WorldWideScience

Sample records for non-scientific chemical taxonomies

  1. ClassyFire: automated chemical classification with a comprehensive, computable taxonomy.

    Science.gov (United States)

    Djoumbou Feunang, Yannick; Eisner, Roman; Knox, Craig; Chepelev, Leonid; Hastings, Janna; Owen, Gareth; Fahy, Eoin; Steinbeck, Christoph; Subramanian, Shankar; Bolton, Evan; Greiner, Russell; Wishart, David S

    2016-01-01

    Scientists have long been driven by the desire to describe, organize, classify, and compare objects using taxonomies and/or ontologies. In contrast to biology, geology, and many other scientific disciplines, the world of chemistry still lacks a standardized chemical ontology or taxonomy. Several attempts at chemical classification have been made; but they have mostly been limited to either manual, or semi-automated proof-of-principle applications. This is regrettable as comprehensive chemical classification and description tools could not only improve our understanding of chemistry but also improve the linkage between chemistry and many other fields. For instance, the chemical classification of a compound could help predict its metabolic fate in humans, its druggability or potential hazards associated with it, among others. However, the sheer number (tens of millions of compounds) and complexity of chemical structures is such that any manual classification effort would prove to be near impossible. We have developed a comprehensive, flexible, and computable, purely structure-based chemical taxonomy (ChemOnt), along with a computer program (ClassyFire) that uses only chemical structures and structural features to automatically assign all known chemical compounds to a taxonomy consisting of >4800 different categories. This new chemical taxonomy consists of up to 11 different levels (Kingdom, SuperClass, Class, SubClass, etc.) with each of the categories defined by unambiguous, computable structural rules. Furthermore each category is named using a consensus-based nomenclature and described (in English) based on the characteristic common structural properties of the compounds it contains. The ClassyFire webserver is freely accessible at http://classyfire.wishartlab.com/. Moreover, a Ruby API version is available at https://bitbucket.org/wishartlab/classyfire_api, which provides programmatic access to the ClassyFire server and database. ClassyFire has been used to

  2. Weight loss diets advertised in non-scientific publications

    Directory of Open Access Journals (Sweden)

    Olga Maria Silverio Amancio

    Full Text Available Weight-loss diets advertised in mainstream non-scientific publications and targeting the adult female public were evaluated in relation to total energy value, macronutrients, calcium, iron, vitamins A and E, and cholesterol content, as well as the presence of information regarding the duration of diets, fluid intake, physical activity, and maintenance diets. Two publications were selected, considering periodicity, circulation, readership, and years in publication. The Virtual Nutri software was used to evaluate the nutrients of 112 diets. Micronutrient content was compared to the Dietary Reference Intakes. All diets were inadequate in at least one of the evaluated items. Less than 25.0% of the diets presented adequate macronutrient distribution. Calcium, iron, and vitamin E were also predominantly inadequate (85.7, 97.3, and 91.9%, respectively. Non-scientific publications should not be allowed to advertise weight-loss diets. In addition, their chemical composition is inadequate and they are not accompanied by important instructions for such therapy.

  3. Taxonomy Icon Data: [Taxonomy Icon

    Lifescience Database Archive (English)

    Full Text Available mphii_NS.png http://biosciencedbc.jp/taxonomy_icon/icon.cgi?i=Cycas+rumphii&t=L http://biosciencedbc.jp/taxonomy..._icon/icon.cgi?i=Cycas+rumphii&t=NL http://biosciencedbc.jp/taxonomy_icon/icon.cgi?i=Cycas+rumphii&t=S http://biosciencedbc.jp/taxonomy_icon/icon.cgi?i=Cycas+rumphii&t=NS ...

  4. Taxonomy Icon Data: [Taxonomy Icon

    Lifescience Database Archive (English)

    Full Text Available p://biosciencedbc.jp/taxonomy_icon/icon.cgi?i=Pteranodon+longiceps&t=L http://biosciencedbc.jp/taxonomy_icon.../icon.cgi?i=Pteranodon+longiceps&t=NL http://biosciencedbc.jp/taxonomy_icon/icon....cgi?i=Pteranodon+longiceps&t=S http://biosciencedbc.jp/taxonomy_icon/icon.cgi?i=Pteranodon+longiceps&t=NS ...

  5. Taxonomy Icon Data: [Taxonomy Icon

    Lifescience Database Archive (English)

    Full Text Available p://biosciencedbc.jp/taxonomy_icon/icon.cgi?i=Triceratops+horridus&t=L http://biosciencedbc.jp/taxonomy_icon.../icon.cgi?i=Triceratops+horridus&t=NL http://biosciencedbc.jp/taxonomy_icon/icon....cgi?i=Triceratops+horridus&t=S http://biosciencedbc.jp/taxonomy_icon/icon.cgi?i=Triceratops+horridus&t=NS ...

  6. Taxonomy Icon Data: [Taxonomy Icon

    Lifescience Database Archive (English)

    Full Text Available ltithorax_NS.png http://biosciencedbc.jp/taxonomy_icon/icon.cgi?i=Brachiosaurus+altithorax&t=L http://biosciencedbc.jp/taxonomy..._icon/icon.cgi?i=Brachiosaurus+altithorax&t=NL http://biosciencedbc.jp/taxonomy..._icon/icon.cgi?i=Brachiosaurus+altithorax&t=S http://biosciencedbc.jp/taxonomy_icon/icon.cgi?i=Brachiosaurus+altithorax&t=NS ...

  7. Taxonomy Icon Data: [Taxonomy Icon

    Lifescience Database Archive (English)

    Full Text Available la_trichopoda_S.png Amborella_trichopoda_NS.png http://biosciencedbc.jp/taxonomy_icon/icon.cgi?i=Amborella+t...richopoda&t=L http://biosciencedbc.jp/taxonomy_icon/icon.cgi?i=Amborella+trichopoda&t=NL http://biosciencedbc.jp/taxonomy..._icon/icon.cgi?i=Amborella+trichopoda&t=S http://biosciencedbc.jp/taxonomy..._icon/icon.cgi?i=Amborella+trichopoda&t=NS http://togodb.biosciencedbc.jp/togodb/view/taxonomy_icon_comment_en?species_id=13 ...

  8. Taxonomy Icon Data: [Taxonomy Icon

    Lifescience Database Archive (English)

    Full Text Available g Trichoplax_adhaerens_S.png Trichoplax_adhaerens_NS.png http://biosciencedbc.jp/taxonomy_icon/icon.cgi?i=Tr...ichoplax+adhaerens&t=L http://biosciencedbc.jp/taxonomy_icon/icon.cgi?i=Trichoplax+adhaerens&t=NL http://biosciencedbc.jp/taxonomy..._icon/icon.cgi?i=Trichoplax+adhaerens&t=S http://biosciencedbc.jp/taxonomy..._icon/icon.cgi?i=Trichoplax+adhaerens&t=NS http://togodb.biosciencedbc.jp/togodb/view/taxonomy_icon_comment_en?species_id=95 ...

  9. Taxonomy Icon Data: [Taxonomy Icon

    Lifescience Database Archive (English)

    Full Text Available g Hydra_magnipapillata_S.png Hydra_magnipapillata_NS.png http://biosciencedbc.jp/taxonomy_icon/icon.cgi?i=Hy...dra+magnipapillata&t=L http://biosciencedbc.jp/taxonomy_icon/icon.cgi?i=Hydra+magnipapillata&t=NL http://biosciencedbc.jp/taxonomy..._icon/icon.cgi?i=Hydra+magnipapillata&t=S http://biosciencedbc.jp/taxonomy..._icon/icon.cgi?i=Hydra+magnipapillata&t=NS http://togodb.biosciencedbc.jp/togodb/view/taxonomy_icon_comment_en?species_id=159 ...

  10. Taxonomy Icon Data: [Taxonomy Icon

    Lifescience Database Archive (English)

    Full Text Available L.png Schistosoma_mansoni_S.png Schistosoma_mansoni_NS.png http://biosciencedbc.jp/taxonomy_icon/icon.cgi?i=...Schistosoma+mansoni&t=L http://biosciencedbc.jp/taxonomy_icon/icon.cgi?i=Schistosoma+mansoni&t=NL http://biosciencedbc.jp/taxonomy..._icon/icon.cgi?i=Schistosoma+mansoni&t=S http://biosciencedbc.jp/taxonomy..._icon/icon.cgi?i=Schistosoma+mansoni&t=NS http://togodb.biosciencedbc.jp/togodb/view/taxonomy_icon_comment_en?species_id=185 ...

  11. Taxonomy Icon Data: [Taxonomy Icon

    Lifescience Database Archive (English)

    Full Text Available aurus_stenops_L.png Stegosaurus_stenops_NL.png Stegosaurus_stenops_S.png Stegosaurus_stenops_NS.png http://biosciencedbc.jp/taxonomy..._icon/icon.cgi?i=Stegosaurus+stenops&t=L http://biosciencedbc.jp/taxonomy_icon/icon....cgi?i=Stegosaurus+stenops&t=NL http://biosciencedbc.jp/taxonomy_icon/icon.cgi?i=S...tegosaurus+stenops&t=S http://biosciencedbc.jp/taxonomy_icon/icon.cgi?i=Stegosaurus+stenops&t=NS ...

  12. Taxonomy Icon Data: [Taxonomy Icon

    Lifescience Database Archive (English)

    Full Text Available Phaeodactylum tricornutum Phaeodactylum_tricornutum_L.png Phaeodactylum_tricornutum..._NL.png Phaeodactylum_tricornutum_S.png Phaeodactylum_tricornutum_NS.png http://biosciencedbc.jp/taxonomy_icon/ico...n.cgi?i=Phaeodactylum+tricornutum&t=L http://biosciencedbc.jp/taxonomy_icon/icon.cgi?i=Phaeodactylum+trico...rnutum&t=NL http://biosciencedbc.jp/taxonomy_icon/icon.cgi?i=Phaeodactylum+trico...rnutum&t=S http://biosciencedbc.jp/taxonomy_icon/icon.cgi?i=Phaeodactylum+tricornutum&t=NS http://togodb.biosciencedbc.jp/togodb/view/taxonomy_icon_comment_en?species_id=213 ...

  13. Taxonomy Icon Data: [Taxonomy Icon

    Lifescience Database Archive (English)

    Full Text Available aurus_rex_L.png Tyrannosaurus_rex_NL.png Tyrannosaurus_rex_S.png Tyrannosaurus_rex_NS.png http://biosciencedbc.jp/taxonomy..._icon/icon.cgi?i=Tyrannosaurus+rex&t=L http://biosciencedbc.jp/taxonomy_icon/icon.cgi?i=Tyrann...osaurus+rex&t=NL http://biosciencedbc.jp/taxonomy_icon/icon.cgi?i=Tyrannosaurus+r...ex&t=S http://biosciencedbc.jp/taxonomy_icon/icon.cgi?i=Tyrannosaurus+rex&t=NS http://togodb.biosciencedbc.jp/togodb/view/taxonomy_icon_comment_en?species_id=109 ...

  14. Taxonomy Icon Data: [Taxonomy Icon

    Lifescience Database Archive (English)

    Full Text Available _NL.png Caenorhabditis_elegans_S.png Caenorhabditis_elegans_NS.png http://biosciencedbc.jp/taxonomy_icon/ico...n.cgi?i=Caenorhabditis+elegans&t=L http://biosciencedbc.jp/taxonomy_icon/icon.cgi?i=Caenorhabditis+elegans&t...=NL http://biosciencedbc.jp/taxonomy_icon/icon.cgi?i=Caenorhabditis+elegans&t=S h...ttp://biosciencedbc.jp/taxonomy_icon/icon.cgi?i=Caenorhabditis+elegans&t=NS http://togodb.biosciencedbc.jp/togodb/view/taxonomy_icon_comment_en?species_id=94 ...

  15. Integrative taxonomy of the fly orchid group: insights from chemical ecology

    Science.gov (United States)

    Joffard, Nina; Buatois, Bruno; Schatz, Bertrand

    2016-10-01

    Several authors have recently stressed the need to develop an integrative approach in taxonomy, but studies applying such an approach to Mediterranean orchids are scarce. In sexually deceptive orchids from the taxonomically difficult genus Ophrys, pollination is specific and performed by male insects attracted to the flowers by sex pheromone-mimicking floral scents. Floral compounds are therefore of primary importance for reproductive isolation and species delimitations in this genus. In the fly orchid group, molecular, morphological, and ecological characters have been extensively studied, but a comprehensive survey of floral scents is still lacking. In the present study, the blends of floral compounds of its three members, Ophrys insectifera, Ophrys aymoninii, and Ophrys subinsectifera, were extracted and analyzed by gas chromatography-mass spectrometry. A total of 107 compounds were found, with a majority of saturated and unsaturated hydrocarbons. Significant differentiation, both qualitative and quantitative, was found among the three taxa. This result, pooled with those from the literature, forms a comprehensive and congruent dataset that allows us to elucidate the taxonomic rank of the three members of the fly orchid group.

