No. 37, July 2016

International Nuclear Information System (INIS)

2016-07-01

The mission of the Joint FAO/IAEA Division is continually evolving to address novel challenges in MSs and nuclear applications continue to provide added value to conventional approaches in addressing a range of agricultural problems and issues. Member States are increasingly concerned with climate change and have expressed their support in responding to emerging challenges related to transboundary plant diseases

Genomic Selection in Plant Breeding: Methods, Models, and Perspectives.

Science.gov (United States)

Crossa, José; Pérez-Rodríguez, Paulino; Cuevas, Jaime; Montesinos-López, Osval; Jarquín, Diego; de Los Campos, Gustavo; Burgueño, Juan; González-Camacho, Juan M; Pérez-Elizalde, Sergio; Beyene, Yoseph; Dreisigacker, Susanne; Singh, Ravi; Zhang, Xuecai; Gowda, Manje; Roorkiwal, Manish; Rutkoski, Jessica; Varshney, Rajeev K

2017-11-01

Genomic selection (GS) facilitates the rapid selection of superior genotypes and accelerates the breeding cycle. In this review, we discuss the history, principles, and basis of GS and genomic-enabled prediction (GP) as well as the genetics and statistical complexities of GP models, including genomic genotype×environment (G×E) interactions. We also examine the accuracy of GP models and methods for two cereal crops and two legume crops based on random cross-validation. GS applied to maize breeding has shown tangible genetic gains. Based on GP results, we speculate how GS in germplasm enhancement (i.e., prebreeding) programs could accelerate the flow of genes from gene bank accessions to elite lines. Recent advances in hyperspectral image technology could be combined with GS and pedigree-assisted breeding. Copyright © 2017 Elsevier Ltd. All rights reserved.

A system dynamics model for stock and flow of tritium in fusion power plant

Energy Technology Data Exchange (ETDEWEB)

Kasada, Ryuta, E-mail: r-kasada@iae.kyoto-u.ac.jp [Institute of Advanced Energy, Kyoto University, Gokasho, Uji, Kyoto 611-0011 (Japan); Kwon, Saerom [Institute of Advanced Energy, Kyoto University, Gokasho, Uji, Kyoto 611-0011 (Japan); Japan Atomic Energy Agency, Tokai-mura, Naka-gun, Ibaraki-ken 319-1195 (Japan); Konishi, Satoshi [Institute of Advanced Energy, Kyoto University, Gokasho, Uji, Kyoto 611-0011 (Japan); Sakamoto, Yoshiteru; Yamanishi, Toshihiko; Tobita, Kenji [Japan Atomic Energy Agency, Rokkasho-mura, Kamikita-gun, Aomori-ken 039-3212 (Japan)

2015-10-15

Highlights: • System dynamics model of tritium fuel cycle was developed for analyzing stock and flow of tritium in fusion power plants. • Sensitivity of tritium build-up to breeding ratio parameters has been assessed to two plant concepts having 3 GW and 1.5 GW fusion power. • D-D start-up absolutely without initial loading of tritium is possible for both of the 3 GW and 1.5 GW fusion power plant concepts. • Excess stock of tritium is generated by the steady state operation with the value of tritium breeding ratio over unity. - Abstract: In order to analyze self-efficiency of tritium fuel cycle (TFC) and share the systems thinking of TFC among researchers and engineers in the vast area of fusion reactor technology, we develop a system dynamics (SD) TFC model using a commercial software STELLA. The SD-TFC model is illustrated as a pipe diagram which consists of tritium stocks, such as plasma, fuel clean up, isotope separation, fueling with storage and blanket, and pipes connecting among them. By using this model, we survey a possibility of D-D start-up without initial loading of tritium on two kinds of fusion plant having different plasma parameters. The D-D start-up scenario can reduce the necessity of initial loading of tritium through the production in plasma by D-D reaction and in breeding blanket by D-D neutron. The model is also used for considering operation scenario to avoid excess stock of tritium which must be produced at tritium breeding ratio over unity.

Research progress in plant mutation by combining ion beam irradiations and tissue culture

International Nuclear Information System (INIS)

Zhou Linbin; Li Wenjian; Qu Ying; Li Ping

2007-01-01

About a new mutation breeding method which combines plant tissue culture technique with heavy ion beam irradiations were discussed in this paper with the principles, operation steps, molecular mechanisms, etc. The mutation method developed a few advantages coming from plant tissue culture, which can produce offspring by asexual ways. Meanwhile, using this method, the study of biological effects of high energy particles with different linear energy transfer values on plant tissues or cells can be explored and optimized in theory or practice. (authors)

Development of Plant Mutation Breeding Techniques and Mutants Using by Ion Beam

Energy Technology Data Exchange (ETDEWEB)

Kang, Si Yong; Song, Hi Sup; Park, In Sook; Kim, Dong Sub; Lee, Hye Jeong

2005-06-15

In recent, Japanese scientists have revealed that high liner energy transfer (LET) heavy-ion beams have relative high biological effectiveness (RBE) and seem to be more effective for induced plant mutation than low LET radiation i.e., X-rays, gamma rays and electrons. This study was conducted to develop basic induced mutation techniques of ion-beam using the MC-50 cyclotron (50MeV) at the Korea Institute of Radiological and Medical Science. For the irradiation of ion-beam, not only dry seeds of Arabidopsis, tabacco, Zosiagrass, radish, rice and perilla were packed with thin plastic film to be a monolayer of seeds for homogenous irradiation, but also calli of Zosiagrass and Chrysanthemum were placed in the plastic petridish (diameter 5.5cm) with agar medium. They were irradiated with a proton beam of MC-50 cyclotron with various dose ranges of 10 to 5000Gy depend on plant materials and then measured germination rate and early growth of M1 plants. Arabidopsis, tabacco, and Zosiagrass showed little inhibition of germination and early growth at doses tested over than 1000 Gy. In particular, Arabidopsis showed less growth inhibition than 50 % even at dose of 5000Gy. On the other hand, radish, perilla and rice were not only sensitively inhibited at the lower doses, but also linearly decreased with accordance with the increasing irradiation dose. The lethal dose 50 (LD50) for two cultivars of perilla was estimated to be at approximately 25-30Gy. All M1 plants of rice did not growth over than 500Gy. These results indicate that the significant difference in sensitivity or in LD50 to irradiation of MC-50 proton beam was observed among plant species and materials.

Morphological, physiological, cytological and phytochemical studies in diploid and colchicine-induced tetraploid plants of Fagopyrum tataricum (L.) Gaertn.

Science.gov (United States)

Wang, Lin-Jiao; Sheng, Mao-Yin; Wen, Pei-Cai; Du, Jia-Ying

2017-12-01

Tartary buckwheat are very popular as an important functional food material and its cultivation is very widespread in our whole world, but there obviously lack works in the researches of genetic breeding for agricultural and medicinal utilization. The aim of this study is to obtain good germplasm resources for agricultural and medicinal use of tartary buckwheat (Fagopyrum tataricum) by inducing the tetraploid plants. Four cultivars of F. tataricum, that is, Qianwei 2#, Jinku 2#, Chuanqiao 1#, and Liuqiao 1# were selected to experiment. The tips of seedlings with two true leaves were treated by 0.25% (w/v) colchicine solution for 48, 72, and 96 h, respectively. The chromosome number of treated plants was determined by metaphase chromosome counting of root tip cells and PMCs (pollen mother cells) meiosis observation. Tetraploid induction successfully occurred in all three treatments with an efficiency ranging from 12.13 to 54.55%. The chromosome number of the diploid plants was 2n = 2x = 16, and that of the induced tetraploid plants was 2n = 4x = 32. The typical morphological and physiological qualities were compared between the control diploid and corresponding induced tetraploid plants. Results showed that the induced tetraploid plants had obviously larger leaves, flowers, and seeds. Moreover, the content of seed protein and flavonoid were also increased in the tetraploid plants. The pollen diameter and capsule size of diploid plants were significantly smaller than those of tetraploid plants. Fagopyrum tataricum can be effectively induced into tetraploids by colchicines. The tetraploid induction can produce valuable germplasm resources for breeding and is a practicable breeding way in F. tataricum.

Introduction to nuclear techniques in agronomy and plant biology

International Nuclear Information System (INIS)

Vose, P.B.

1980-01-01

A scientific textbook concerning the use of nuclear techniques in agricultural and biological studies has been written. In the early chapters, basic radiation physics principles are described including the nature of isotopes and radiation, nuclear reactions, working with radioisotopes, detection systems and instrumentation, radioassay and tracer techniques. The remaining chapters describe the applications of various nuclear techniques including activation analysis for biological samples, X-ray fluorescence spectrography for plants and soils, autoradiography, isotopes in soils studies, isotopic tracers in field experimentation, nuclear techniques in plant function and soil water studies and radiation-induced mutations in plant breeding. The principles and methods of these nuclear techniques are described in a straightforward manner together with details of many possible agricultural and biological studies which students could perform. (U.K.)