  16. Chemical compound navigator: a web-based chem-BLAST, chemical taxonomy-based search engine for browsing compounds.

    Science.gov (United States)

    Prasanna, M D; Vondrasek, Jiri; Wlodawer, Alexander; Rodriguez, H; Bhat, T N

    2006-06-01

    A novel technique to annotate, query, and analyze chemical compounds has been developed and is illustrated by using the inhibitor data on HIV protease-inhibitor complexes. In this method, all chemical compounds are annotated in terms of standard chemical structural fragments. These standard fragments are defined by using criteria, such as chemical classification; structural, chemical, or functional groups; and commercial, scientific or common names or synonyms. These fragments are then organized into a data tree based on their chemical substructures. Search engines have been developed to use this data tree to enable query on inhibitors of HIV protease (http://xpdb.nist.gov/hivsdb/hivsdb.html). These search engines use a new novel technique, Chemical Block Layered Alignment of Substructure Technique (Chem-BLAST) to search on the fragments of an inhibitor to look for its chemical structural neighbors. This novel technique to annotate and query compounds lays the foundation for the use of the Semantic Web concept on chemical compounds to allow end users to group, sort, and search structural neighbors accurately and efficiently. During annotation, it enables the attachment of "meaning" (i.e., semantics) to data in a manner that far exceeds the current practice of associating "metadata" with data by creating a knowledge base (or ontology) associated with compounds. Intended users of the technique are the research community and pharmaceutical industry, for which it will provide a new tool to better identify novel chemical structural neighbors to aid drug discovery.

  17. A taxonomy of chemicals of emerging concern based on observed fate at water resource recovery facilities.

    Science.gov (United States)

    Jones, Steven M; Chowdhury, Zaid K; Watts, Michael J

    2017-03-01

    As reuse of municipal water resource recovery facility (WRRF) effluent becomes vital to augment diminishing fresh drinking water resources, concern exists that conventional barriers may prove deficient, and the upcycling of chemicals of emerging concern (CECs) could prove harmful to human health and aquatic species if more effective and robust treatment barriers are not in place. A multiple month survey, of both primary and secondary effluents, from three (3) WRRFs, for 95 CECs was conducted in 2014 to classify CECs by their persistence through conventional water reclamation processes. By sampling the participating WRRF process trains at their peak performance (as determined by measured bulk organics and particulates removal), a short-list of recalcitrant CECs that warrant monitoring to assess treatment performance at advanced water reclamation and production facilities. The list of identified CECs for potable water reclamation (indirect or direct potable reuse) include a herbicide and its degradants, prescription pharmaceuticals and antibiotics, a female hormone, an artificial sweetener, and chlorinated flame retardants.

  18. Taxonomy Icon Data: maize [Taxonomy Icon

    Lifescience Database Archive (English)

    Full Text Available /biosciencedbc.jp/taxonomy_icon/icon.cgi?i=Zea+mays&t=L http://biosciencedbc.jp/taxonomy_icon/icon.cgi?i=Zea...+mays&t=NL http://biosciencedbc.jp/taxonomy_icon/icon.cgi?i=Zea+mays&t=S http://biosciencedbc.jp/taxonomy_icon/icon.cgi?i=Zea+mays&t=NS ...

  19. Taxonomy Icon Data: rice [Taxonomy Icon

    Lifescience Database Archive (English)

    Full Text Available ativa_NS.png http://biosciencedbc.jp/taxonomy_icon/icon.cgi?i=Oryza+sativa&t=L http://biosciencedbc.jp/taxonomy..._icon/icon.cgi?i=Oryza+sativa&t=NL http://biosciencedbc.jp/taxonomy_icon/icon.cgi?i=Oryza+sativa&t=S http://biosciencedbc.jp/taxonomy_icon/icon.cgi?i=Oryza+sativa&t=NS ...

  20. Taxonomy Icon Data: blue whale [Taxonomy Icon

    Lifescience Database Archive (English)

    Full Text Available s_NS.png http://biosciencedbc.jp/taxonomy_icon/icon.cgi?i=Balaenoptera+musculus&t=L http://biosciencedbc.jp/taxonomy..._icon/icon.cgi?i=Balaenoptera+musculus&t=NL http://biosciencedbc.jp/taxonomy..._icon/icon.cgi?i=Balaenoptera+musculus&t=S http://biosciencedbc.jp/taxonomy_icon/icon.cgi?i=Balaenoptera+musculus&t=NS ...

  1. Taxonomy Icon Data: loblolly pine [Taxonomy Icon

    Lifescience Database Archive (English)

    Full Text Available nus_taeda_NS.png http://biosciencedbc.jp/taxonomy_icon/icon.cgi?i=Pinus+taeda&t=L http://biosciencedbc.jp/taxonomy..._icon/icon.cgi?i=Pinus+taeda&t=NL http://biosciencedbc.jp/taxonomy_icon/icon.cgi?i=Pinus+taeda&t=S http://biosciencedbc.jp/taxonomy_icon/icon.cgi?i=Pinus+taeda&t=NS ...

  2. Taxonomy Icon Data: cabbage [Taxonomy Icon

    Lifescience Database Archive (English)

    Full Text Available _oleracea_S.png Brassica_oleracea_NS.png http://biosciencedbc.jp/taxonomy_icon/icon.cgi?i=Brassica+oleracea&...t=L http://biosciencedbc.jp/taxonomy_icon/icon.cgi?i=Brassica+oleracea&t=NL http://biosciencedbc.jp/taxonomy..._icon/icon.cgi?i=Brassica+oleracea&t=S http://biosciencedbc.jp/taxonomy_icon/icon.cgi?i=Brassica+oleracea&t=NS ...

  3. Taxonomy Icon Data: peach [Taxonomy Icon

    Lifescience Database Archive (English)

    Full Text Available g Prunus_persica_NS.png http://biosciencedbc.jp/taxonomy_icon/icon.cgi?i=Prunus+persica&t=L http://biosciencedbc.jp/taxonomy..._icon/icon.cgi?i=Prunus+persica&t=NL http://biosciencedbc.jp/taxonomy_icon/icon.cgi?i=Prunus...+persica&t=S http://biosciencedbc.jp/taxonomy_icon/icon.cgi?i=Prunus+persica&t=NS ...

  4. Taxonomy Icon Data: apple [Taxonomy Icon

    Lifescience Database Archive (English)

    Full Text Available pumila_NS.png http://biosciencedbc.jp/taxonomy_icon/icon.cgi?i=Malus+pumila&t=L http://biosciencedbc.jp/taxonomy..._icon/icon.cgi?i=Malus+pumila&t=NL http://biosciencedbc.jp/taxonomy_icon/icon.cgi?i=Malus+pumila&t=S http://biosciencedbc.jp/taxonomy_icon/icon.cgi?i=Malus+pumila&t=NS ...

  5. Taxonomy Icon Data: sperm whale [Taxonomy Icon

    Lifescience Database Archive (English)

    Full Text Available ephalus_NS.png http://biosciencedbc.jp/taxonomy_icon/icon.cgi?i=Physeter+macrocephalus&t=L http://biosciencedbc.jp/taxonomy..._icon/icon.cgi?i=Physeter+macrocephalus&t=NL http://biosciencedbc.jp/taxonomy..._icon/icon.cgi?i=Physeter+macrocephalus&t=S http://biosciencedbc.jp/taxonomy_icon/icon.cgi?i=Physeter+macrocephalus&t=NS ...

  6. Taxonomy Icon Data: platypus [Taxonomy Icon

    Lifescience Database Archive (English)

    Full Text Available us_NS.png http://biosciencedbc.jp/taxonomy_icon/icon.cgi?i=Ornithorhynchus+anatinus&t=L http://biosciencedbc.jp/taxonomy..._icon/icon.cgi?i=Ornithorhynchus+anatinus&t=NL http://biosciencedbc.jp/taxonomy..._icon/icon.cgi?i=Ornithorhynchus+anatinus&t=S http://biosciencedbc.jp/taxonomy_icon/icon.cgi?i=Ornithorhynchus+anatinus&t=NS ...

  7. Taxonomy Icon Data: field mustard [Taxonomy Icon

    Lifescience Database Archive (English)

    Full Text Available S.png Brassica_rapa_NS.png http://biosciencedbc.jp/taxonomy_icon/icon.cgi?i=Brassica+rapa&t=L http://biosciencedbc.jp/taxonomy..._icon/icon.cgi?i=Brassica+rapa&t=NL http://biosciencedbc.jp/taxonomy_icon/icon.cgi?i=Brass...ica+rapa&t=S http://biosciencedbc.jp/taxonomy_icon/icon.cgi?i=Brassica+rapa&t=NS ...

  8. Taxonomy Icon Data: oat [Taxonomy Icon

    Lifescience Database Archive (English)

    Full Text Available tiva_NS.png http://biosciencedbc.jp/taxonomy_icon/icon.cgi?i=Avena+sativa&t=L http://biosciencedbc.jp/taxonomy..._icon/icon.cgi?i=Avena+sativa&t=NL http://biosciencedbc.jp/taxonomy_icon/icon.cgi?i=Avena+sativa&t=S http://biosciencedbc.jp/taxonomy_icon/icon.cgi?i=Avena+sativa&t=NS ...

  9. Taxonomy Icon Data: onion [Taxonomy Icon

    Lifescience Database Archive (English)

    Full Text Available a_NS.png http://biosciencedbc.jp/taxonomy_icon/icon.cgi?i=Allium+cepa&t=L http://biosciencedbc.jp/taxonomy_i...con/icon.cgi?i=Allium+cepa&t=NL http://biosciencedbc.jp/taxonomy_icon/icon.cgi?i=Allium+cepa&t=S http://biosciencedbc.jp/taxonomy_icon/icon.cgi?i=Allium+cepa&t=NS ...

  10. Taxonomy Icon Data: purple urchin [Taxonomy Icon

    Lifescience Database Archive (English)

    Full Text Available ratus_NS.png http://biosciencedbc.jp/taxonomy_icon/icon.cgi?i=Strongylocentrotus+purpuratus&t=L http://biosciencedbc.jp/taxonomy..._icon/icon.cgi?i=Strongylocentrotus+purpuratus&t=NL http://biosciencedbc.jp/taxonomy..._icon/icon.cgi?i=Strongylocentrotus+purpuratus&t=S http://biosciencedbc.jp/taxonomy_icon/icon.cgi?i=Strongylocentrotus+purpuratus&t=NS ...

  11. Taxonomy Icon Data: domestic cat [Taxonomy Icon

    Lifescience Database Archive (English)

    Full Text Available tris_catus_NS.png http://biosciencedbc.jp/taxonomy_icon/icon.cgi?i=Felis+silvestris+catus&t=L http://biosciencedbc.jp/taxonomy..._icon/icon.cgi?i=Felis+silvestris+catus&t=NL http://biosciencedbc.jp/taxonomy..._icon/icon.cgi?i=Felis+silvestris+catus&t=S http://biosciencedbc.jp/taxonomy_icon/icon.cgi?i=Felis+silvestris+catus&t=NS ...

  12. Taxonomy Icon Data: raccoon dog [Taxonomy Icon

    Lifescience Database Archive (English)

    Full Text Available reutes_procyonoides_NS.png http://biosciencedbc.jp/taxonomy_icon/icon.cgi?i=Nyctereutes+procyonoides&t=L htt...p://biosciencedbc.jp/taxonomy_icon/icon.cgi?i=Nyctereutes+procyonoides&t=NL http:...//biosciencedbc.jp/taxonomy_icon/icon.cgi?i=Nyctereutes+procyonoides&t=S http://biosciencedbc.jp/taxonomy_icon/icon.cgi?i=Nyctereutes+procyonoides&t=NS ...

  13. Taxonomy Icon Data: valencia orange [Taxonomy Icon

    Lifescience Database Archive (English)

    Full Text Available _sinensis_S.png Citrus_sinensis_NS.png http://biosciencedbc.jp/taxonomy_icon/icon.cgi?i=Citrus+sinensis&t=L ...http://biosciencedbc.jp/taxonomy_icon/icon.cgi?i=Citrus+sinensis&t=NL http://biosciencedbc.jp/taxonomy_icon/...icon.cgi?i=Citrus+sinensis&t=S http://biosciencedbc.jp/taxonomy_icon/icon.cgi?i=Citrus+sinensis&t=NS ...

  14. Taxonomy Icon Data: rabbit [Taxonomy Icon

    Lifescience Database Archive (English)

    Full Text Available g http://biosciencedbc.jp/taxonomy_icon/icon.cgi?i=Oryctolagus+cuniculus&t=L http://biosciencedbc.jp/taxonomy..._icon/icon.cgi?i=Oryctolagus+cuniculus&t=NL http://biosciencedbc.jp/taxonomy_ico...n/icon.cgi?i=Oryctolagus+cuniculus&t=S http://biosciencedbc.jp/taxonomy_icon/icon.cgi?i=Oryctolagus+cuniculus&t=NS ...

  15. Taxonomy Icon Data: white rhinoceros [Taxonomy Icon

    Lifescience Database Archive (English)

    Full Text Available g http://biosciencedbc.jp/taxonomy_icon/icon.cgi?i=Ceratotherium+simum&t=L http://biosciencedbc.jp/taxonomy_...icon/icon.cgi?i=Ceratotherium+simum&t=NL http://biosciencedbc.jp/taxonomy_icon/ic...on.cgi?i=Ceratotherium+simum&t=S http://biosciencedbc.jp/taxonomy_icon/icon.cgi?i=Ceratotherium+simum&t=NS ...

  16. Taxonomy Icon Data: rape [Taxonomy Icon

    Lifescience Database Archive (English)

    Full Text Available Brassica_napus_NS.png http://biosciencedbc.jp/taxonomy_icon/icon.cgi?i=Brassica+napus&t=L http://biosciencedbc.jp/taxonomy..._icon/icon.cgi?i=Brassica+napus&t=NL http://biosciencedbc.jp/taxonomy_icon/icon.cgi?i=Brassic...a+napus&t=S http://biosciencedbc.jp/taxonomy_icon/icon.cgi?i=Brassica+napus&t=NS ...

  17. Taxonomy Icon Data: Grey heron [Taxonomy Icon

    Lifescience Database Archive (English)

    Full Text Available _NL.png Ardea_cinerea_S.png Ardea_cinerea_NS.png http://biosciencedbc.jp/taxonomy_icon/icon.cgi?i=Ardea+cine...rea&t=L http://biosciencedbc.jp/taxonomy_icon/icon.cgi?i=Ardea+cinerea&t=NL http://biosciencedbc.jp/taxonomy..._icon/icon.cgi?i=Ardea+cinerea&t=S http://biosciencedbc.jp/taxonomy_icon/icon.cgi...?i=Ardea+cinerea&t=NS http://togodb.biosciencedbc.jp/togodb/view/taxonomy_icon_comment_en?species_id=2 ...

  18. Taxonomy Icon Data: water bears [Taxonomy Icon

    Lifescience Database Archive (English)

    Full Text Available ng Echiniscus_NS.png http://biosciencedbc.jp/taxonomy_icon/icon.cgi?i=Echiniscus&t=L http://biosciencedbc.jp/taxonomy..._icon/icon.cgi?i=Echiniscus&t=NL http://biosciencedbc.jp/taxonomy_icon/icon.cgi?i=Echiniscus&t=S ht...tp://biosciencedbc.jp/taxonomy_icon/icon.cgi?i=Echiniscus&t=NS http://togodb.biosciencedbc.jp/togodb/view/taxonomy_icon_comment_en?species_id=58 ...

  19. Taxonomy Icon Data: pig [Taxonomy Icon

    Lifescience Database Archive (English)

    Full Text Available g http://biosciencedbc.jp/taxonomy_icon/icon.cgi?i=Sus+scrofa+domestica&t=L http://biosciencedbc.jp/taxonomy..._icon/icon.cgi?i=Sus+scrofa+domestica&t=NL http://biosciencedbc.jp/taxonomy_icon/...icon.cgi?i=Sus+scrofa+domestica&t=S http://biosciencedbc.jp/taxonomy_icon/icon.cgi?i=Sus+scrofa+domestica&t=...NS http://togodb.biosciencedbc.jp/togodb/view/taxonomy_icon_comment_en?species_id=166 ...

  20. Taxonomy Icon Data: Peanut [Taxonomy Icon

    Lifescience Database Archive (English)

    Full Text Available gaea_S.png Arachis_hypogaea_NS.png http://biosciencedbc.jp/taxonomy_icon/icon.cgi?i=Arachis+hypogaea&t=L htt...p://biosciencedbc.jp/taxonomy_icon/icon.cgi?i=Arachis+hypogaea&t=NL http://biosciencedbc.jp/taxonomy_icon/ic...on.cgi?i=Arachis+hypogaea&t=S http://biosciencedbc.jp/taxonomy_icon/icon.cgi?i=Ar...achis+hypogaea&t=NS http://togodb.biosciencedbc.jp/togodb/view/taxonomy_icon_comment_en?species_id=207 ...

  1. Taxonomy Icon Data: mallard [Taxonomy Icon

    Lifescience Database Archive (English)

    Full Text Available latyrhynchos_NL.png Anas_platyrhynchos_S.png Anas_platyrhynchos_NS.png http://biosciencedbc.jp/taxonomy_icon.../icon.cgi?i=Anas+platyrhynchos&t=L http://biosciencedbc.jp/taxonomy_icon/icon.cgi?i=Anas+platyrhynchos&t=NL ...http://biosciencedbc.jp/taxonomy_icon/icon.cgi?i=Anas+platyrhynchos&t=S http://biosciencedbc.jp/taxonomy..._icon/icon.cgi?i=Anas+platyrhynchos&t=NS http://togodb.biosciencedbc.jp/togodb/view/taxonomy_icon_comment_en?species_id=180 ...

  2. Taxonomy Icon Data: Common mormon [Taxonomy Icon

    Lifescience Database Archive (English)

    Full Text Available ng Papilio_polytes_S.png Papilio_polytes_NS.png http://biosciencedbc.jp/taxonomy_icon/icon.cgi?i=Papilio+pol...ytes&t=L http://biosciencedbc.jp/taxonomy_icon/icon.cgi?i=Papilio+polytes&t=NL http://biosciencedbc.jp/taxonomy..._icon/icon.cgi?i=Papilio+polytes&t=S http://biosciencedbc.jp/taxonomy_icon/ico...n.cgi?i=Papilio+polytes&t=NS http://togodb.biosciencedbc.jp/togodb/view/taxonomy_icon_comment_en?species_id=80 ...

  3. Taxonomy Icon Data: Asian Swallowtail [Taxonomy Icon

    Lifescience Database Archive (English)

    Full Text Available png Papilio_xuthus_S.png Papilio_xuthus_NS.png http://biosciencedbc.jp/taxonomy_icon/icon.cgi?i=Papilio+xuth...us&t=L http://biosciencedbc.jp/taxonomy_icon/icon.cgi?i=Papilio+xuthus&t=NL http://biosciencedbc.jp/taxonomy..._icon/icon.cgi?i=Papilio+xuthus&t=S http://biosciencedbc.jp/taxonomy_icon/icon.cg...i?i=Papilio+xuthus&t=NS http://togodb.biosciencedbc.jp/togodb/view/taxonomy_icon_comment_en?species_id=123 ...

  4. Taxonomy Icon Data: Bacillus subtilis [Taxonomy Icon

    Lifescience Database Archive (English)

    Full Text Available g Bacillus_subtilis_S.png Bacillus_subtilis_NS.png http://biosciencedbc.jp/taxonomy_icon/icon.cgi?i=Bacillus...+subtilis&t=L http://biosciencedbc.jp/taxonomy_icon/icon.cgi?i=Bacillus+subtilis&t=NL http://biosciencedbc.jp/taxonomy..._icon/icon.cgi?i=Bacillus+subtilis&t=S http://biosciencedbc.jp/taxonomy..._icon/icon.cgi?i=Bacillus+subtilis&t=NS http://togodb.biosciencedbc.jp/togodb/view/taxonomy_icon_comment_en?species_id=214 ...

  5. Asteroid taxonomy

    Science.gov (United States)

    Tholen, David J.; Barucci, M. Antonietta

    1989-01-01

    The spectral reflectivity of asteroid surfaces over the wavelength range of 0.3 to 1.1 micron can be used to classify these objects into several broad groups with similar spectral characteristics. The three most recently developed taxonomies group the asteroids into 9, 11, or 14 different clases, depending on the technique used to perform the analysis. The distribution of the taxonomic classes shows that darker and redder objects become more dominant at larger heliocentric distances, while the rare asteroid types are found more frequently among the small objects of the planet-crossing population.

  6. Taxonomy Icon Data: Ramazzottius [Taxonomy Icon

    Lifescience Database Archive (English)

    Full Text Available Ramazzottius Ramazzottius Tardigrada Ramazzottius_L.png Ramazzottius_NL.png Ramazzottius_S.png Ramazzotti...us_NS.png http://biosciencedbc.jp/taxonomy_icon/icon.cgi?i=Ramazzottius&t=L http://bio...sciencedbc.jp/taxonomy_icon/icon.cgi?i=Ramazzottius&t=NL http://biosciencedbc.jp/taxonomy_icon/icon.cgi?i=Ramazzotti...us&t=S http://biosciencedbc.jp/taxonomy_icon/icon.cgi?i=Ramazzottius&t=NS

  7. Taxonomy Icon Data: tobacco [Taxonomy Icon

    Lifescience Database Archive (English)

    Full Text Available tobacco Nicotiana tabacum Nicotiana_tabacum_L.png Nicotiana_tabacum_NL.png Nicotiana_tabacum_S.png Nico...tiana_tabacum_NS.png http://biosciencedbc.jp/taxonomy_icon/icon.cgi?i=Nicotiana+tabacum&...t=L http://biosciencedbc.jp/taxonomy_icon/icon.cgi?i=Nicotiana+tabacum&t=NL http://biosciencedbc.jp/taxonomy_icon/icon.cgi?i=Nico...tiana+tabacum&t=S http://biosciencedbc.jp/taxonomy_icon/icon.cgi?i=Nicotiana+tabacum&t=NS ...

  8. Taxonomy Icon Data: sorghum [Taxonomy Icon

    Lifescience Database Archive (English)

    Full Text Available sorghum Sorghum bicolor Sorghum_bicolor_L.png Sorghum_bicolor_NL.png Sorghum_bicolor_S.png Sorghum_bico...lor_NS.png http://biosciencedbc.jp/taxonomy_icon/icon.cgi?i=Sorghum+bicolor&t=L http://b...iosciencedbc.jp/taxonomy_icon/icon.cgi?i=Sorghum+bicolor&t=NL http://biosciencedbc.jp/taxonomy_icon/icon.cgi?i=Sorghum+bico...lor&t=S http://biosciencedbc.jp/taxonomy_icon/icon.cgi?i=Sorghum+bicolor&t=NS ...

  9. Taxonomy Icon Data: Lotus corniculatus [Taxonomy Icon

    Lifescience Database Archive (English)

    Full Text Available Lotus corniculatus Lotus corniculatus Lotus_corniculatus_L.png Lotus_corniculatus_NL.png Lotus_corn...iculatus_S.png Lotus_corniculatus_NS.png http://biosciencedbc.jp/taxonomy_icon/icon.cgi?i=Lotus+corn...iculatus&t=L http://biosciencedbc.jp/taxonomy_icon/icon.cgi?i=Lotus+corniculatus&t=NL http://bioscie...ncedbc.jp/taxonomy_icon/icon.cgi?i=Lotus+corniculatus&t=S http://biosciencedbc.jp/taxonomy_icon/icon.cgi?i=Lotus+corniculatus&t=NS ...

  10. Taxonomy Icon Data: barley [Taxonomy Icon

    Lifescience Database Archive (English)

    Full Text Available barley Hordeum vulgare Hordeum_vulgare_L.png Hordeum_vulgare_NL.png Hordeum_vulgare_S.png Hordeum_vu...lgare_NS.png http://biosciencedbc.jp/taxonomy_icon/icon.cgi?i=Hordeum+vulgare&t=L http://bi...osciencedbc.jp/taxonomy_icon/icon.cgi?i=Hordeum+vulgare&t=NL http://biosciencedbc.jp/taxonomy_icon/icon.cgi?i=Hordeum+vu...lgare&t=S http://biosciencedbc.jp/taxonomy_icon/icon.cgi?i=Hordeum+vulgare&t=NS ...

  11. Taxonomy Icon Data: radish [Taxonomy Icon

    Lifescience Database Archive (English)

    Full Text Available radish Raphanus sativus Raphanus_sativus_L.png Raphanus_sativus_NL.png Raphanus_sativu...s_S.png Raphanus_sativus_NS.png http://biosciencedbc.jp/taxonomy_icon/icon.cgi?i=Raphanus+sativus&t=L htt...p://biosciencedbc.jp/taxonomy_icon/icon.cgi?i=Raphanus+sativus&t=NL http://biosciencedbc.jp/taxonomy_icon/icon.cgi?i=Raphanus+sativu...s&t=S http://biosciencedbc.jp/taxonomy_icon/icon.cgi?i=Raphanus+sativus&t=NS ...

  12. Taxonomy Icon Data: thale cress [Taxonomy Icon

    Lifescience Database Archive (English)

    Full Text Available .png Arabidopsis_thaliana_S.png Arabidopsis_thaliana_NS.png http://biosciencedbc.jp/taxonomy_icon/icon.cgi?i...=Arabidopsis+thaliana&t=L http://biosciencedbc.jp/taxonomy_icon/icon.cgi?i=Arabidopsis+thaliana&t=NL http://...biosciencedbc.jp/taxonomy_icon/icon.cgi?i=Arabidopsis+thaliana&t=S http://biosciencedbc.jp/taxonomy_icon/icon.cgi?i=Arabidopsis+thaliana&t=NS ...

  13. Taxonomy Icon Data: alpaca [Taxonomy Icon

    Lifescience Database Archive (English)

    Full Text Available gna_pacos_L.png Vicugna_pacos_NL.png Vicugna_pacos_S.png Vicugna_pacos_NS.png http://biosciencedbc.jp/taxonomy..._icon/icon.cgi?i=Vicugna+pacos&t=L http://biosciencedbc.jp/taxonomy_icon/icon.cgi?i=Vicugna+pacos&t=NL htt...p://biosciencedbc.jp/taxonomy_icon/icon.cgi?i=Vicugna+pacos&t=S http://biosciencedbc.jp/taxonomy_icon/icon.cgi?i=Vicugna+pacos&t=NS ...