SOYBEAN - MOLECULAR ASPECTS OF BREEDING

Directory of Open Access Journals (Sweden)

Aleksandra Sudarić

2012-12-01

Full Text Available The book Soybean: Molecular Aspects of Breeding focuses recent progress in our understanding of the genetics and molecular biology of soybean. This book is divided into four parts and contains 22 chapters. Part I, Molecular Biology and Biotechnology focuses advances in molecular biology and laboratory procedures that have been developed recently to manipulate DNA. Part II, Breeding for abiotic stress covers proteomics approaches form as a powerful tool for investigating the molecular mechanisms of the plant responses to various types of abiotic stresses. Part III, Breeding for biotic stress addresses issues related to application of molecular based strategies in order to increase soybean resistance to various biotic factors. Part IV, Recent Technology reviews recent technologies into the realm of soybean monitoring, processing and product use. While the information accumulated in this book is of primary interest for plant breeders, valuable insights are also offered to agronomists, molecular biologists, physiologists, plant pathologists, food scientists and students. The book is a result of efforts made by many experts from different countries (USA, Japan, Croatia, Serbia, China, Canada, Malawi, Iran, Hong Kong, Brasil, Mexico.

Physiological, vascular and nanomechanical assessment of hybrid poplar leaf traits in micropropagated plants and plants propagated from root cuttings: A contribution to breeding programs.

Science.gov (United States)

Ďurkovič, Jaroslav; Husárová, Hana; Javoříková, Lucia; Čaňová, Ingrid; Šuleková, Miriama; Kardošová, Monika; Lukáčik, Ivan; Mamoňová, Miroslava; Lagaňa, Rastislav

2017-09-01

Micropropagated plants experience significant stress from rapid water loss when they are transferred from an in vitro culture to either greenhouse or field conditions. This is caused both by inefficient stomatal control of transpiration and the change to a higher light intensity and lower humidity. Understanding the physiological, vascular and biomechanical processes that allow micropropagated plants to modify their phenotype in response to environmental conditions can help to improve both field performance and plant survival. To identify changes between the hybrid poplar [Populus tremula × (Populus × canescens)] plants propagated from in vitro tissue culture and those from root cuttings, we assessed leaf performance for any differences in leaf growth, photosynthetic and vascular traits, and also nanomechanical properties of the tracheary element cell walls. The micropropagated plants showed significantly higher values for leaf area, leaf length, leaf width and leaf dry mass. The greater leaf area and leaf size dimensions resulted from the higher transpiration rate recorded for this stock type. Also, the micropropagated plants reached higher values for chlorophyll a fluorescence parameters and for the nanomechanical dissipation energy of tracheary element cell walls which may indicate a higher damping capacity within the primary xylem tissue under abiotic stress conditions. The performance of the plants propagated from root cuttings was superior for instantaneous water-use efficiency which signifies a higher acclimation capacity to stressful conditions during a severe drought particularly for this stock type. Similarities were found among the majority of the examined leaf traits for both vegetative plant origins including leaf mass per area, stomatal conductance, net photosynthetic rate, hydraulic axial conductivity, indicators of leaf midrib vascular architecture, as well as for the majority of cell wall nanomechanical traits. This research revealed that

Progress and challenges for abiotic stress proteomics of crop plants.

Science.gov (United States)

Barkla, Bronwyn J; Vera-Estrella, Rosario; Pantoja, Omar

2013-06-01

Plants are continually challenged to recognize and respond to adverse changes in their environment to avoid detrimental effects on growth and development. Understanding the mechanisms that crop plants employ to resist and tolerate abiotic stress is of considerable interest for designing agriculture breeding strategies to ensure sustainable productivity. The application of proteomics technologies to advance our knowledge in crop plant abiotic stress tolerance has increased dramatically in the past few years as evidenced by the large amount of publications in this area. This is attributed to advances in various technology platforms associated with MS-based techniques as well as the accessibility of proteomics units to a wider plant research community. This review summarizes the work which has been reported for major crop plants and evaluates the findings in context of the approaches that are widely employed with the aim to encourage broadening the strategies used to increase coverage of the proteome. © 2013 WILEY-VCH Verlag GmbH & Co. KGaA, Weinheim.

Effect of explant plant source and acetosyringone concentration on ...

African Journals Online (AJOL)

Gene introduction into crop plants through genetic manipulation is a better alternative to conventional breeding for the improvement of stress tolerance. Agrobacterium-mediated transformation offers precise integration of genes into the genome with enhanced transgene stability. There are a number of factors which ...

A METHOD OF RAPID CULTIVATION OF RADISH SEED PLANTS IN PLASTIC POTS OF SMALL-VOLUME

Directory of Open Access Journals (Sweden)

V. A. Stepanov

2017-01-01

Full Text Available The development of cheap and rapid breeding methods to breed  the lines used for  hybrid  F1  production  is a very actual task. The study was carried out with a use of radish varieties originated at VNIISSOK and breeding lines obtained by crossing components of different origin with male  sterility  in  winter  glass  greenhouse.  The  mother plants were grown  on the trays Plantec 64, while seedplants were grown in plastic pots of 1 liter capacity. The some morphobiological features such as the small habitus of see-plant; smaller number of secondary branching and absence of following branches; and consequently, the low yield of seeds were revealed in seed-plants of radish being grown in plastic pots. The period of ontogenesis in radish at first winter-spring rotation with this cultivation approach was reduced to 92 days. At the second summer-autumn rotation with additional lighting the duration of period of ontogenesis was essentially shorter than in the first rotation.  The utilization of  small-volume capacities in winter glass greenhouse to grow the radish seed-plants has permitted to produce two generations a year.

Positron emitters for in vivo plant research

International Nuclear Information System (INIS)

Fares, Y.; Goeschl, J.D.; Emran, A.M.; Drew, M.C.; McKinney, C.E.; Musser, R.L.; Strain, B.R.; Jaeger, C.H.

1993-01-01

Adopting a systems approach in analysis of the behavior of a biological system is a prime importance because all factors are considered simultaneously. Feedback is an important phenomenon occurring in dynamic biological systems, enabling appropriate regulatory and control functions to be maintained. In plants, the question whether photosynthesis or translocation controls carbon partitioning and hence productivity is of great agronomic importance, because many efforts are directed at selecting plant varieties with high rates of photosynthesis via genetic engineering and/or selective breeding. By use of short-lived positron emitting isotopes, such as C-11 and N-13, coupled with time-dependent and steady-state compartmental kinetic models, such dynamic biophysical plant problems are being unravelled. Questions such as: (i) source-sink complexities, (ii) experimental tests of the Munich-Horwitz theory of phloem transport (iii) uptake, transport and kinetics of nitrate and ammonium ions, and (iv) effects of ecological factors on growth rates were answered

Assessment of global trends and competitiveness of domestic scientific and technological capacity in the field of the plants cultivation

Directory of Open Access Journals (Sweden)

O. V. Cherchenko

2016-01-01

Full Text Available The patent and market analysis one of the most intensive and rapidly developing technology areas – developing new ways of breeding, hybridization and changes in genetic characteristics of cultivated plants was made for the assessment of the potential of the Russian agroindustry. Special attention is paid to new technological the areas identified by experts among the most promising for the development of domestic agricultural production: the development of new methods of obtaining high-performance plant varieties; the development of fundamentally new approaches in biotechnology to accelerate breeding of agricultural plants based on genomic technologies and DNA labeling (marker assisted selection.

[Process and mechanism of plants in overcoming acid soil aluminum stress].

Science.gov (United States)

Zhao, Tian-Long; Xie, Guang-Ning; Zhang, Xiao-Xia; Qiu, Lin-Quan; Wang, Na; Zhang, Su-Zhi

2013-10-01

Aluminum (Al) stress is one of the most important factors affecting the plant growth on acid soil. Currently, global soil acidification further intensifies the Al stress. Plants can detoxify Al via the chelation of ionic Al and organic acids to store the ionic Al in vacuoles and extrude it from roots. The Al extrusion is mainly performed by the membrane-localized anion channel proteins Al(3+)-activated malate transporter (ALMT) and multi-drug and toxin extrusion (MATE). The genes encoding ABC transporter and zinc-finger protein conferred plant Al tolerance have also been found. The identification of these Al-resistant genes makes it possible to increase the Al resistance of crop plants and enhance their production by the biological methods such as gene transformation and mark-associated breeding. The key problems needed to be solved and the possible directions in the researches of plant Al stress resistance were proposed.