  14. Taxonomy Icon Data: dugong [Taxonomy Icon

    Lifescience Database Archive (English)

    Full Text Available L.png Dugong_dugon_NL.png Dugong_dugon_S.png Dugong_dugon_NS.png http://biosciencedbc.jp/taxonomy_icon/icon....cgi?i=Dugong+dugon&t=L http://biosciencedbc.jp/taxonomy_icon/icon.cgi?i=Dugong+dugon&t=NL http://biosciencedbc.jp/taxonomy..._icon/icon.cgi?i=Dugong+dugon&t=S http://biosciencedbc.jp/taxonomy_icon/icon.cgi?i=Dugong+dugon&t=NS ...

  15. Taxonomy Icon Data: llama [Taxonomy Icon

    Lifescience Database Archive (English)

    Full Text Available ma_L.png Lama_glama_NL.png Lama_glama_S.png Lama_glama_NS.png http://biosciencedbc.jp/taxonomy_icon/icon.cgi...?i=Lama+glama&t=L http://biosciencedbc.jp/taxonomy_icon/icon.cgi?i=Lama+glama&t=NL http://biosciencedbc.jp/taxonomy..._icon/icon.cgi?i=Lama+glama&t=S http://biosciencedbc.jp/taxonomy_icon/icon.cgi?i=Lama+glama&t=NS ...

  16. Taxonomy Icon Data: Aardvark [Taxonomy Icon

    Lifescience Database Archive (English)

    Full Text Available opus_afer_L.png Orycteropus_afer_NL.png Orycteropus_afer_S.png Orycteropus_afer_NS.png http://biosciencedbc.jp/taxonomy..._icon/icon.cgi?i=Orycteropus+afer&t=L http://biosciencedbc.jp/taxonomy_icon/icon.cgi?i=Orycteropu...s+afer&t=NL http://biosciencedbc.jp/taxonomy_icon/icon.cgi?i=Orycteropus+afer&t=S http://biosciencedbc.jp/taxonomy_icon/icon.cgi?i=Orycteropus+afer&t=NS ...

  17. Taxonomy Icon Data: tuatara [Taxonomy Icon

    Lifescience Database Archive (English)

    Full Text Available png Sphenodon_punctatus_NL.png Sphenodon_punctatus_S.png Sphenodon_punctatus_NS.png http://biosciencedbc.jp/taxonomy..._icon/icon.cgi?i=Sphenodon+punctatus&t=L http://biosciencedbc.jp/taxonomy_icon/icon.cgi?i=Sphenodon+...punctatus&t=NL http://biosciencedbc.jp/taxonomy_icon/icon.cgi?i=Sphenodon+punctat...us&t=S http://biosciencedbc.jp/taxonomy_icon/icon.cgi?i=Sphenodon+punctatus&t=NS ...

  18. Taxonomy Icon Data: Chile pepper [Taxonomy Icon

    Lifescience Database Archive (English)

    Full Text Available annuum_S.png Capsicum_annuum_NS.png http://biosciencedbc.jp/taxonomy_icon/icon.cgi?i=Capsicum+annuum&t=L htt...p://biosciencedbc.jp/taxonomy_icon/icon.cgi?i=Capsicum+annuum&t=NL http://biosciencedbc.jp/taxonomy_icon/ico...n.cgi?i=Capsicum+annuum&t=S http://biosciencedbc.jp/taxonomy_icon/icon.cgi?i=Capsicum+annuum&t=NS ...

  19. Taxonomy Icon Data: wild goat [Taxonomy Icon

    Lifescience Database Archive (English)

    Full Text Available Capra_aegagrus_L.png Capra_aegagrus_NL.png Capra_aegagrus_S.png Capra_aegagrus_NS.png http://biosciencedbc.jp/taxonomy..._icon/icon.cgi?i=Capra+aegagrus&t=L http://biosciencedbc.jp/taxonomy_icon/icon.cgi?i=Capra+aegagru...s&t=NL http://biosciencedbc.jp/taxonomy_icon/icon.cgi?i=Capra+aegagrus&t=S http://biosciencedbc.jp/taxonomy_icon/icon.cgi?i=Capra+aegagrus&t=NS ...

  20. Taxonomy Icon Data: sika deer [Taxonomy Icon

    Lifescience Database Archive (English)

    Full Text Available ervus_nippon_L.png Cervus_nippon_NL.png Cervus_nippon_S.png Cervus_nippon_NS.png http://biosciencedbc.jp/taxonomy..._icon/icon.cgi?i=Cervus+nippon&t=L http://biosciencedbc.jp/taxonomy_icon/icon.cgi?i=Cervus+nippon&t=NL ...http://biosciencedbc.jp/taxonomy_icon/icon.cgi?i=Cervus+nippon&t=S http://biosciencedbc.jp/taxonomy_icon/icon.cgi?i=Cervus+nippon&t=NS ...

  1. Taxonomy Icon Data: fruit fly [Taxonomy Icon

    Lifescience Database Archive (English)

    Full Text Available la_melanogaster_NL.png Drosophila_melanogaster_S.png Drosophila_melanogaster_NS.png http://biosciencedbc.jp/taxonomy..._icon/icon.cgi?i=Drosophila+melanogaster&t=L http://biosciencedbc.jp/taxonomy_icon/icon.cgi?i=Drosop...hila+melanogaster&t=NL http://biosciencedbc.jp/taxonomy_icon/icon.cgi?i=Drosophil...a+melanogaster&t=S http://biosciencedbc.jp/taxonomy_icon/icon.cgi?i=Drosophila+melanogaster&t=NS ...

  2. Taxonomy Icon Data: rhesus monkey [Taxonomy Icon

    Lifescience Database Archive (English)

    Full Text Available acaca_mulatta_L.png Macaca_mulatta_NL.png Macaca_mulatta_S.png Macaca_mulatta_NS.png http://biosciencedbc.jp/taxonomy..._icon/icon.cgi?i=Macaca+mulatta&t=L http://biosciencedbc.jp/taxonomy_icon/icon.cgi?i=Macaca+mulatta...&t=NL http://biosciencedbc.jp/taxonomy_icon/icon.cgi?i=Macaca+mulatta&t=S http://biosciencedbc.jp/taxonomy_icon/icon.cgi?i=Macaca+mulatta&t=NS ...

  3. Taxonomy Icon Data: bread wheat [Taxonomy Icon

    Lifescience Database Archive (English)

    Full Text Available icum_aestivum_S.png Triticum_aestivum_NS.png http://biosciencedbc.jp/taxonomy_icon/icon.cgi?i=Triticum+aesti...vum&t=L http://biosciencedbc.jp/taxonomy_icon/icon.cgi?i=Triticum+aestivum&t=NL http://biosciencedbc.jp/taxonomy..._icon/icon.cgi?i=Triticum+aestivum&t=S http://biosciencedbc.jp/taxonomy_icon/icon.cgi?i=Triticum+aestivum&t=NS ...

  4. Taxonomy Icon Data: wild radish [Taxonomy Icon

    Lifescience Database Archive (English)

    Full Text Available _NL.png Raphanus_raphanistrum_S.png Raphanus_raphanistrum_NS.png http://biosciencedbc.jp/taxonomy_icon/icon....cgi?i=Raphanus+raphanistrum&t=L http://biosciencedbc.jp/taxonomy_icon/icon.cgi?i=Raphanus+raphanistrum&t=NL ...http://biosciencedbc.jp/taxonomy_icon/icon.cgi?i=Raphanus+raphanistrum&t=S http://biosciencedbc.jp/taxonomy_icon/icon.cgi?i=Raphanus+raphanistrum&t=NS ...

  5. Taxonomy Icon Data: tiger puffer [Taxonomy Icon

    Lifescience Database Archive (English)

    Full Text Available png Takifugu_rubripes_NL.png Takifugu_rubripes_S.png Takifugu_rubripes_NS.png http://biosciencedbc.jp/taxonomy..._icon/icon.cgi?i=Takifugu+rubripes&t=L http://biosciencedbc.jp/taxonomy_icon/icon.cgi?i=Takifugu+rubripes&...t=NL http://biosciencedbc.jp/taxonomy_icon/icon.cgi?i=Takifugu+rubripes&t=S http://biosciencedbc.jp/taxonomy_icon/icon.cgi?i=Takifugu+rubripes&t=NS ...

  6. Taxonomy Icon Data: moose [Taxonomy Icon

    Lifescience Database Archive (English)

    Full Text Available lces_L.png Alces_alces_NL.png Alces_alces_S.png Alces_alces_NS.png http://biosciencedbc.jp/taxonomy_icon/ico...n.cgi?i=Alces+alces&t=L http://biosciencedbc.jp/taxonomy_icon/icon.cgi?i=Alces+alces&t=NL http://biosciencedbc.jp/taxonomy..._icon/icon.cgi?i=Alces+alces&t=S http://biosciencedbc.jp/taxonomy_icon/icon.cgi?i=Alces+alces&t=NS ...

  7. Taxonomy Icon Data: chicken [Taxonomy Icon

    Lifescience Database Archive (English)

    Full Text Available .png Gallus_gallus_S.png Gallus_gallus_NS.png http://biosciencedbc.jp/taxonomy_icon/icon.cgi?i=Gallus+gallus...&t=L http://biosciencedbc.jp/taxonomy_icon/icon.cgi?i=Gallus+gallus&t=NL http://biosciencedbc.jp/taxonomy_ic...on/icon.cgi?i=Gallus+gallus&t=S http://biosciencedbc.jp/taxonomy_icon/icon.cgi?i=Gallus+gallus&t=NS ...

  8. Taxonomy Icon Data: red fox [Taxonomy Icon

    Lifescience Database Archive (English)

    Full Text Available _vulpes_L.png Vulpes_vulpes_NL.png Vulpes_vulpes_S.png Vulpes_vulpes_NS.png http://biosciencedbc.jp/taxonomy..._icon/icon.cgi?i=Vulpes+vulpes&t=L http://biosciencedbc.jp/taxonomy_icon/icon.cgi?i=Vulpes+vulpes&t=NL http:...//biosciencedbc.jp/taxonomy_icon/icon.cgi?i=Vulpes+vulpes&t=S http://biosciencedbc.jp/taxonomy_icon/icon.cgi?i=Vulpes+vulpes&t=NS ...

  9. Taxonomy Icon Data: pea aphid [Taxonomy Icon

    Lifescience Database Archive (English)

    Full Text Available sum_NL.png Acyrthosiphon_pisum_S.png Acyrthosiphon_pisum_NS.png http://biosciencedbc.jp/taxonomy_icon/icon.c...gi?i=Acyrthosiphon+pisum&t=L http://biosciencedbc.jp/taxonomy_icon/icon.cgi?i=Acyrthosiphon+pisum&t=NL http:...//biosciencedbc.jp/taxonomy_icon/icon.cgi?i=Acyrthosiphon+pisum&t=S http://biosciencedbc.jp/taxonomy_icon/icon.cgi?i=Acyrthosiphon+pisum&t=NS ...

  10. Taxonomy Icon Data: zebra finch [Taxonomy Icon

    Lifescience Database Archive (English)

    Full Text Available Taeniopygia_guttata_NL.png Taeniopygia_guttata_S.png Taeniopygia_guttata_NS.png http://biosciencedbc.jp/taxonomy..._icon/icon.cgi?i=Taeniopygia+guttata&t=L http://biosciencedbc.jp/taxonomy_icon/icon.cgi?i=Taeniopygia+gu...ttata&t=NL http://biosciencedbc.jp/taxonomy_icon/icon.cgi?i=Taeniopygia+guttata&t...=S http://biosciencedbc.jp/taxonomy_icon/icon.cgi?i=Taeniopygia+guttata&t=NS ...

  11. Taxonomy Icon Data: upland cotton [Taxonomy Icon

    Lifescience Database Archive (English)

    Full Text Available Gossypium_hirsutum_S.png Gossypium_hirsutum_NS.png http://biosciencedbc.jp/taxonomy_icon/icon.cgi?i=Gossypi...um+hirsutum&t=L http://biosciencedbc.jp/taxonomy_icon/icon.cgi?i=Gossypium+hirsutum&t=NL http://biosciencedbc.jp/taxonomy..._icon/icon.cgi?i=Gossypium+hirsutum&t=S http://biosciencedbc.jp/taxonomy_icon/icon.cgi?i=Gossypium+hirsutum&t=NS ...

  12. Taxonomy Icon Data: fission yeast [Taxonomy Icon

    Lifescience Database Archive (English)

    Full Text Available fission yeast Schizosaccharomyces pombe Schizosaccharomyces_pombe_L.png Schizosaccharomy...ces_pombe_NL.png Schizosaccharomyces_pombe_S.png Schizosaccharomyces_pombe_NS.png http://biosciencedbc.jp/taxonomy..._icon/icon.cgi?i=Schizosaccharomyces+pombe&t=L http://biosciencedbc.jp/taxonomy_icon/icon.cgi?i=Schizosaccharomy...ces+pombe&t=NL http://biosciencedbc.jp/taxonomy_icon/icon.cgi?i=Schizosaccharomy...ces+pombe&t=S http://biosciencedbc.jp/taxonomy_icon/icon.cgi?i=Schizosaccharomyces+pombe&t=NS

  13. Taxonomy Icon Data: rat [Taxonomy Icon

    Lifescience Database Archive (English)

    Full Text Available egicus_L.png Rattus_norvegicus_NL.png Rattus_norvegicus_S.png Rattus_norvegicus_NS.png http://biosciencedbc.jp/taxonomy..._icon/icon.cgi?i=Rattus+norvegicus&t=L http://biosciencedbc.jp/taxonomy_icon/icon.cgi?i=Rattus+no...rvegicus&t=NL http://biosciencedbc.jp/taxonomy_icon/icon.cgi?i=Rattus+norvegicus&...t=S http://biosciencedbc.jp/taxonomy_icon/icon.cgi?i=Rattus+norvegicus&t=NS ...

  14. Taxonomy Icon Data: wapiti [Taxonomy Icon

    Lifescience Database Archive (English)

    Full Text Available Cervus_canadensis_L.png Cervus_canadensis_NL.png Cervus_canadensis_S.png Cervus_canadensis_NS.png http://biosciencedbc.jp/taxonomy..._icon/icon.cgi?i=Cervus+canadensis&t=L http://biosciencedbc.jp/taxonomy_icon/icon.cgi?...i=Cervus+canadensis&t=NL http://biosciencedbc.jp/taxonomy_icon/icon.cgi?i=Cervus+...canadensis&t=S http://biosciencedbc.jp/taxonomy_icon/icon.cgi?i=Cervus+canadensis&t=NS ...

  15. Taxonomy Icon Data: mummichog [Taxonomy Icon

    Lifescience Database Archive (English)

    Full Text Available us_L.png Fundulus_heteroclitus_NL.png Fundulus_heteroclitus_S.png Fundulus_heteroclitus_NS.png http://biosciencedbc.jp/taxonomy..._icon/icon.cgi?i=Fundulus+heteroclitus&t=L http://biosciencedbc.jp/taxonomy_icon/icon.cgi...?i=Fundulus+heteroclitus&t=NL http://biosciencedbc.jp/taxonomy_icon/icon.cgi?i=Fu...ndulus+heteroclitus&t=S http://biosciencedbc.jp/taxonomy_icon/icon.cgi?i=Fundulus+heteroclitus&t=NS ...

  16. Taxonomy Icon Data: brown bear [Taxonomy Icon

    Lifescience Database Archive (English)

    Full Text Available s_arctos_L.png Ursus_arctos_NL.png Ursus_arctos_S.png Ursus_arctos_NS.png http://biosciencedbc.jp/taxonomy_i...con/icon.cgi?i=Ursus+arctos&t=L http://biosciencedbc.jp/taxonomy_icon/icon.cgi?i=Ursus+arctos&t=NL http://biosciencedbc.jp/taxonomy..._icon/icon.cgi?i=Ursus+arctos&t=S http://biosciencedbc.jp/taxonomy_icon/icon.cgi?i=Ursus+arctos&t=NS ...

  17. Taxonomy Icon Data: sunflower [Taxonomy Icon

    Lifescience Database Archive (English)

    Full Text Available thus_annuus_S.png Helianthus_annuus_NS.png http://biosciencedbc.jp/taxonomy_icon/icon.cgi?i=Helianthus+annuu...s&t=L http://biosciencedbc.jp/taxonomy_icon/icon.cgi?i=Helianthus+annuus&t=NL http://biosciencedbc.jp/taxonomy..._icon/icon.cgi?i=Helianthus+annuus&t=S http://biosciencedbc.jp/taxonomy_icon/icon.cgi?i=Helianthus+annuus&t=NS ...

  18. Taxonomy Icon Data: white shark [Taxonomy Icon

    Lifescience Database Archive (English)

    Full Text Available harias_L.png Carcharodon_carcharias_NL.png Carcharodon_carcharias_S.png Carcharodon_carcharias_NS.png http:/.../biosciencedbc.jp/taxonomy_icon/icon.cgi?i=Carcharodon+carcharias&t=L http://biosciencedbc.jp/taxonomy_icon/...icon.cgi?i=Carcharodon+carcharias&t=NL http://biosciencedbc.jp/taxonomy_icon/icon....cgi?i=Carcharodon+carcharias&t=S http://biosciencedbc.jp/taxonomy_icon/icon.cgi?i=Carcharodon+carcharias&t=NS ...

  19. Taxonomy Icon Data: tiger [Taxonomy Icon

    Lifescience Database Archive (English)

    Full Text Available ra_tigris_L.png Panthera_tigris_NL.png Panthera_tigris_S.png Panthera_tigris_NS.png http://biosciencedbc.jp/taxonomy..._icon/icon.cgi?i=Panthera+tigris&t=L http://biosciencedbc.jp/taxonomy_icon/icon.cgi?i=Panthera+tigri...s&t=NL http://biosciencedbc.jp/taxonomy_icon/icon.cgi?i=Panthera+tigris&t=S http://biosciencedbc.jp/taxonomy_icon/icon.cgi?i=Panthera+tigris&t=NS ...

  20. Taxonomy Icon Data: turkey [Taxonomy Icon

    Lifescience Database Archive (English)

    Full Text Available gris_gallopavo_NL.png Meleagris_gallopavo_S.png Meleagris_gallopavo_NS.png http://biosciencedbc.jp/taxonomy_...icon/icon.cgi?i=Meleagris+gallopavo&t=L http://biosciencedbc.jp/taxonomy_icon/icon.cgi?i=Meleagris+gallopavo...&t=NL http://biosciencedbc.jp/taxonomy_icon/icon.cgi?i=Meleagris+gallopavo&t=S http://biosciencedbc.jp/taxonomy_icon/icon.cgi?i=Meleagris+gallopavo&t=NS ...

  1. Taxonomy Icon Data: sea urchin [Taxonomy Icon

    Lifescience Database Archive (English)

    Full Text Available rotus_lividus_NL.png Paracentrotus_lividus_S.png Paracentrotus_lividus_NS.png http://biosciencedbc.jp/taxonomy..._icon/icon.cgi?i=Paracentrotus+lividus&t=L http://biosciencedbc.jp/taxonomy_icon/icon.cgi?i=Paracentrotus+...lividus&t=NL http://biosciencedbc.jp/taxonomy_icon/icon.cgi?i=Paracentrotus+livid...us&t=S http://biosciencedbc.jp/taxonomy_icon/icon.cgi?i=Paracentrotus+lividus&t=NS ...

  2. Taxonomy Icon Data: Sea anemone [Taxonomy Icon

    Lifescience Database Archive (English)

    Full Text Available nia_equina_S.png Actinia_equina_NS.png http://biosciencedbc.jp/taxonomy_icon/icon.cgi?i=Actinia+equina&t=L h...ttp://biosciencedbc.jp/taxonomy_icon/icon.cgi?i=Actinia+equina&t=NL http://biosciencedbc.jp/taxonomy_icon/ic...on.cgi?i=Actinia+equina&t=S http://biosciencedbc.jp/taxonomy_icon/icon.cgi?i=Actinia+equina&t=NS ...

  3. Taxonomy Icon Data: Asiatic tapir [Taxonomy Icon

    Lifescience Database Archive (English)

    Full Text Available irus_indicus_L.png Tapirus_indicus_NL.png Tapirus_indicus_S.png Tapirus_indicus_NS.png http://biosciencedbc.jp/taxonomy..._icon/icon.cgi?i=Tapirus+indicus&t=L http://biosciencedbc.jp/taxonomy_icon/icon.cgi?i=Tapirus+ind...icus&t=NL http://biosciencedbc.jp/taxonomy_icon/icon.cgi?i=Tapirus+indicus&t=S http://biosciencedbc.jp/taxonomy_icon/icon.cgi?i=Tapirus+indicus&t=NS ...

  4. Taxonomy Icon Data: reindeer [Taxonomy Icon

    Lifescience Database Archive (English)

    Full Text Available a Rangifer_tarandus_L.png Rangifer_tarandus_NL.png Rangifer_tarandus_S.png Rangifer_tarandus_NS.png http://biosciencedbc.jp/taxonomy..._icon/icon.cgi?i=Rangifer+tarandus&t=L http://biosciencedbc.jp/taxonomy_icon/icon.cg...i?i=Rangifer+tarandus&t=NL http://biosciencedbc.jp/taxonomy_icon/icon.cgi?i=Rangi...fer+tarandus&t=S http://biosciencedbc.jp/taxonomy_icon/icon.cgi?i=Rangifer+tarandus&t=NS ...

  5. Taxonomy Icon Data: Cryptococcus neoformans [Taxonomy Icon

    Lifescience Database Archive (English)

    Full Text Available Cryptococcus neoformans Filobasidiella neoformans Filobasidiella_neoformans_L.png Filobasidiella_neoforman...s_NL.png Filobasidiella_neoformans_S.png Filobasidiella_neoformans_NS.png http://bios...ciencedbc.jp/taxonomy_icon/icon.cgi?i=Filobasidiella+neoformans&t=L http://biosciencedbc.jp/taxonomy_icon/ic...on.cgi?i=Filobasidiella+neoformans&t=NL http://biosciencedbc.jp/taxonomy_icon/ico...n.cgi?i=Filobasidiella+neoformans&t=S http://biosciencedbc.jp/taxonomy_icon/icon.cgi?i=Filobasidiella+neoforman

  6. Taxonomy Icon Data: Polysphondylium pallidum [Taxonomy Icon

    Lifescience Database Archive (English)

    Full Text Available Polysphondylium pallidum Polysphondylium pallidum Polysphondylium_pallidum_L.png Polysphondylium_pall...idum_NL.png Polysphondylium_pallidum_S.png Polysphondylium_pallidum_NS.png http://bioscien...cedbc.jp/taxonomy_icon/icon.cgi?i=Polysphondylium+pallidum&t=L http://biosciencedbc.jp/taxonomy_icon/icon.cgi?i=Polysphondylium+pall...idum&t=NL http://biosciencedbc.jp/taxonomy_icon/icon.cgi?i=Polysphondylium+pall...idum&t=S http://biosciencedbc.jp/taxonomy_icon/icon.cgi?i=Polysphondylium+pallidum&t=N

  7. Taxonomy Icon Data: garden lettuce [Taxonomy Icon

    Lifescience Database Archive (English)

    Full Text Available garden lettuce Lactuca sativa Lactuca_sativa_L.png Lactuca_sativa_NL.png Lactuca_sativa_S.png Lactuca..._sativa_NS.png http://biosciencedbc.jp/taxonomy_icon/icon.cgi?i=Lactuca+sativa&t=L http://...biosciencedbc.jp/taxonomy_icon/icon.cgi?i=Lactuca+sativa&t=NL http://biosciencedbc.jp/taxonomy_icon/icon.cgi?i=Lactuca...+sativa&t=S http://biosciencedbc.jp/taxonomy_icon/icon.cgi?i=Lactuca+sativa&t=NS ...

  8. Taxonomy Icon Data: giraffe [Taxonomy Icon

    Lifescience Database Archive (English)

    Full Text Available giraffe Giraffa camelopardalis Chordata/Vertebrata/Mammalia/Theria/Eutheria/Artioda...pardalis_NS.png http://biosciencedbc.jp/taxonomy_icon/icon.cgi?i=Giraffa+camelopardalis&t=L http://bioscienc...edbc.jp/taxonomy_icon/icon.cgi?i=Giraffa+camelopardalis&t=NL http://biosciencedbc....jp/taxonomy_icon/icon.cgi?i=Giraffa+camelopardalis&t=S http://biosciencedbc.jp/taxonomy_icon/icon.cgi?i=Giraffa+camelopardalis&t=NS ...

  9. Taxonomy Icon Data: Danio rerio [Taxonomy Icon

    Lifescience Database Archive (English)

    Full Text Available Danio rerio Danio rerio Chordata/Vertebrata/Pisciformes Danio_rerio_L.png Danio_rerio_NL.png Danio_rerio..._S.png Danio_rerio_NS.png http://biosciencedbc.jp/taxonomy_icon/icon.cgi?i=Danio+rerio&...t=L http://biosciencedbc.jp/taxonomy_icon/icon.cgi?i=Danio+rerio&t=NL http://biosciencedbc.jp/taxonomy_icon/icon.cgi?i=Danio+rerio...&t=S http://biosciencedbc.jp/taxonomy_icon/icon.cgi?i=Danio+rerio

  10. Taxonomy Icon Data: barrel medic [Taxonomy Icon

    Lifescience Database Archive (English)

    Full Text Available barrel medic Medicago truncatula Medicago_truncatula_L.png Medicago_truncatula_NL.png Medica...go_truncatula_S.png Medicago_truncatula_NS.png http://biosciencedbc.jp/taxonomy_icon/icon.cgi?i=Medica...go+truncatula&t=L http://biosciencedbc.jp/taxonomy_icon/icon.cgi?i=Medicago+truncatula&t=NL http://biosci...encedbc.jp/taxonomy_icon/icon.cgi?i=Medicago+truncatula&t=S http://biosciencedbc.jp/taxonomy_icon/icon.cgi?i=Medicago+truncatula&t=NS ...

  11. Taxonomy Icon Data: soybean [Taxonomy Icon

    Lifescience Database Archive (English)

    Full Text Available soybean Glycine max Glycine_max_L.png Glycine_max_NL.png Glycine_max_S.png Glycine_max..._NS.png http://biosciencedbc.jp/taxonomy_icon/icon.cgi?i=Glycine+max&t=L http://biosciencedbc.jp/taxonomy..._icon/icon.cgi?i=Glycine+max&t=NL http://biosciencedbc.jp/taxonomy_icon/icon.cgi?i=Glycine+max&t=S http://biosciencedbc.jp/taxonomy_icon/icon.cgi?i=Glycine+max&t=NS ...