Clonal forestry, heterosis and advanced-generation breeding

Energy Technology Data Exchange (ETDEWEB)

Tuskan, G.A.

1997-08-01

This report discusses the clonal planting stock offers many advantages to the forest products industry. Advanced-generation breeding strategies should be designed to maximize within-family variance and at the same time allow the capture of heterosis. Certainly there may be a conflict in the choice of breeding strategy based on the trait of interest. It may be that the majority of the traits express heterosis due to overdominance. Alternatively, disease resistance is expressed as the lack of a specific metabolite or infection court then the homozygous recessive genotype may be the most desirable. Nonetheless, as the forest products industry begins to utilize the economic advantages of clonal forestry, breeding strategies will have to be optimized for these commercial plant materials. Here, molecular markers can be used to characterize the nature of heterosis and therefore define the appropriate breeding strategy.

Studies on mutant breeding of Hibiscus syriacus

International Nuclear Information System (INIS)

Song, Hi Sup; Kim, Jin Kyu; Lee, Ki Un; Kim, Young Taik.

1997-01-01

Hibiscus has been known as a national flower of Korea. Hibiscus has such a characteristic of self-incompatibility that all the plant exist as natural hybrids and have heterogeneous genes. Many domestic 91 varieties of Hibiscus syriacus were collected. Radiosensitivity of H. Syriacus irradiated with γ-ray was investigated in plant cuttings. The plant height was reduced by 45% in 5KR irradiated group, compared to control group. The radiation dose of 5KR could be recommended for mutation breeding of Hibiscus cuttings. Radiosensitivity of γ-ray irradiated Hibiscus seed were investigated. The germination rate, survival rate and plant height was better in the 4KR irradiation plot than control. The radiation dose of 10∼12KR are recommended for mutation breeding of Hibiscus. Promising mutant lines were selected form the varieties of Hwarang, Wolsan no. 176, Ilpyondansim, Emille, Hanol, Yongkwang, Saeyongkwang, Chungmu, Imjinhong, Arang, Hungdansim-1 and Hongdansim-2. (author). 66 refs., 16 tabs., 13 figs

Studies on mutant breeding of Hibiscus syriacus

Energy Technology Data Exchange (ETDEWEB)

Song, Hi Sup; Kim, Jin Kyu; Lee, Ki Un; Kim, Young Taik

1997-01-01

Hibiscus has been known as a national flower of Korea. Hibiscus has such a characteristic of self-incompatibility that all the plant exist as natural hybrids and have heterogeneous genes. Many domestic 91 varieties of Hibiscus syriacus were collected. Radiosensitivity of H. Syriacus irradiated with {gamma}-ray was investigated in plant cuttings. The plant height was reduced by 45% in 5KR irradiated group, compared to control group. The radiation dose of 5KR could be recommended for mutation breeding of Hibiscus cuttings. Radiosensitivity of {gamma}-ray irradiated Hibiscus seed were investigated. The germination rate, survival rate and plant height was better in the 4KR irradiation plot than control. The radiation dose of 10{approx}12KR are recommended for mutation breeding of Hibiscus. Promising mutant lines were selected form the varieties of Hwarang, Wolsan no. 176, Ilpyondansim, Emille, Hanol, Yongkwang, Saeyongkwang, Chungmu, Imjinhong, Arang, Hungdansim-1 and Hongdansim-2. (author). 66 refs., 16 tabs., 13 figs.

Japanese aquaculture: use of thermal water from power plant

International Nuclear Information System (INIS)

Kuroda, Takeya

1983-01-01

There is some merit of thermal water from power plants in the effect to marine life. Since 1963, the research and development on the aquaculture using this warm water have been carried out at some twenty power plants, seven nuclear and thirteen thermal, some of which are now in the commercial stage. These fish farming projects are operated variously from seed to adult fish production. They can also be classified as land and sea facilities, conforming to the characteristics of the respective sea areas. The current situation in this field and the future prospect are described: thermal aquaculture including seed production and adult fish farming; the projects in nuclear and thermal power plants, respectively; future problems in the facilities, breeding environment and marine life for cultivation. (Mori, K.)

Influence of fitotoxic metabolites of Altenaria porri (Ellis Ciferri on plants and calluses of Allium sativum L., aimed to the fitoimprovement

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Yiliam González Moya

2003-07-01

Full Text Available In order to obtain phytotoxic metabolites from Alternaria porri and to know their influences on garlic plants and calli in plant breeding for resistanse to alternariosis, a research was carried out. Filtrates were obtained in Fries medium 30 days after fungus incubation which was statically cultivated at 28±1 0C and constant darkness. Biological assays using several filtrate concentrations were developed in garlic plants of different ages (clone ‘Criollo’ through punture method and also in garlic calli (clone ‘Chileno’. The highest phytotoxic effect was observed in 110 days old plants when they were inoculated with filtrates concentrated at 70% initial volume. Calli showed weight losses and changed their coloration when filtrate was concentrated above 40%. Key Words: Allium sativum, In vitro selection, Plant breeding

Effects of increased solar ultraviolet radiation on terrestrial plants

International Nuclear Information System (INIS)

Caldwell, M.M.; Teramura, A.H.; Tevini, M.; Bornman, J.F.; Björn, L.O.; Kulandaivelu, G.

1995-01-01

Physiological and developmental processes of plants are affected by UV-B radiation, even by the amount of UV-B in present-day sunlight. Plants also have several mechanisms to ameliorate or repair these effects and may acclimate to a certain extent to increased levels of UV-B. Nevertheless, plant growth can be directly affected by UV-B radiation. Response to UV-B also varies considerably among species and also cultivars of the same species. In agriculture, this may necessitate using more UV-B-tolerant cultivars and breeding new ones. In forests and grasslands, this will likely result in changes in species composition; therefore there are implications for the biodiversity in different ecosystems. Indirect changes caused by UV-B-such as changes in plant form, biomass allocation to parts of the plant, timing of developmental phases and secondary metabolism-may be equally, or sometimes more important than damaging effects of UV-B. These changes can have important implications for plant competitive balance, herbivory, plant pathogens, and biogeochemical cycles. These ecosystem-level effects can be anticipated, but not easily predicted or evaluated. Research at the ecosystem level for solar UV-B is barely beginning. Other factors, including those involved in climate change such as increasing CO2, also interact with UV-B. Such reactions are not easily predicted, but are of obvious importance in both agriculture and in nonagricultural ecosystems

Eggplant variety breeding aerospace Hangqie No.4

International Nuclear Information System (INIS)

Wang Fuquan; Song Jianrong; Guo Zhenfang; Ding Yaohong; Kong Xiaojuan

2012-01-01

Hangqie No.4 is on the Shenzhou spacecraft carrying no. 3 local variety reported by four generations enterprise round tomato breeding 03-4-15-2-3-1 has breeding for female to the 18th retuning-type science technology and experimental satellite launch of the optimal tomato after 0448-1-3-1 has breeding for male parent, mixture of the generation of hybrid. Medium-early maturity, 667 m 2 production 5000 kg around. Plant growth potential of half erect, with strong sex is strong, leaves thicker, purple-brown, heart-shaped, flower violet, pulp green white, The weight of per fruit 0.15 ∼ 0.35 kg. It's can be planted in open land and protected area, and grow well. (authors)

Eggplant variety breeding aerospace Hangqie No.4

International Nuclear Information System (INIS)

Wang Fuquan; Song Jianrong; Guo Zhenfang; Ding Yaohong; Kong Xiaojuan

2011-01-01

Hangqie No.4 is on the shenzhou spacecraft carrying no.3 local variety reported by four generations enterprise round tomato breeding 03-4-15-2-3-1 has breeding for female to the 18th retuning-type science technology and experimental satellite launch of the optimal tomato after 04-4-8-1-3-1 has breeding for male parent, mixture of the generation of hybrid. Medium-early maturity, 667 m 2 production 5000 kg around. Plant growth potential of half erect, with strong sex is strong, leaves thicker, purple-brown, heart-shaped, flower violet, pulp green white, The weight of per fruit 0.15∼0.35 kg. It's can be planted in open land and protected area, and grow well. (authors)

Gamma ray irradiation to roots of tea-plants and induced mutant system

International Nuclear Information System (INIS)

Takeda, Yoshiyuki; Nekaku, Koji; Wada, Mitsumasa

1990-01-01

In order to utilize the useful mutation which is induced by irradiation for the breeding of tea-plants, the gamma-ray irradiation to the roots of tea-plants was carried out. The samples were the roots of tea-plants of four varieties dug up in February, 1984, and were adjusted to about 20 cm, then, put in the cold storage at 5degC for 9 months till the time of irradiation in November, 1984. However, a part of them was taken out in August, and planted in a field for 76 days to germinate, thereafter, used as the samples. The gamma-ray from a Co-60 source was irradiated in the radiation breeding laboratory of Agriculture Bioresources Research Institute at the total dose of 1, 2 and 3 kR and the dose rate of 500 R/h. The irradiated roots were planted as they are or in the state of being cut, and the rate of germination, the number of buds and the induced mutation were examined. Clear difference was not observed in the rate of germination and the number of buds between the irradiated samples and those without irradiation. The long roots were superior to the short roots regarding these items. The types of the induced mutation were mostly thin leaves, and also yellowing, mottling, fascination and so on occurred. The mutant system lacking trichomes on the back of new leaves is considered to be strong against tea anthracnose, and is valuable. (K.I.)

Gamma ray irradiation to roots of tea-plants and induced mutant system

Energy Technology Data Exchange (ETDEWEB)

Takeda, Yoshiyuki; Nekaku, Koji; Wada, Mitsumasa (National Research Inst. of Vegetables, Ornamental Plants and Tea, Ano, Mie (Japan))

1990-11-01

In order to utilize the useful mutation which is induced by irradiation for the breeding of tea-plants, the gamma-ray irradiation to the roots of tea-plants was carried out. The samples were the roots of tea-plants of four varieties dug up in February, 1984, and were adjusted to about 20 cm, then, put in the cold storage at 5degC for 9 months till the time of irradiation in November, 1984. However, a part of them was taken out in August, and planted in a field for 76 days to germinate, thereafter, used as the samples. The gamma-ray from a Co-60 source was irradiated in the radiation breeding laboratory of Agriculture Bioresources Research Institute at the total dose of 1, 2 and 3 kR and the dose rate of 500 R/h. The irradiated roots were planted as they are or in the state of being cut, and the rate of germination, the number of buds and the induced mutation were examined. Clear difference was not observed in the rate of germination and the number of buds between the irradiated samples and those without irradiation. The long roots were superior to the short roots regarding these items. The types of the induced mutation were mostly thin leaves, and also yellowing, mottling, fascination and so on occurred. The mutant system lacking trichomes on the back of new leaves is considered to be strong against tea anthracnose, and is valuable. (K.I.).

Crop Resources Ethic in Plant Genetic Engineering and Fortune Transfer Between Generations

Institute of Scientific and Technical Information of China (English)

WANG Xiaowei; DING Guangzhou; LIANG Xueqing

2006-01-01

The relation between human and crop resources belongs to the ethic of resources exploitation. The purposes of discussing the ethic of crop resources are to protect the ecology and safety of crops, to gain sustainable development, furthermore, to choose and form the production structure that is favorable to saving crop resources and protecting the ecology of crops. Plant genetic engineering is the technology of molecule breeding of rearrangement of inheritance materials at the level of molecule directionally, of improving plant properties and of breeding high quality and yield varieties of crops. The prominent effects of the technology on the crop ecological system are human subjective factors increasing as well as violating the nature and intensifying the conflict between human being and nature.Therefore, in plant genetic engineering, crop resources exploitation should follow certain ethic principles. Under the theory of ethics of natural resources, by the means of biologioal statistics, the author systematically analyzed the possible model of crop resources transfer between generations as well as the transfer mode of magnitude of real materials and magnitude of value.

Wide adaptation of Green Revolution wheat: international roots and the Indian context of a new plant breeding ideal, 1960-1970.

Science.gov (United States)

Baranski, Marci R

2015-04-01

Indian wheat cultivation changed radically in the 1960s due to new technologies and policy reforms introduced during the Green Revolution, and farmers' adoption of 'packages' of modern seeds, fertilizer, and irrigation. Just prior to the Green Revolution, Indian scientists adopted a new plant breeding philosophy--that varieties should have as wide an adaptation as possible, meaning high and stable yields across different environments. But scientists also argued that wide adaptation could be achieved by selecting only plants that did well in high fertility and irrigated environments. Scientists claimed that widely adapted varieties still produce high yields in marginal areas. Many people have criticized the Green Revolution for its unequal spread of benefits, but none of these critiques address wide adaptation-the core tenant held by Indian agricultural scientists to justify their focus on highly productive land while ignoring marginal or rainfed agriculture. This paper also describes Norman Borlaug's and the Rockefeller Foundation's research program in wide adaptation, Borlaug's involvement in the Indian wheat program, and internal debates about wide adaptation and selection under ideal conditions among Indian scientists. It argues that scientists leveraged the concept of wide adaptation to justify a particular regime of research focused on high production agriculture. Copyright © 2015 Elsevier Ltd. All rights reserved.

Plant-plant competition outcomes are modulated by plant effects on the soil bacterial community.

Science.gov (United States)

Hortal, S; Lozano, Y M; Bastida, F; Armas, C; Moreno, J L; Garcia, C; Pugnaire, F I

2017-12-19

Competition is a key process that determines plant community structure and dynamics, often mediated by nutrients and water availability. However, the role of soil microorganisms on plant competition, and the links between above- and belowground processes, are not well understood. Here we show that the effects of interspecific plant competition on plant performance are mediated by feedbacks between plants and soil bacterial communities. Each plant species selects a singular community of soil microorganisms in its rhizosphere with a specific species composition, abundance and activity. When two plant species interact, the resulting soil bacterial community matches that of the most competitive plant species, suggesting strong competitive interactions between soil bacterial communities as well. We propose a novel mechanism by which changes in belowground bacterial communities promoted by the most competitive plant species influence plant performance and competition outcome. These findings emphasise the strong links between plant and soil communities, paving the way to a better understanding of plant community dynamics and the effects of soil bacterial communities on ecosystem functioning and services.

Glutathione-dependent responses of plants to drought: a review

Directory of Open Access Journals (Sweden)

Mateusz Labudda

2014-02-01

Full Text Available Water is a renewable resource. However, with the human population growth, economic development and improved living standards, the world’s supply of fresh water is steadily decreasing and consequently water resources for agricultural production are limited and diminishing. Water deficiency is a significant problem in agriculture and increasing efforts are currently being made to understand plant tolerance mechanisms and to develop new tools (especially molecular that could underpin plant breeding and cultivation. However, the biochemical and molecular mechanisms of plant water deficit tolerance are not fully understood, and the data available is incomplete. Here, we review the significance of glutathione and its related enzymes in plant responses to drought. Firstly, the roles of reduced glutathione and reduced/oxidized glutathione ratio, are discussed, followed by an extensive discussion of glutathione related enzymes, which play an important role in plant responses to drought. Special attention is given to the S-glutathionylation of proteins, which is involved in cell metabolism regulation and redox signaling in photosynthetic organisms subjected to abiotic stress. The review concludes with a brief overview of future perspectives for the involvement of glutathione and related enzymes in drought stress responses.

Melatonin: current status and future perspectives in plant science

Directory of Open Access Journals (Sweden)

Muhammad Azher Nawaz

2016-01-01

Full Text Available Melatonin (N-acetyl-5-methoxytryptamine is a ubiquitous molecule with pleiotropic actions in different organisms. It performs many important functions in human, animals and plants; these range from regulating circadian rhythms in animals to controlling senescence in plants. In this review, we summarize the available information regarding the presence of melatonin in different plant species, along with highlighting its biosynthesis and mechanisms of action. We also collected the available information on the effects of melatonin application on commercially important crops to improve their growth and development. Additionally, we have identified many new aspects where melatonin may have possible roles in plants, for example, its function in improving the storage life and quality of fruits and vegetables, its role in vascular reconnection during the grafting process and nutrient uptake from roots by modifying root architecture. Another potentially important aspect is the production of melatonin-rich food crops (cereals, fruits and vegetables through combination of conventional and modern breeding approaches, to increase plant resistance against biotic and abiotic stress, leading to improved crop yields and the nutraceutical value of produce to solve food security issues.