  12. Taxonomy Icon Data: Aquilegia formosa [Taxonomy Icon

    Lifescience Database Archive (English)

    Full Text Available Aquilegia formosa Aquilegia formosa Aquilegia_formosa_L.png Aquilegia_formosa_NL.png Aquilegia..._formosa_S.png Aquilegia_formosa_NS.png http://biosciencedbc.jp/taxonomy_icon/icon.cgi?i=Aquilegia...+formosa&t=L http://biosciencedbc.jp/taxonomy_icon/icon.cgi?i=Aquilegia+formosa&t=NL http://biosciencedbc.j...p/taxonomy_icon/icon.cgi?i=Aquilegia+formosa&t=S http://biosciencedbc.jp/taxonomy_icon/icon.cgi?i=Aquilegia+formosa&t=NS ...

  13. Taxonomy Icon Data: Aegilops speltoides [Taxonomy Icon

    Lifescience Database Archive (English)

    Full Text Available Aegilops speltoides Aegilops speltoides Aegilops_speltoides_L.png Aegilops_speltoides_NL.png Aegilop...s_speltoides_S.png Aegilops_speltoides_NS.png http://biosciencedbc.jp/taxonomy_icon/icon.cgi?i=Aegilop...s+speltoides&t=L http://biosciencedbc.jp/taxonomy_icon/icon.cgi?i=Aegilops+speltoides&t=NL http:/.../biosciencedbc.jp/taxonomy_icon/icon.cgi?i=Aegilops+speltoides&t=S http://biosciencedbc.jp/taxonomy_icon/icon.cgi?i=Aegilops+speltoides&t=NS ...

  14. Taxonomy Icon Data: phylum Xenoturbellida [Taxonomy Icon

    Lifescience Database Archive (English)

    Full Text Available phylum Xenoturbellida Xenoturbella bocki Xenoturbellida Xenoturbella_bocki_L.png Xenoturbell...a_bocki_NL.png Xenoturbella_bocki_S.png Xenoturbella_bocki_NS.png http://biosciencedbc.jp/taxonomy_...icon/icon.cgi?i=Xenoturbella+bocki&t=L http://biosciencedbc.jp/taxonomy_icon/icon.cgi?i=Xenoturbella+bocki&t...=NL http://biosciencedbc.jp/taxonomy_icon/icon.cgi?i=Xenoturbella+bocki&t=S http://biosciencedbc.jp/taxonomy_icon/icon.cgi?i=Xenoturbella+bocki&t=NS ...

  15. Taxonomy Icon Data: potato [Taxonomy Icon

    Lifescience Database Archive (English)

    Full Text Available potato Solanum tuberosum Solanum_tuberosum_L.png Solanum_tuberosum_NL.png Solanum_tuber...osum_S.png Solanum_tuberosum_NS.png http://biosciencedbc.jp/taxonomy_icon/icon.cgi?i=Solanum+tuberosum&t...=L http://biosciencedbc.jp/taxonomy_icon/icon.cgi?i=Solanum+tuberosum&t=NL http://biosciencedbc.jp/taxonomy_...icon/icon.cgi?i=Solanum+tuberosum&t=S http://biosciencedbc.jp/taxonomy_icon/icon.cgi?i=Solanum+tuberosum&t=NS ...

  16. Taxonomy Icon Data: black cottonwood [Taxonomy Icon

    Lifescience Database Archive (English)

    Full Text Available black cottonwood Populus trichocarpa Populus_trichocarpa_L.png Populus_trichocarpa_...NL.png Populus_trichocarpa_S.png Populus_trichocarpa_NS.png http://biosciencedbc.jp/taxonomy_icon/icon.cgi?i...=Populus+trichocarpa&t=L http://biosciencedbc.jp/taxonomy_icon/icon.cgi?i=Populus+trichocarpa&t=NL http://bi...osciencedbc.jp/taxonomy_icon/icon.cgi?i=Populus+trichocarpa&t=S http://biosciencedbc.jp/taxonomy_icon/icon.cgi?i=Populus+trichocarpa&t=NS ...

  17. Taxonomy Icon Data: Dictyostelium discoideum [Taxonomy Icon

    Lifescience Database Archive (English)

    Full Text Available Dictyostelium discoideum Dictyostelium discoideum Dictyostelium_discoideum_L.png Dictyostelium_disco...ideum_NL.png Dictyostelium_discoideum_S.png Dictyostelium_discoideum_NS.png http://biosciencedbc.jp/taxonomy_ico...n/icon.cgi?i=Dictyostelium+discoideum&t=L http://biosciencedbc.jp/taxonomy_icon/icon.cgi?i=Dictyostelium+disco...ideum&t=NL http://biosciencedbc.jp/taxonomy_icon/icon.cgi?i=Dictyostelium+disco...ideum&t=S http://biosciencedbc.jp/taxonomy_icon/icon.cgi?i=Dictyostelium+discoideum&t=N

  18. Taxonomy Icon Data: honey bee [Taxonomy Icon

    Lifescience Database Archive (English)

    Full Text Available honey bee Apis mellifera Arthropoda Apis_mellifera_L.png Apis_mellifera_NL.png Apis_mellife...ra_S.png Apis_mellifera_NS.png http://biosciencedbc.jp/taxonomy_icon/icon.cgi?i=Apis+mellifera&t=L h...ttp://biosciencedbc.jp/taxonomy_icon/icon.cgi?i=Apis+mellifera&t=NL http://biosciencedbc.jp/taxonomy_icon/icon.cgi?i=Apis+mellife...ra&t=S http://biosciencedbc.jp/taxonomy_icon/icon.cgi?i=Apis+mellifera&t=NS ...

  19. Taxonomy Icon Data: Sitka spruce [Taxonomy Icon

    Lifescience Database Archive (English)

    Full Text Available Sitka spruce Picea sitchensis Picea_sitchensis_L.png Picea_sitchensis_NL.png Picea_sitchensi...s_S.png Picea_sitchensis_NS.png http://biosciencedbc.jp/taxonomy_icon/icon.cgi?i=Picea+sitchensis&t...=L http://biosciencedbc.jp/taxonomy_icon/icon.cgi?i=Picea+sitchensis&t=NL http://biosciencedbc.jp/taxonomy_icon/icon.cgi?i=Picea+si...tchensis&t=S http://biosciencedbc.jp/taxonomy_icon/icon.cgi?i=Picea+sitchensis&t=NS ...

  20. Taxonomy Icon Data: white spruce [Taxonomy Icon

    Lifescience Database Archive (English)

    Full Text Available white spruce Picea glauca Picea_glauca_L.png Picea_glauca_NL.png Picea_glauca_S.png Pic...ea_glauca_NS.png http://biosciencedbc.jp/taxonomy_icon/icon.cgi?i=Picea+glauca&t=L http://biosciencedbc....jp/taxonomy_icon/icon.cgi?i=Picea+glauca&t=NL http://biosciencedbc.jp/taxonomy_icon/icon.cgi?i=Picea+glauca&t=S http://biosciencedbc.jp/taxonomy_icon/icon.cgi?i=Picea+glauca&t=NS ...

  1. Taxonomy Icon Data: Guinea baboon [Taxonomy Icon

    Lifescience Database Archive (English)

    Full Text Available o_papio_L.png Papio_papio_NL.png Papio_papio_S.png Papio_papio_NS.png http://biosciencedbc.jp/taxonomy_icon/...icon.cgi?i=Papio+papio&t=L http://biosciencedbc.jp/taxonomy_icon/icon.cgi?i=Papio+papio&t=NL http://biosciencedbc.jp/taxonomy..._icon/icon.cgi?i=Papio+papio&t=S http://biosciencedbc.jp/taxonomy_icon/icon.cgi?i=Papio+papio&t=NS ...

  2. Taxonomy Icon Data: Comb jelly [Taxonomy Icon

    Lifescience Database Archive (English)

    Full Text Available cucumis_S.png Beroe_cucumis_NS.png http://biosciencedbc.jp/taxonomy_icon/icon.cgi?i=Beroe+cucumis&t=L http://biosciencedbc.jp/taxonom...y_icon/icon.cgi?i=Beroe+cucumis&t=NL http://biosciencedbc.jp/taxonomy_icon/icon.cgi...?i=Beroe+cucumis&t=S http://biosciencedbc.jp/taxonomy_icon/icon.cgi?i=Beroe+cucum...is&t=NS http://togodb.biosciencedbc.jp/togodb/view/taxonomy_icon_comment_en?species_id=30 ...

  3. Taxonomy Icon Data: chimpanzee [Taxonomy Icon

    Lifescience Database Archive (English)

    Full Text Available _troglodytes_L.png Pan_troglodytes_NL.png Pan_troglodytes_S.png Pan_troglodytes_NS.png http://biosciencedbc.jp/taxonomy..._icon/icon.cgi?i=Pan+troglodytes&t=L http://biosciencedbc.jp/taxonomy_icon/icon.cgi?i=Pan+troglod...ytes&t=NL http://biosciencedbc.jp/taxonomy_icon/icon.cgi?i=Pan+troglodytes&t=S http://biosciencedbc.jp/taxonomy_icon/icon.cgi?i=Pan+troglodytes&t=NS ...

  4. Taxonomy Icon Data: Atlantic hagfish [Taxonomy Icon

    Lifescience Database Archive (English)

    Full Text Available L.png Myxine_glutinosa_NL.png Myxine_glutinosa_S.png Myxine_glutinosa_NS.png http://biosciencedbc.jp/taxonomy..._icon/icon.cgi?i=Myxine+glutinosa&t=L http://biosciencedbc.jp/taxonomy_icon/icon.cgi?i=Myxine+glutinosa&t=N...L http://biosciencedbc.jp/taxonomy_icon/icon.cgi?i=Myxine+glutinosa&t=S http://biosciencedbc.jp/taxonomy_icon/icon.cgi?i=Myxine+glutinosa&t=NS ...

  5. Taxonomy Icon Data: quaking aspen [Taxonomy Icon

    Lifescience Database Archive (English)

    Full Text Available png Populus_tremuloides_S.png Populus_tremuloides_NS.png http://biosciencedbc.jp/taxonomy_icon/icon.cgi?i=Po...pulus+tremuloides&t=L http://biosciencedbc.jp/taxonomy_icon/icon.cgi?i=Populus+tremuloides&t=NL http://biosciencedbc.jp/taxonomy..._icon/icon.cgi?i=Populus+tremuloides&t=S http://biosciencedbc.jp/taxonomy_icon/icon.cgi?i=Populus+tremuloides&t=NS ...

  6. Taxonomy Icon Data: Japanese macaque [Taxonomy Icon

    Lifescience Database Archive (English)

    Full Text Available e Macaca_fuscata_L.png Macaca_fuscata_NL.png Macaca_fuscata_S.png Macaca_fuscata_NS.png http://biosciencedbc.jp/taxonomy..._icon/icon.cgi?i=Macaca+fuscata&t=L http://biosciencedbc.jp/taxonomy_icon/icon.cgi?i=Macaca+fusc...ata&t=NL http://biosciencedbc.jp/taxonomy_icon/icon.cgi?i=Macaca+fuscata&t=S http://biosciencedbc.jp/taxonomy_icon/icon.cgi?i=Macaca+fuscata&t=NS ...

  7. Taxonomy Icon Data: emperor penguin [Taxonomy Icon

    Lifescience Database Archive (English)

    Full Text Available L.png Aptenodytes_forsteri_NL.png Aptenodytes_forsteri_S.png Aptenodytes_forsteri_NS.png http://biosciencedbc.jp/taxonomy..._icon/icon.cgi?i=Aptenodytes+forsteri&t=L http://biosciencedbc.jp/taxonomy_icon/icon.cgi?i=Apte...nodytes+forsteri&t=NL http://biosciencedbc.jp/taxonomy_icon/icon.cgi?i=Aptenodyte...s+forsteri&t=S http://biosciencedbc.jp/taxonomy_icon/icon.cgi?i=Aptenodytes+forsteri&t=NS ...

  8. Taxonomy Icon Data: Japanese squirrel [Taxonomy Icon

    Lifescience Database Archive (English)

    Full Text Available urus_lis_L.png Sciurus_lis_NL.png Sciurus_lis_S.png Sciurus_lis_NS.png http://biosciencedbc.jp/taxonomy_icon.../icon.cgi?i=Sciurus+lis&t=L http://biosciencedbc.jp/taxonomy_icon/icon.cgi?i=Sciurus+lis&t=NL http://biosciencedbc.jp/taxonomy..._icon/icon.cgi?i=Sciurus+lis&t=S http://biosciencedbc.jp/taxonomy_icon/icon.cgi?i=Sciurus+lis&t=NS ...

  9. Taxonomy Icon Data: mandrill [Taxonomy Icon

    Lifescience Database Archive (English)

    Full Text Available drillus_sphinx_L.png Mandrillus_sphinx_NL.png Mandrillus_sphinx_S.png Mandrillus_sphinx_NS.png http://biosciencedbc.jp/taxonomy..._icon/icon.cgi?i=Mandrillus+sphinx&t=L http://biosciencedbc.jp/taxonomy_icon/icon.cgi?i=M...andrillus+sphinx&t=NL http://biosciencedbc.jp/taxonomy_icon/icon.cgi?i=Mandrillus...+sphinx&t=S http://biosciencedbc.jp/taxonomy_icon/icon.cgi?i=Mandrillus+sphinx&t=NS ...