Research highlights on: the use of induced mutations for plant improvement in Malaysia

International Nuclear Information System (INIS)

1998-01-01

Nuclear techniques play an increasingly valuable role in agricultural research and development. The collaborative work of IAEA and FAO has been instrumental to the progress. The nuclear techniques are now used in a wide range of applications including crop improvement. In the initial years, many plant breeders had difficulty in believing that induced mutations through radiation had any relevance to their conventional procedures. But attitudes have greatly changed, in great part due to the Joint Division's programmes. The result was a high number of improved new varieties bred to date with the help of induced mutations, including some in this country. This publication is intended primarily to gather and put in order all information on the research and work on the use of induced mutations for plant breeding in the country. Its main purpose is to see if ensuing research efforts could be better coordinated, focused and enhanced in order to supplement the plant improvement programmes in the country. The task of collating the relevant information was not without difficulty since many of the work had been carried out long time ago; their objectives generally were quite broad; and the results essentially not published, with some exceptions. Section I begins with thefntroduction, giving a brief account of the developments of induced mutations in Malaysia, the facilities available in various institutions and the role played by the National Committee on the Use of Mutations in Plant Breeding. The collaborative efforts of IAEA and IFNCC are also briefly described here, together with all the activates which they had supported in the past. Section 11 briefly describes the induced mutations and how they are produced and utilised in the plant improvement programmes, taking into consideration the safety precautions required, and the requirements of different crop species. Section III describes in greater details all the research that had been carried out in the country. The

Mutation breeding newsletter. No. 43

International Nuclear Information System (INIS)

1997-10-01

This issue of the Newsletter includes articles dealing with radiation induced mutation based plant breeding research findings aimed at improving productivity, disease resistance and tolerance of stress conditions

Apoplastic interactions between plants and plant root intruders

Directory of Open Access Journals (Sweden)

Kanako eMitsumasu

2015-08-01

Full Text Available Numerous pathogenic or parasitic organisms attack plant roots to obtain nutrients, and the apoplast including the plant cell wall is where the plant cell meets such organisms. Root-parasitic angiosperms and nematodes are two distinct types of plant root parasites but share some common features in their strategies for breaking into plant roots. Striga and Orobanche are obligate root parasitic angiosperms that cause devastating agricultural problems worldwide. Parasitic plants form an invasion organ called a haustorium, where plant cell wall degrading enzymes (PCWDEs are highly expressed. Plant-parasitic nematodes are another type of agriculturally important plant root parasite. These nematodes breach the plant cell walls by protruding a sclerotized stylet from which PCWDEs are secreted. Responding to such parasitic invasion, host plants activate their own defense responses against parasites. Endoparasitic nematodes secrete apoplastic effectors to modulate host immune responses and to facilitate the formation of a feeding site. Apoplastic communication between hosts and parasitic plants also contributes to their interaction. Parasitic plant germination stimulants, strigolactones (SLs, are recently identified apoplastic signals that are transmitted over long distances from biosynthetic sites to functioning sites. Here, we discuss recent advances in understanding the importance of apoplastic signals and cell walls for plant-parasite interactions.

Apoplastic interactions between plants and plant root intruders.

Science.gov (United States)

Mitsumasu, Kanako; Seto, Yoshiya; Yoshida, Satoko

2015-01-01

Numerous pathogenic or parasitic organisms attack plant roots to obtain nutrients, and the apoplast including the plant cell wall is where the plant cell meets such organisms. Root parasitic angiosperms and nematodes are two distinct types of plant root parasites but share some common features in their strategies for breaking into plant roots. Striga and Orobanche are obligate root parasitic angiosperms that cause devastating agricultural problems worldwide. Parasitic plants form an invasion organ called a haustorium, where plant cell wall degrading enzymes (PCWDEs) are highly expressed. Plant-parasitic nematodes are another type of agriculturally important plant root parasite. These nematodes breach the plant cell walls by protruding a sclerotized stylet from which PCWDEs are secreted. Responding to such parasitic invasion, host plants activate their own defense responses against parasites. Endoparasitic nematodes secrete apoplastic effectors to modulate host immune responses and to facilitate the formation of a feeding site. Apoplastic communication between hosts and parasitic plants also contributes to their interaction. Parasitic plant germination stimulants, strigolactones, are recently identified apoplastic signals that are transmitted over long distances from biosynthetic sites to functioning sites. Here, we discuss recent advances in understanding the importance of apoplastic signals and cell walls for plant-parasite interactions.

Toward the ultimate goal of tritium self-sufficiency: Technical issues and requirements imposed on ARIES advanced power plants

International Nuclear Information System (INIS)

El-Guebaly, Laila A.; Malang, Siegfried

2009-01-01

Due to the lack of external tritium sources, all fusion power plants must demonstrate a closed tritium fuel cycle. The tritium breeding ratio (TBR) must exceed unity by a certain margin. The key question is: how large is this margin and how high should the calculated TBR be? The TBR requirement is design and breeder-dependent and evolves with time. At present, the ARIES requirement is 1.1 for the calculated overall TBR of LiPb systems. The Net TBR during plant operation could be around 1.01. The difference accounts for deficiencies in the design elements (nuclear data evaluation, neutronics code validation, and 3D modeling tools). Such a low Net TBR of 1.01 is potentially achievable in advanced designs employing advanced physics and technology. A dedicated R and D effort will reduce the difference between the calculated TBR and Net TBR. A generic breeding issue encountered in all fusion designs is whether any fusion design will over-breed or under-breed during plant operation. To achieve the required Net TBR with sufficient precision, an online control of tritium breeding is highly recommended for all fusion designs. This can easily be achieved for liquid breeders through online adjustment of Li enrichment.

Radiation breeding researches in gamma field. Results of researches

International Nuclear Information System (INIS)

Morishita, Toshikazu

2006-01-01

Abstract of radiation breeding researches and outline of gamma field in IRB (Institute of Radiation Breeding) are described. The gamma field is a circular field of 100 m radius with 88.8TBqCo-60 source at the center. The field is surrounded by a shielding dike of 8 m in height. The effects of gamma irradiation on the growing plants, mutant by gamma radiation and plant molecular biological researches using mutant varieties obtained by the gamma field are explained. For examples, Japanese pear, chrysanthemum, Cytisus, Eustoma grandiflorum, Manila grass, tea and rose are reported. The mutant varieties in the gamma field, nine mutant varieties of flower colors in chrysanthemum, evergreen mutant lines in Manila grass, selection of self-compatible mutants in tea plant, and the plants of the gamma field recently are shown. (S.Y.)

Mutation induction as a tool for varietal development in ornamental plants

International Nuclear Information System (INIS)

Mohd Nazir Basiran

2000-01-01

Although the current advancement in biotechnology has tremendously change the modern breeding approach, the induced mutation techniques is still very much in use as complementary tools. MINT experiences in using the techniques for varietal development in ornamental plants has helped to increase genetic variabilities in several ornamental plant species, produced twelve new mutant cultivars as well as developed efficient tissue culture system for six ornamental plant species as tool for in vitro mutagenesis procedures and micropropagation. The technology and expertise that have been established are ready for transfer to the horticulture industry. Sharing of capability and capacity between research institutions and private sector is one possible way by improving and maintaining long-term sustenance of the floriculture industry. (author)

Managing Phenol Contents in Crop Plants by Phytochemical Farming and Breeding—Visions and Constraints

Directory of Open Access Journals (Sweden)

Dieter Treutter

2010-03-01

Full Text Available Two main fields of interest form the background of actual demand for optimized levels of phenolic compounds in crop plants. These are human health and plant resistance to pathogens and to biotic and abiotic stress factors. A survey of agricultural technologies influencing the biosynthesis and accumulation of phenolic compounds in crop plants is presented, including observations on the effects of light, temperature, mineral nutrition, water management, grafting, elevated atmospheric CO2, growth and differentiation of the plant and application of elicitors, stimulating agents and plant activators. The underlying mechanisms are discussed with respect to carbohydrate availability, trade-offs to competing demands as well as to regulatory elements. Outlines are given for genetic engineering and plant breeding. Constraints and possible physiological feedbacks are considered for successful and sustainable application of agricultural techniques with respect to management of plant phenol profiles and concentrations.

Chemical signaling between plants and plant-pathogenic bacteria.

Science.gov (United States)

Venturi, Vittorio; Fuqua, Clay

2013-01-01

Studies of chemical signaling between plants and bacteria in the past have been largely confined to two models: the rhizobial-legume symbiotic association and pathogenesis between agrobacteria and their host plants. Recent studies are beginning to provide evidence that many plant-associated bacteria undergo chemical signaling with the plant host via low-molecular-weight compounds. Plant-produced compounds interact with bacterial regulatory proteins that then affect gene expression. Similarly, bacterial quorum-sensing signals result in a range of functional responses in plants. This review attempts to highlight current knowledge in chemical signaling that takes place between pathogenic bacteria and plants. This chemical communication between plant and bacteria, also referred to as interkingdom signaling, will likely become a major research field in the future, as it allows the design of specific strategies to create plants that are resistant to plant pathogens.

Application of molecular markers in wheat breeding: Reality or delusion?

Directory of Open Access Journals (Sweden)

Kobiljski Borislav

2004-01-01

Full Text Available Conventional plant breeding use morphological and phenotypic markers for the identification of important agronomic traits. Plant breeders and scientists continuously seek to develop new techniques, which can be used for faster and more accurate introgression of desirable traits into plants. Over the last several years there has been significant increase in the application of molecular markers in the breeding programmes of different species. So far, detected level of polymorphism and informatitivnes of different molecular marker methods applied in MAS (Marker Assisted Selection studies (RFLP, AFLP, etc. were insufficient either to validate their further use or there were very expensive and of huge healthy risk. Fortunately for wheat (and other crops breeders, the new class of molecular markers - microsatellites have prove recently to be most powerful for MAS. But, due to lack of the knowledge, experience, valid informations and even tradition and habits, many breeders have either negative or repulsive attitude towards implementation of MAS in breeding programes. In this paper the relevant facts regarding implementation of MAS in breeding are discussed in general, and for wheat breeding in particular, in order to summarize merits and limitations in application of microsatellites in MAS selection. .

Ethnobotanic importance of plants used in pigeon-breeding in Eastern Spain

OpenAIRE

Belda, Antonio; Cort?s, Carolina; Peir?, Victoriano

2013-01-01

Background: The importance that birds of the Columbidae family have had throughout history is visible on the Mediterranean coast. Pigeon fancying is the art of breeding and training carrier pigeons and currently, several breeds exist. The sport of racing pigeons consists in covering a distance at maximum possible speed. However, pigeon breeding has another modality called “sport pigeon”, where several males follow a female. This study focusses on ethnobotanical knowledge of native and exotic ...

Plant amino acid-derived vitamins: biosynthesis and function.

Science.gov (United States)

Miret, Javier A; Munné-Bosch, Sergi

2014-04-01

Vitamins are essential organic compounds for humans, having lost the ability to de novo synthesize them. Hence, they represent dietary requirements, which are covered by plants as the main dietary source of most vitamins (through food or livestock's feed). Most vitamins synthesized by plants present amino acids as precursors (B1, B2, B3, B5, B7, B9 and E) and are therefore linked to plant nitrogen metabolism. Amino acids play different roles in their biosynthesis and metabolism, either incorporated into the backbone of the vitamin or as amino, sulfur or one-carbon group donors. There is a high natural variation in vitamin contents in crops and its exploitation through breeding, metabolic engineering and agronomic practices can enhance their nutritional quality. While the underlying biochemical roles of vitamins as cosubstrates or cofactors are usually common for most eukaryotes, the impact of vitamins B and E in metabolism and physiology can be quite different on plants and animals. Here, we first aim at giving an overview of the biosynthesis of amino acid-derived vitamins in plants, with a particular focus on how this knowledge can be exploited to increase vitamin contents in crops. Second, we will focus on the functions of these vitamins in both plants and animals (and humans in particular), to unravel common and specific roles for vitamins in evolutionary distant organisms, in which these amino acid-derived vitamins play, however, an essential role.

Mutation breeding newsletter. No. 20

Energy Technology Data Exchange (ETDEWEB)

NONE

1982-07-01

This issue of the Newsletter presents new reports on mutation breeding programs using radiation or chemical mutagenesis to improve productivity, introduce disease resistance or induce morphological changes in crop plants.

Mutation breeding newsletter. No. 17

Energy Technology Data Exchange (ETDEWEB)

NONE

1981-03-01

This issue of the Newsletter presents new reports on mutation breeding programs using radiation or chemical mutagenesis to improve productivity, introduce disease resistance or induce morphological changes in crop plants.

Mutation breeding newsletter. No. 16

Energy Technology Data Exchange (ETDEWEB)

NONE

1980-07-01

This issue of the Newsletter presents new reports on mutation breeding programs using radiation or chemical mutagenesis to improve productivity, introduce disease resistance or induce morphological changes in crop plants.

Mutation breeding newsletter. No. 8

Energy Technology Data Exchange (ETDEWEB)

NONE

1976-09-01

This issue of the Newsletter presents new reports on mutation breeding programs using radiation or chemical mutagenesis to improve productivity, introduce disease resistance or induce morphological changes in crop plants.

Mutation breeding newsletter. No. 12

Energy Technology Data Exchange (ETDEWEB)

NONE

1978-07-01

This issue of the Newsletter presents new reports on mutation breeding programs using radiation or chemical mutagenesis to improve productivity, introduce disease resistance or induce morphological changes in crop plants.

Mutation breeding newsletter. No. 10

Energy Technology Data Exchange (ETDEWEB)

NONE

1977-07-01

This issue of the Newsletter presents new reports on mutation breeding programs using radiation or chemical mutagenesis to improve productivity, introduce disease resistance or induce morphological changes in crop plants.

Mutation breeding newsletter. No. 32

Energy Technology Data Exchange (ETDEWEB)

NONE

1988-07-01

This issue of the Newsletter presents new reports on mutation breeding programs using radiation or chemical mutagenesis to improve productivity, introduce disease resistance or induce morphological changes in crop plants.

Mutation breeding newsletter. No. 18

Energy Technology Data Exchange (ETDEWEB)

NONE

1981-07-01

This issue of the Newsletter presents new reports on mutation breeding programs using radiation or chemical mutagenesis to improve productivity, introduce disease resistance or induce morphological changes in crop plants.

Mutation breeding newsletter. No. 9

Energy Technology Data Exchange (ETDEWEB)

NONE

1977-01-01

This issue of the Newsletter presents new reports on mutation breeding programs using radiation or chemical mutagenesis to improve productivity, introduce disease resistance or induce morphological changes in crop plants.

Mutation breeding newsletter. No. 22

Energy Technology Data Exchange (ETDEWEB)

NONE

1983-07-01

This issue of the Newsletter presents new reports on mutation breeding programs using radiation or chemical mutagenesis to improve productivity, introduce disease resistance or induce morphological changes in crop plants.

Mutation breeding newsletter. No. 15

Energy Technology Data Exchange (ETDEWEB)

NONE

1980-02-01

This issue of the Newsletter presents new reports on mutation breeding programs using radiation or chemical mutagenesis to improve productivity, introduce disease resistance or induce morphological changes in crop plants.

Mutation breeding newsletter. No. 9

International Nuclear Information System (INIS)

1977-01-01

This issue of the Newsletter presents new reports on mutation breeding programs using radiation or chemical mutagenesis to improve productivity, introduce disease resistance or induce morphological changes in crop plants

Mutation breeding newsletter. No. 32

International Nuclear Information System (INIS)

1988-07-01

This issue of the Newsletter presents new reports on mutation breeding programs using radiation or chemical mutagenesis to improve productivity, introduce disease resistance or induce morphological changes in crop plants

Mutation breeding newsletter. No. 15

International Nuclear Information System (INIS)

1980-02-01

This issue of the Newsletter presents new reports on mutation breeding programs using radiation or chemical mutagenesis to improve productivity, introduce disease resistance or induce morphological changes in crop plants

Mutation breeding newsletter. No. 14

International Nuclear Information System (INIS)

1979-07-01

This issue of the Newsletter presents new reports on mutation breeding programs using radiation or chemical mutagenesis to improve productivity, introduce disease resistance or induce morphological changes in crop plants

Mutation breeding newsletter. No. 16

International Nuclear Information System (INIS)

1980-07-01

This issue of the Newsletter presents new reports on mutation breeding programs using radiation or chemical mutagenesis to improve productivity, introduce disease resistance or induce morphological changes in crop plants

Mutation breeding newsletter. No. 12

International Nuclear Information System (INIS)

1978-07-01

This issue of the Newsletter presents new reports on mutation breeding programs using radiation or chemical mutagenesis to improve productivity, introduce disease resistance or induce morphological changes in crop plants

Mutation breeding newsletter. No. 17

International Nuclear Information System (INIS)

1981-03-01

This issue of the Newsletter presents new reports on mutation breeding programs using radiation or chemical mutagenesis to improve productivity, introduce disease resistance or induce morphological changes in crop plants

Mutation breeding newsletter. No. 30

International Nuclear Information System (INIS)

1987-07-01

This issue of the Newsletter presents new reports on mutation breeding programs using radiation or chemical mutagenesis to improve productivity, introduce disease resistance or induce morphological changes in crop plants

Mutation breeding newsletter. No. 18

International Nuclear Information System (INIS)

1981-07-01

This issue of the Newsletter presents new reports on mutation breeding programs using radiation or chemical mutagenesis to improve productivity, introduce disease resistance or induce morphological changes in crop plants

Mutation breeding newsletter. No. 10

International Nuclear Information System (INIS)

1977-07-01

This issue of the Newsletter presents new reports on mutation breeding programs using radiation or chemical mutagenesis to improve productivity, introduce disease resistance or induce morphological changes in crop plants

Mutation breeding newsletter. No. 8

International Nuclear Information System (INIS)

1976-09-01

This issue of the Newsletter presents new reports on mutation breeding programs using radiation or chemical mutagenesis to improve productivity, introduce disease resistance or induce morphological changes in crop plants

Mutation breeding newsletter. No. 11

Energy Technology Data Exchange (ETDEWEB)

NONE

1978-02-01

This issue of the Newsletter presents new reports on mutation breeding programs using radiation or chemical mutagenesis to improve productivity, introduce disease resistance or induce morphological changes in crop plants.