  10. Taxonomy Icon Data: Japanese weasel [Taxonomy Icon

    Lifescience Database Archive (English)

    Full Text Available ra Mustela_itatsi_L.png Mustela_itatsi_NL.png Mustela_itatsi_S.png Mustela_itatsi_NS.png http://biosciencedbc.jp/taxonomy..._icon/icon.cgi?i=Mustela+itatsi&t=L http://biosciencedbc.jp/taxonomy_icon/icon.cgi?i=Mustela+it...atsi&t=NL http://biosciencedbc.jp/taxonomy_icon/icon.cgi?i=Mustela+itatsi&t=S http://biosciencedbc.jp/taxonomy_icon/icon.cgi?i=Mustela+itatsi&t=NS ...

  11. Taxonomy Icon Data: emu [Taxonomy Icon

    Lifescience Database Archive (English)

    Full Text Available g Dromaius_novaehollandiae_NL.png Dromaius_novaehollandiae_S.png Dromaius_novaehollandiae_NS.png http://biosciencedbc.jp/taxonomy..._icon/icon.cgi?i=Dromaius+novaehollandiae&t=L http://biosciencedbc.jp/taxonomy_icon/ico...n.cgi?i=Dromaius+novaehollandiae&t=NL http://biosciencedbc.jp/taxonomy_icon/icon....cgi?i=Dromaius+novaehollandiae&t=S http://biosciencedbc.jp/taxonomy_icon/icon.cgi?i=Dromaius+novaehollandiae&t=NS ...

  12. Taxonomy Icon Data: oriental silverfish [Taxonomy Icon

    Lifescience Database Archive (English)

    Full Text Available olepisma_villosa_NL.png Ctenolepisma_villosa_S.png Ctenolepisma_villosa_NS.png http://biosciencedbc.jp/taxonomy..._icon/icon.cgi?i=Ctenolepisma+villosa&t=L http://biosciencedbc.jp/taxonomy_icon/icon.cgi?i=Ctenolepisma+v...illosa&t=NL http://biosciencedbc.jp/taxonomy_icon/icon.cgi?i=Ctenolepisma+villosa...&t=S http://biosciencedbc.jp/taxonomy_icon/icon.cgi?i=Ctenolepisma+villosa&t=NS ...

  13. Taxonomy Icon Data: Bornean orangutan [Taxonomy Icon

    Lifescience Database Archive (English)

    Full Text Available te Pongo_pygmaeus_L.png Pongo_pygmaeus_NL.png Pongo_pygmaeus_S.png Pongo_pygmaeus_NS.png http://biosciencedbc.jp/taxonomy..._icon/icon.cgi?i=Pongo+pygmaeus&t=L http://biosciencedbc.jp/taxonomy_icon/icon.cgi?i=Pongo+pygm...aeus&t=NL http://biosciencedbc.jp/taxonomy_icon/icon.cgi?i=Pongo+pygmaeus&t=S http://biosciencedbc.jp/taxonomy_icon/icon.cgi?i=Pongo+pygmaeus&t=NS ...

  14. Taxonomy Icon Data: lemon damsel [Taxonomy Icon

    Lifescience Database Archive (English)

    Full Text Available http://biosciencedbc.jp/taxonomy_icon/icon.cgi?i=Pomacentrus+moluccensis&t=L http://biosciencedbc.jp/taxonomy..._icon/icon.cgi?i=Pomacentrus+moluccensis&t=NL http://biosciencedbc.jp/taxonomy_i...con/icon.cgi?i=Pomacentrus+moluccensis&t=S http://biosciencedbc.jp/taxonomy_icon/icon.cgi?i=Pomacentrus+moluccensis&t=NS ... ...luccensis_L.png Pomacentrus_moluccensis_NL.png Pomacentrus_moluccensis_S.png Pomacentrus_moluccensis_NS.png

  15. Taxonomy Icon Data: Acytostelium subglobosum [Taxonomy Icon

    Lifescience Database Archive (English)

    Full Text Available Acytostelium subglobosum Acytostelium subglobosum Acytostelium_subglobosum_L.png Acytostelium_subglobo...sum_NL.png Acytostelium_subglobosum_S.png Acytostelium_subglobosum_NS.png http://bioscien...cedbc.jp/taxonomy_icon/icon.cgi?i=Acytostelium+subglobosum&t=L http://biosciencedbc.jp/taxonomy_icon/icon.cgi?i=Acytostelium+subglobo...sum&t=NL http://biosciencedbc.jp/taxonomy_icon/icon.cgi?i=Acytostelium+subglobo...sum&t=S http://biosciencedbc.jp/taxonomy_icon/icon.cgi?i=Acytostelium+subglobosum&t=N

  16. Taxonomy Icon Data: Lotus japonicus [Taxonomy Icon

    Lifescience Database Archive (English)

    Full Text Available Lotus japonicus Lotus japonicus Lotus_japonicus_L.png Lotus_japonicus_NL.png Lotus_japonicus_S.png Lotus_jap...onicus_NS.png http://biosciencedbc.jp/taxonomy_icon/icon.cgi?i=Lotus+japonicus&t=L ...http://biosciencedbc.jp/taxonomy_icon/icon.cgi?i=Lotus+japonicus&t=NL http://biosciencedbc.jp/taxonomy_icon/icon.cgi?i=Lotus+japon...icus&t=S http://biosciencedbc.jp/taxonomy_icon/icon.cgi?i=Lotus+japonicus&t=NS ...

  17. Taxonomy Icon Data: Sympetrum frequens [Taxonomy Icon

    Lifescience Database Archive (English)

    Full Text Available Sympetrum frequens Sympetrum frequens Arthropoda Sympetrum_frequens_L.png Sympetrum_frequens_NL.png Sympet...rum_frequens_S.png Sympetrum_frequens_NS.png http://biosciencedbc.jp/taxonomy_icon/icon.cgi?i=Sympet...rum+frequens&t=L http://biosciencedbc.jp/taxonomy_icon/icon.cgi?i=Sympetrum+frequens&t=NL htt...p://biosciencedbc.jp/taxonomy_icon/icon.cgi?i=Sympetrum+frequens&t=S http://biosciencedbc.jp/taxonomy_icon/icon.cgi?i=Sympetrum+frequens&t=NS ...

  18. Taxonomy Icon Data: tomato [Taxonomy Icon

    Lifescience Database Archive (English)

    Full Text Available tomato Solanum lycopersicum Solanum_lycopersicum_L.png Solanum_lycopersicum_NL.png Solanum..._lycopersicum_S.png Solanum_lycopersicum_NS.png http://biosciencedbc.jp/taxonomy_icon/icon.cgi?i=Solanum...+lycopersicum&t=L http://biosciencedbc.jp/taxonomy_icon/icon.cgi?i=Solanum+lycopersicum&t=NL http://biosc...iencedbc.jp/taxonomy_icon/icon.cgi?i=Solanum+lycopersicum&t=S http://biosciencedbc.jp/taxonomy_icon/icon.cgi?i=Solanum+lycopersicum&t=NS ...

  19. Taxonomy Icon Data: choanoflagellate [Taxonomy Icon

    Lifescience Database Archive (English)

    Full Text Available choanoflagellate Monosiga brevicollis Monosiga_brevicollis_L.png Monosiga_brevicoll...is_NL.png Monosiga_brevicollis_S.png Monosiga_brevicollis_NS.png http://biosciencedbc.jp/taxonomy_icon/icon.cgi?i=Monosiga+brevico...llis&t=L http://biosciencedbc.jp/taxonomy_icon/icon.cgi?i=Monosiga+brevicollis&t=NL ht...tp://biosciencedbc.jp/taxonomy_icon/icon.cgi?i=Monosiga+brevicollis&t=S http://bi...osciencedbc.jp/taxonomy_icon/icon.cgi?i=Monosiga+brevicollis&t=NS http://togodb.biosciencedbc.jp/togodb/view/taxonomy_icon_comment_en?species_id=220 ...

  20. Taxonomy Icon Data: Trypanosoma brucei [Taxonomy Icon

    Lifescience Database Archive (English)

    Full Text Available Trypanosoma brucei Trypanosoma brucei Trypanosoma_brucei_L.png Trypanosoma_brucei_NL.png Trypanosoma_bruce...i_S.png Trypanosoma_brucei_NS.png http://biosciencedbc.jp/taxonomy_icon/icon.cgi?i=Trypanosoma+bruce...i&t=L http://biosciencedbc.jp/taxonomy_icon/icon.cgi?i=Trypanosoma+brucei&t=NL http://bioscie...ncedbc.jp/taxonomy_icon/icon.cgi?i=Trypanosoma+brucei&t=S http://biosciencedbc.jp.../taxonomy_icon/icon.cgi?i=Trypanosoma+brucei&t=NS http://togodb.biosciencedbc.jp/togodb/view/taxonomy_icon_comment_en?species_id=121 ...

  1. Taxonomy Icon Data: cattle [Taxonomy Icon

    Lifescience Database Archive (English)

    Full Text Available rus_L.png Bos_taurus_NL.png Bos_taurus_S.png Bos_taurus_NS.png http://biosciencedbc.jp/taxonomy_icon/icon.cg...i?i=Bos+taurus&t=L http://biosciencedbc.jp/taxonomy_icon/icon.cgi?i=Bos+taurus&t=NL http://biosciencedbc.jp/taxonomy..._icon/icon.cgi?i=Bos+taurus&t=S http://biosciencedbc.jp/taxonomy_icon/ico...n.cgi?i=Bos+taurus&t=NS http://togodb.biosciencedbc.jp/togodb/view/taxonomy_icon_comment_en?species_id=28 ...

  2. Taxonomy Icon Data: sheep [Taxonomy Icon

    Lifescience Database Archive (English)

    Full Text Available es_L.png Ovis_aries_NL.png Ovis_aries_S.png Ovis_aries_NS.png http://biosciencedbc.jp/taxonomy_icon/icon.cgi...?i=Ovis+aries&t=L http://biosciencedbc.jp/taxonomy_icon/icon.cgi?i=Ovis+aries&t=NL http://biosciencedbc.jp/taxonomy..._icon/icon.cgi?i=Ovis+aries&t=S http://biosciencedbc.jp/taxonomy_icon/icon....cgi?i=Ovis+aries&t=NS http://togodb.biosciencedbc.jp/togodb/view/taxonomy_icon_comment_en?species_id=156 ...

  3. Taxonomy Icon Data: Budding yeast [Taxonomy Icon

    Lifescience Database Archive (English)

    Full Text Available Budding yeast Saccharomyces cerevisiae Saccharomyces_cerevisiae_L.png Saccharomyces..._cerevisiae_NL.png Saccharomyces_cerevisiae_S.png Saccharomyces_cerevisiae_NS.png http://biosciencedbc.jp/taxonomy..._icon/icon.cgi?i=Saccharomyces+cerevisiae&t=L http://biosciencedbc.jp/taxonomy_icon/icon.cgi?i=Saccharomy...ces+cerevisiae&t=NL http://biosciencedbc.jp/taxonomy_icon/icon.cgi?i=Saccharomy...ces+cerevisiae&t=S http://biosciencedbc.jp/taxonomy_icon/icon.cgi?i=Saccharomyces+cerevisiae&t=NS http://togodb.biosciencedbc.jp/togodb/view/taxonomy_icon_comment_en?species_id=216 ...

  4. Taxonomy Icon Data: Japanese hare [Taxonomy Icon

    Lifescience Database Archive (English)

    Full Text Available pus_brachyurus_L.png Lepus_brachyurus_NL.png Lepus_brachyurus_S.png Lepus_brachyurus_NS.png http://biosciencedbc.jp/taxonomy..._icon/icon.cgi?i=Lepus+brachyurus&t=L http://biosciencedbc.jp/taxonomy_icon/icon.cgi?i=Lepus...+brachyurus&t=NL http://biosciencedbc.jp/taxonomy_icon/icon.cgi?i=Lepus+brachyuru...s&t=S http://biosciencedbc.jp/taxonomy_icon/icon.cgi?i=Lepus+brachyurus&t=NS http://togodb.biosciencedbc.jp/togodb/view/taxonomy_icon_comment_en?species_id=138 ...

  5. Taxonomy Icon Data: Beetles [Taxonomy Icon

    Lifescience Database Archive (English)

    Full Text Available oilus_inclinatus_NL.png Prosopocoilus_inclinatus_S.png Prosopocoilus_inclinatus_NS.png http://biosciencedbc.jp/taxonomy..._icon/icon.cgi?i=Prosopocoilus+inclinatus&t=L http://biosciencedbc.jp/taxonomy_icon/icon.cgi?i=Pr...osopocoilus+inclinatus&t=NL http://biosciencedbc.jp/taxonomy_icon/icon.cgi?i=Pros...opocoilus+inclinatus&t=S http://biosciencedbc.jp/taxonomy_icon/icon.cgi?i=Prosopocoilus+inclinatus&t=NS http...://togodb.biosciencedbc.jp/togodb/view/taxonomy_icon_comment_en?species_id=139 ...