Mutation breeding newsletter. No. 31

Energy Technology Data Exchange (ETDEWEB)

NONE

1988-03-01

This issue of the Newsletter presents new reports on mutation breeding programs using radiation or chemical mutagenesis to improve productivity, introduce disease resistance or induce morphological changes in crop plants.

Mutation breeding newsletter. No. 31

International Nuclear Information System (INIS)

1988-03-01

This issue of the Newsletter presents new reports on mutation breeding programs using radiation or chemical mutagenesis to improve productivity, introduce disease resistance or induce morphological changes in crop plants

Mutation breeding newsletter. No. 11

International Nuclear Information System (INIS)

1978-02-01

This issue of the Newsletter presents new reports on mutation breeding programs using radiation or chemical mutagenesis to improve productivity, introduce disease resistance or induce morphological changes in crop plants

Mutation breeding newsletter. No. 20

International Nuclear Information System (INIS)

1982-07-01

This issue of the Newsletter presents new reports on mutation breeding programs using radiation or chemical mutagenesis to improve productivity, introduce disease resistance or induce morphological changes in crop plants

Mutation breeding newsletter. No. 19

International Nuclear Information System (INIS)

1982-01-01

This issue of the Newsletter presents new reports on mutation breeding programs using radiation or chemical mutagenesis to improve productivity, introduce disease resistance or induce morphological changes in crop plants

Mutation breeding newsletter. No. 13

Energy Technology Data Exchange (ETDEWEB)

NONE

1979-02-01

This issue of the Newsletter presents new reports on mutation breeding programs using radiation or chemical mutagenesis to improve productivity, introduce disease resistance or induce morphological changes in crop plants.

Mutation breeding newsletter. No. 30

Energy Technology Data Exchange (ETDEWEB)

NONE

1987-07-01

This issue of the Newsletter presents new reports on mutation breeding programs using radiation or chemical mutagenesis to improve productivity, introduce disease resistance or induce morphological changes in crop plants.

Mutation breeding newsletter. No. 19

Energy Technology Data Exchange (ETDEWEB)

NONE

1982-01-01

This issue of the Newsletter presents new reports on mutation breeding programs using radiation or chemical mutagenesis to improve productivity, introduce disease resistance or induce morphological changes in crop plants.

Mutation breeding newsletter. No. 23

Energy Technology Data Exchange (ETDEWEB)

NONE

1983-01-01

This issue of the Newsletter presents new reports on mutation breeding programs using radiation or chemical mutagenesis to improve productivity, introduce disease resistance or induce morphological changes in crop plants.

Mutation breeding newsletter. No. 14

Energy Technology Data Exchange (ETDEWEB)

NONE

1979-07-01

This issue of the Newsletter presents new reports on mutation breeding programs using radiation or chemical mutagenesis to improve productivity, introduce disease resistance or induce morphological changes in crop plants.

Mutation breeding newsletter. No. 23

International Nuclear Information System (INIS)

1983-01-01

This issue of the Newsletter presents new reports on mutation breeding programs using radiation or chemical mutagenesis to improve productivity, introduce disease resistance or induce morphological changes in crop plants

Mutation breeding newsletter. No. 13

International Nuclear Information System (INIS)

1979-02-01

This issue of the Newsletter presents new reports on mutation breeding programs using radiation or chemical mutagenesis to improve productivity, introduce disease resistance or induce morphological changes in crop plants

Mutation breeding newsletter. No. 22

International Nuclear Information System (INIS)

1983-07-01

This issue of the Newsletter presents new reports on mutation breeding programs using radiation or chemical mutagenesis to improve productivity, introduce disease resistance or induce morphological changes in crop plants

Four planting devices for planting no-till maize

Directory of Open Access Journals (Sweden)

Osei Bonsu Patterson

2015-05-01

Full Text Available An experiment was conducted at the CSIR-Crops Research Institute (CSIR-CRI Experimental station at Ejura in Ghana to compare the efficiency of four devices for planting no-till maize: Tractor drawn seeder, Chinese made jab planter, Locally made jab planter and a Cutlass. It took two (2 hours 48 minutes to plant one hectare of maize with the tractor drawn seeder, which was significantly (p less than 1% faster than all the planting methods. Cutlass was the slowest planting device lasting more than 14 hours per hectare. There was no significant difference in planting time between the Chinese planter and local planter. Economic analysis showed that cutlass planting produced the highest net benefit, whilst tractor drawn seeder produced the least benefit. In this study cutlass planting was done with precision by collaborating farmers. In actual farm situation however, hired laborers (planting gangs often plant in haste which often results in poor plant population leading to low yields. Tractor drawn seeders or jab planters could reduce drudgery in planting and encourage farm expansion.

Genetic data analysis for plant and animal breeding

Science.gov (United States)

This book is an advanced textbook covering the application of quantitative genetics theory to analysis of actual data (both trait and DNA marker information) for breeding populations of crops, trees, and animals. Chapter 1 is an introduction to basic software used for trait data analysis. Chapter 2 ...

Filling the toolbox of precision breeding methods

NARCIS (Netherlands)

Schaart, J.G.; Wiel, van de C.C.M.; Lotz, L.A.P.; Smulders, M.J.M.

2016-01-01

Plant breeding has
resulted in numerous
high-quality crop
varieties being
cultivated nowadays.
Breeding based on
crossing and selection
remains an important
and ongoing activity for
crop improvement, but
needs innovation to be
able to address

The Planteome database: an integrated resource for reference ontologies, plant genomics and phenomics

Science.gov (United States)

Cooper, Laurel; Meier, Austin; Laporte, Marie-Angélique; Elser, Justin L; Mungall, Chris; Sinn, Brandon T; Cavaliere, Dario; Carbon, Seth; Dunn, Nathan A; Smith, Barry; Qu, Botong; Preece, Justin; Zhang, Eugene; Todorovic, Sinisa; Gkoutos, Georgios; Doonan, John H; Stevenson, Dennis W; Arnaud, Elizabeth

2018-01-01

Abstract The Planteome project (http://www.planteome.org) provides a suite of reference and species-specific ontologies for plants and annotations to genes and phenotypes. Ontologies serve as common standards for semantic integration of a large and growing corpus of plant genomics, phenomics and genetics data. The reference ontologies include the Plant Ontology, Plant Trait Ontology and the Plant Experimental Conditions Ontology developed by the Planteome project, along with the Gene Ontology, Chemical Entities of Biological Interest, Phenotype and Attribute Ontology, and others. The project also provides access to species-specific Crop Ontologies developed by various plant breeding and research communities from around the world. We provide integrated data on plant traits, phenotypes, and gene function and expression from 95 plant taxa, annotated with reference ontology terms. The Planteome project is developing a plant gene annotation platform; Planteome Noctua, to facilitate community engagement. All the Planteome ontologies are publicly available and are maintained at the Planteome GitHub site (https://github.com/Planteome) for sharing, tracking revisions and new requests. The annotated data are freely accessible from the ontology browser (http://browser.planteome.org/amigo) and our data repository. PMID:29186578

Mutation breeding newsletter. No. 33

Energy Technology Data Exchange (ETDEWEB)

NONE

1989-01-01

This issue of the newsletter reports a number of research news and research abstracts on application of radiation induced mutation techniques to increase mutagenesis and mutation frequency in plant breeding projects.

Mutation breeding newsletter. No. 33

International Nuclear Information System (INIS)

1989-01-01

This issue of the newsletter reports a number of research news and research abstracts on application of radiation induced mutation techniques to increase mutagenesis and mutation frequency in plant breeding projects

Mutation breeding in peas

Energy Technology Data Exchange (ETDEWEB)

Jaranowski, J [Institute of Genetics and Plant Breeding, Academy of Agriculture, Poznan (Poland); Micke, A [Joint FAO/IAEA Division of Isotope and Radiation Applications of Atomic Energy for Food and Agricultural Development, International Atomic Energy Agency, Vienna (Austria)

1985-02-01

The pea as an ancient crop plant still today has wide uses and is an import source of food protein. It is also an important object for genetic studies and as such has been widely used in mutation induction experiments. However, in comparison with cereals this ancient crop plant (like several other grain legumes) has gained relatively little from advances in breeding. The review focuses on the prospects of genetic improvement of pea by induced mutations, discusses principles and gives methodological information. (author)

Mutation breeding in peas

International Nuclear Information System (INIS)

Jaranowski, J.; Micke, A.

1985-01-01

The pea as an ancient crop plant still today has wide uses and is an import source of food protein. It is also an important object for genetic studies and as such has been widely used in mutation induction experiments. However, in comparison with cereals this ancient crop plant (like several other grain legumes) has gained relatively little from advances in breeding. The review focuses on the prospects of genetic improvement of pea by induced mutations, discusses principles and gives methodological information. (author)

Progress of mutation breeding in Thailand

Energy Technology Data Exchange (ETDEWEB)

Purivirojkul, Watchara; Vithayatherarat, Pradab [Pathumthani Rice Research Center (Thailand)

2001-03-01

The objectives in rice improvement in Thailand are to improve not only for high yielding and good grain quality but also for resistance to diseases and insects and tolerance to biotic stresses. Brief history of research and progress in rice mutation breeding in Thailand is presented. It includes the varieties of method such as using gamma rays, fast neutron and chemical mutagens, for example EMS (ethylmethane sulfonate) and EI (ethylene imine) for mutation works. Among all, improvements of Pathumthani 60 for short-statured plant type, RD23 for blast resistance, Basmati 370 for short-statured plant type, and Pra Doo Daeng for short-statured plant type and awnless grain are reported. To conclude, it is important to find the adequate doses of mutagen treatments that give maximum mutation frequencies, to know the optimal treatments or proper selection methods and to have well-defined objectives to create the success of mutation breeding. (S. Ohno)

Progress of mutation breeding in Thailand

International Nuclear Information System (INIS)

Purivirojkul, Watchara; Vithayatherarat, Pradab

2001-01-01

The objectives in rice improvement in Thailand are to improve not only for high yielding and good grain quality but also for resistance to diseases and insects and tolerance to biotic stresses. Brief history of research and progress in rice mutation breeding in Thailand is presented. It includes the varieties of method such as using gamma rays, fast neutron and chemical mutagens, for example EMS (ethylmethane sulfonate) and EI (ethylene imine) for mutation works. Among all, improvements of Pathumthani 60 for short-statured plant type, RD23 for blast resistance, Basmati 370 for short-statured plant type, and Pra Doo Daeng for short-statured plant type and awnless grain are reported. To conclude, it is important to find the adequate doses of mutagen treatments that give maximum mutation frequencies, to know the optimal treatments or proper selection methods and to have well-defined objectives to create the success of mutation breeding. (S. Ohno)

Envirotyping for deciphering environmental impacts on crop plants.

Science.gov (United States)

Xu, Yunbi

2016-04-01

Global climate change imposes increasing impacts on our environments and crop production. To decipher environmental impacts on crop plants, the concept "envirotyping" is proposed, as a third "typing" technology, complementing with genotyping and phenotyping. Environmental factors can be collected through multiple environmental trials, geographic and soil information systems, measurement of soil and canopy properties, and evaluation of companion organisms. Envirotyping contributes to crop modeling and phenotype prediction through its functional components, including genotype-by-environment interaction (GEI), genes responsive to environmental signals, biotic and abiotic stresses, and integrative phenotyping. Envirotyping, driven by information and support systems, has a wide range of applications, including environmental characterization, GEI analysis, phenotype prediction, near-iso-environment construction, agronomic genomics, precision agriculture and breeding, and development of a four-dimensional profile of crop science involving genotype (G), phenotype (P), envirotype (E) and time (T) (developmental stage). In the future, envirotyping needs to zoom into specific experimental plots and individual plants, along with the development of high-throughput and precision envirotyping platforms, to integrate genotypic, phenotypic and envirotypic information for establishing a high-efficient precision breeding and sustainable crop production system based on deciphered environmental impacts.

Plant aquaporins: roles in plant physiology.

Science.gov (United States)

Li, Guowei; Santoni, Véronique; Maurel, Christophe

2014-05-01

Aquaporins are membrane channels that facilitate the transport of water and small neutral molecules across biological membranes of most living organisms. Here, we present comprehensive insights made on plant aquaporins in recent years, pointing to their molecular and physiological specificities with respect to animal or microbial counterparts. In plants, aquaporins occur as multiple isoforms reflecting a high diversity of cellular localizations and various physiological substrates in addition to water. Of particular relevance for plants is the transport by aquaporins of dissolved gases such as carbon dioxide or metalloids such as boric or silicic acid. The mechanisms that determine the gating and subcellular localization of plant aquaporins are extensively studied. They allow aquaporin regulation in response to multiple environmental and hormonal stimuli. Thus, aquaporins play key roles in hydraulic regulation and nutrient transport in roots and leaves. They contribute to several plant growth and developmental processes such as seed germination or emergence of lateral roots. Plants with genetically altered aquaporin functions are now tested for their ability to improve plant resistance to stresses. This article is part of a Special Issue entitled Aquaporins. Copyright © 2013 Elsevier B.V. All rights reserved.

Methods for growth regulation of greenhouse produced ornamental pot- and bedding plants – a current review

Directory of Open Access Journals (Sweden)

Bergstrand Karl-Johan I.

2017-06-01

Full Text Available Chemical plant growth regulators (PGRs are used in the production of ornamental potted and bedding plants. Growth control is needed for maximizing production per unit area, reducing transportation costs and to obtain a desired visual quality. However, the use of PGRs is associated with toxicity risks to humans and the environment. In many countries the availability of PGRs is restricted as few substances are registered for use. A number of alternative methods have been suggested. The methods include genetic methods (breeding and crop cultivation practices such as fertigation, temperature and light management. A lot of research into “alternative” growth regulation was performed during the 1980-1990s, revealing several possible ways of using different climatic factors to optimize plant growth with respect to plant height. In recent years, the interest in climatic growth regulation has been resurrected, not least due to the coming phase-out of the plant growth regulator chlormequat chloride (CCC. Today, authorities in many countries are aiming towards reducing the use of agrochemicals. At the same time, there is a strong demand from consumers for products produced without chemicals. This article provides a broad overview of available methods for non-chemical growth control. It is concluded that a combination of plant breeding and management of temperature, fertigation and light management has the potential of replacing chemical growth regulators in the commercial production of ornamental pot- and bedding plants.

Plant viruses as scaffolds for the presentation of vaccine epitopes

Czech Academy of Sciences Publication Activity Database

Plchová, Helena; Čeřovská, Noemi; Vaculík, Petr; Moravec, Tomáš

2017-01-01

Roč. 61, č. 1 (2017), s. 1-12 ISSN 0006-3134 R&D Projects: GA ČR(CZ) GA15-10768S; GA ČR(CZ) GAP501/12/1761 Grant - others:European Regional Development Fund(XE) CZ.2.16/3.1.00/24014 Institutional support: RVO:61389030 Keywords : tobacco-mosaic-virus * x coat protein * human-papillomavirus type-16 * green fluorescent protein * n-terminal segment * triple gene block * cell-to-cell * transient expression * nicotiana-benthamiana * viral vector * transient expression * plant viral expression vectors Subject RIV: GE - Plant Breeding OBOR OECD: Virology Impact factor: 1.551, year: 2016

A Single Recessive Mutated Gene (Sd237-1) Controlling Semi-Dwarf Plant Stature of Rice

International Nuclear Information System (INIS)

Sobrizal

2009-01-01

Dwarfism is a valuable trait in crop breeding, because it increases lodging resistance and decreases damages due to wind and rain. During the course of this study, a semi-dwarf mutant was successfully induced through 200 Gy gamma ray irradiated KI 237 seeds. KI 237 is a pure line with high yield potency, developed through an Indica-Japonica cross of IR36 / Koshihikari. The selected semi-dwarf plant reached 60 - 62 % of plant height of original plant KI 237 at the mature stage. The length of inter nodes, panicle, and seed were also compared between these two plants. The retardation of the 1 st (uppermost) inter nodes was 24 %, moreover, the retardation of panicle and seed length were only 10 % and 2 %, respectively. The elongation pattern of the inter nodes in this mutant was almost the same as sd1 (Dee-geo-woo-gen), the original parent of the first release modern rice variety, but their performances were different. Based on the segregation analysis in M 2 and M 3 generation it was concluded that this mutant was controlled by a single recessive mutated gene. This gene was designated as sd 237-1 . This mutant should be useful as a genetic resource for the improvement of KI 237 line through back-cross breeding as well as be developed further in breeding program directly to be a new high yielding mutant variety. (author)

Mutation breeding newsletter. No. 28

International Nuclear Information System (INIS)

1986-09-01