  6. Taxonomy Icon Data: Toxoplasma gondii [Taxonomy Icon

    Lifescience Database Archive (English)

    Full Text Available Toxoplasma gondii Toxoplasma gondii Toxoplasma_gondii_L.png Toxoplasma_gondii_NL.png Toxoplasma..._gondii_S.png Toxoplasma_gondii_NS.png http://biosciencedbc.jp/taxonomy_icon/icon.cgi?i=Toxoplasma...+gondii&t=L http://biosciencedbc.jp/taxonomy_icon/icon.cgi?i=Toxoplasma+gondii&t=NL http://biosciencedbc.j...p/taxonomy_icon/icon.cgi?i=Toxoplasma+gondii&t=S http://biosciencedbc.jp/taxonomy..._icon/icon.cgi?i=Toxoplasma+gondii&t=NS http://togodb.biosciencedbc.jp/togodb/view/taxonomy_icon_comment_en?species_id=113 ...

  7. Taxonomy Icon Data: Diplazium hachijoense [Taxonomy Icon

    Lifescience Database Archive (English)

    Full Text Available Diplazium hachijoense Diplazium hachijoense Diplazium_hachijoense_L.png Diplazium_hachijo...ense_NL.png Diplazium_hachijoense_S.png Diplazium_hachijoense_NS.png http://biosciencedbc.jp/taxonomy_...icon/icon.cgi?i=Diplazium+hachijoense&t=L http://biosciencedbc.jp/taxonomy_icon/icon.cgi?i=Diplazium+hachijo...ense&t=NL http://biosciencedbc.jp/taxonomy_icon/icon.cgi?i=Diplazium+hachijoense&...t=S http://biosciencedbc.jp/taxonomy_icon/icon.cgi?i=Diplazium+hachijoense&t=NS http://togodb.biosciencedbc.jp/togodb/view/taxonomy_icon_comment_en?species_id=84 ...

  8. Taxonomy Icon Data: koji mold [Taxonomy Icon

    Lifescience Database Archive (English)

    Full Text Available koji mold Aspergillus oryzae Aspergillus_oryzae_L.png Aspergillus_oryzae_NL.png Aspergillus_oryzae_S.png Asp...ergillus_oryzae_NS.png http://biosciencedbc.jp/taxonomy_icon/icon.cgi?i=Aspergillus...+oryzae&t=L http://biosciencedbc.jp/taxonomy_icon/icon.cgi?i=Aspergillus+oryzae&t=NL http://biosciencedbc.jp.../taxonomy_icon/icon.cgi?i=Aspergillus+oryzae&t=S http://biosciencedbc.jp/taxonomy_icon/icon.cgi?i=Aspergil...lus+oryzae&t=NS http://togodb.biosciencedbc.jp/togodb/view/taxonomy_icon_comment_en?species_id=63 ...

  9. Taxonomy Icon Data: Haliclona permollis [Taxonomy Icon

    Lifescience Database Archive (English)

    Full Text Available Haliclona permollis Haliclona permollis Porifera Haliclona_permollis_L.png Haliclona_permollis_NL.png Hali...clona_permollis_S.png Haliclona_permollis_NS.png http://biosciencedbc.jp/taxonomy_icon/icon.cgi?i=Hali...clona+permollis&t=L http://biosciencedbc.jp/taxonomy_icon/icon.cgi?i=Haliclona+permollis&t=...NL http://biosciencedbc.jp/taxonomy_icon/icon.cgi?i=Haliclona+permollis&t=S http:...//biosciencedbc.jp/taxonomy_icon/icon.cgi?i=Haliclona+permollis&t=NS http://togodb.biosciencedbc.jp/togodb/view/taxonomy_icon_comment_en?species_id=194 ...

  10. Taxonomy Icon Data: Japanese medaka [Taxonomy Icon

    Lifescience Database Archive (English)

    Full Text Available Japanese medaka Oryzias latipes Chordata/Vertebrata/Pisciformes Oryzias_latipes_L.png Oryzias_latipes..._NL.png Oryzias_latipes_S.png Oryzias_latipes_NS.png http://biosciencedbc.jp/taxonomy_icon/icon.cgi?i=Oryzias+latip...es&t=L http://biosciencedbc.jp/taxonomy_icon/icon.cgi?i=Oryzias+latipes&t=NL http:/.../biosciencedbc.jp/taxonomy_icon/icon.cgi?i=Oryzias+latipes&t=S http://bioscienced...bc.jp/taxonomy_icon/icon.cgi?i=Oryzias+latipes&t=NS http://togodb.biosciencedbc.jp/togodb/view/taxonomy_icon_comment_en?species_id=195 ...

  11. Taxonomy Icon Data: Human [Taxonomy Icon

    Lifescience Database Archive (English)

    Full Text Available s_L.png Homo_sapiens_NL.png Homo_sapiens_S.png Homo_sapiens_NS.png http://biosciencedbc.jp/taxonomy_icon/ico...n.cgi?i=Homo+sapiens&t=L http://biosciencedbc.jp/taxonomy_icon/icon.cgi?i=Homo+sapiens&t=NL http://biosciencedbc.jp/taxonomy..._icon/icon.cgi?i=Homo+sapiens&t=S http://biosciencedbc.jp/taxonomy..._icon/icon.cgi?i=Homo+sapiens&t=NS http://togodb.biosciencedbc.jp/togodb/view/taxonomy_icon_comment_en?species_id=157 ...

  12. Taxonomy Icon Data: spotted seal [Taxonomy Icon

    Lifescience Database Archive (English)

    Full Text Available oca_largha_L.png Phoca_largha_NL.png Phoca_largha_S.png Phoca_largha_NS.png http://biosciencedbc.jp/taxonomy..._icon/icon.cgi?i=Phoca+largha&t=L http://biosciencedbc.jp/taxonomy_icon/icon.cgi?i=Phoca+largha&t=NL http://biosciencedbc.jp/taxonomy..._icon/icon.cgi?i=Phoca+largha&t=S http://biosciencedbc.jp/taxonomy..._icon/icon.cgi?i=Phoca+largha&t=NS http://togodb.biosciencedbc.jp/togodb/view/taxonomy_icon_comment_en?species_id=66 ...

  13. Taxonomy Icon Data: Schistosoma japonicum [Taxonomy Icon

    Lifescience Database Archive (English)

    Full Text Available Schistosoma japonicum Schistosoma japonicum Platyhelminthes Schistosoma_japonicum_L.png Schistosoma_japon...icum_NL.png Schistosoma_japonicum_S.png Schistosoma_japonicum_NS.png http://bioscience...dbc.jp/taxonomy_icon/icon.cgi?i=Schistosoma+japonicum&t=L http://biosciencedbc.jp/taxonomy_icon/icon.cgi?i=Schistosoma+japon...icum&t=NL http://biosciencedbc.jp/taxonomy_icon/icon.cgi?i=Schistosoma+japon...icum&t=S http://biosciencedbc.jp/taxonomy_icon/icon.cgi?i=Schistosoma+japonicum&t=NS http://togodb.biosciencedbc.jp/togodb/view/taxonomy_icon_comment_en?species_id=132 ...

  14. Taxonomy Icon Data: Planaria [Taxonomy Icon

    Lifescience Database Archive (English)

    Full Text Available Planaria Dugesia japonica Platyhelminthes Dugesia_japonica_L.png Dugesia_japonica_NL.png Dugesia_japon...ica_S.png Dugesia_japonica_NS.png http://biosciencedbc.jp/taxonomy_icon/icon.cgi?i=Dugesia+japon...ica&t=L http://biosciencedbc.jp/taxonomy_icon/icon.cgi?i=Dugesia+japonica&t=NL http://biosciencedbc.j...p/taxonomy_icon/icon.cgi?i=Dugesia+japonica&t=S http://biosciencedbc.jp/taxonomy_...icon/icon.cgi?i=Dugesia+japonica&t=NS http://togodb.biosciencedbc.jp/togodb/view/taxonomy_icon_comment_en?species_id=124 ...

  15. Taxonomy Icon Data: Japanese Ratsnake [Taxonomy Icon

    Lifescience Database Archive (English)

    Full Text Available Japanese Ratsnake Elaphe climacophora Chordata/Vertebrata/Reptilia/etc Elaphe_climacophora_L.png Elaphe_clim...acophora_NL.png Elaphe_climacophora_S.png Elaphe_climacophora_NS.png http://bioscie...ncedbc.jp/taxonomy_icon/icon.cgi?i=Elaphe+climacophora&t=L http://biosciencedbc.jp/taxonomy_icon/icon.cgi?i=Elaphe+clima...cophora&t=NL http://biosciencedbc.jp/taxonomy_icon/icon.cgi?i=Elaphe+clima...cophora&t=S http://biosciencedbc.jp/taxonomy_icon/icon.cgi?i=Elaphe+climacophora&t=NS http://togodb.biosciencedbc.jp/togodb/view/taxonomy_icon_comment_en?species_id=3 ...

  16. Taxonomy Icon Data: Anopheles stephensi [Taxonomy Icon

    Lifescience Database Archive (English)

    Full Text Available Anopheles stephensi Anopheles stephensi Arthropoda Anopheles_stephensi_L.png Anopheles_steph...ensi_NL.png Anopheles_stephensi_S.png Anopheles_stephensi_NS.png http://biosciencedbc.jp/taxonomy_icon/icon.cgi?i=Anoph...eles+stephensi&t=L http://biosciencedbc.jp/taxonomy_icon/icon.cgi?i=Anopheles+stephensi&...t=NL http://biosciencedbc.jp/taxonomy_icon/icon.cgi?i=Anopheles+stephensi&t=S htt...p://biosciencedbc.jp/taxonomy_icon/icon.cgi?i=Anopheles+stephensi&t=NS http://togodb.biosciencedbc.jp/togodb/view/taxonomy_icon_comment_en?species_id=149 ...

  17. Taxonomy Icon Data: hamadryas baboon [Taxonomy Icon

    Lifescience Database Archive (English)

    Full Text Available hamadryas baboon Papio hamadryas Chordata/Vertebrata/Mammalia/Theria/Eutheria/Primate Papio_hamadry...as_L.png Papio_hamadryas_NL.png Papio_hamadryas_S.png Papio_hamadryas_NS.png http://bioscien...cedbc.jp/taxonomy_icon/icon.cgi?i=Papio+hamadryas&t=L http://biosciencedbc.jp/taxonomy_icon/icon.cgi?i=Papio+hamadry...as&t=NL http://biosciencedbc.jp/taxonomy_icon/icon.cgi?i=Papio+hamadryas&...t=S http://biosciencedbc.jp/taxonomy_icon/icon.cgi?i=Papio+hamadryas&t=NS http://togodb.biosciencedbc.jp/togodb/view/taxonomy_icon_comment_en?species_id=186 ...

  18. Taxonomy Icon Data: house mouse [Taxonomy Icon

    Lifescience Database Archive (English)

    Full Text Available house mouse Mus musculus Chordata/Vertebrata/Mammalia/Theria/Eutheria/etc. Mus_musculus_L.png Mus_musculus..._NL.png Mus_musculus_S.png Mus_musculus_NS.png http://biosciencedbc.jp/taxonomy_icon/icon.cgi?i=Mus+musculus...&t=L http://biosciencedbc.jp/taxonomy_icon/icon.cgi?i=Mus+musculus&t=NL http://biosci...encedbc.jp/taxonomy_icon/icon.cgi?i=Mus+musculus&t=S http://biosciencedbc.jp/taxonomy_icon/icon.cgi?i=Mus...+musculus&t=NS http://togodb.biosciencedbc.jp/togodb/view/taxonomy_icon_comment_en?species_id=146 ...

  19. Scientific and non-scientific challenges for Operational Earthquake Forecasting

    Science.gov (United States)

    Marzocchi, W.

    2015-12-01

    Tracking the time evolution of seismic hazard in time windows shorter than the usual 50-years of long-term hazard models may offer additional opportunities to reduce the seismic risk. This is the target of operational earthquake forecasting (OEF). During the OEF development in Italy we identify several challenges that range from pure science to the more practical interface of science with society. From a scientific point of view, although earthquake clustering is the clearest empirical evidence about earthquake occurrence, and OEF clustering models are the most (successfully) tested hazard models in seismology, we note that some seismologists are still reluctant to accept their scientific reliability. After exploring the motivations of these scientific doubts, we also look into an issue that is often overlooked in this discussion, i.e., in any kind of hazard analysis, we do not use a model because it is the true one, but because it is the better than anything else we can think of. The non-scientific aspects are mostly related to the fact that OEF usually provides weekly probabilities of large eartquakes smaller than 1%. These probabilities are considered by some seismologists too small to be of interest or useful. However, in a recent collaboration with engineers we show that such earthquake probabilities may lead to intolerable individual risk of death. Interestingly, this debate calls for a better definition of the still fuzzy boundaries among the different expertise required for the whole risk mitigation process. The last and probably more pressing challenge is related to the communication to the public. In fact, a wrong message could be useless or even counterproductive. Here we show some progresses that we have made in this field working with communication experts in Italy.

  20. Taxonomy Icon Data: Clementine [Taxonomy Icon

    Lifescience Database Archive (English)

    Full Text Available Clementine Citrus clementina Citrus_clementina_L.png Citrus_clementina_NL.png Citrus_clementin...a_S.png Citrus_clementina_NS.png http://biosciencedbc.jp/taxonomy_icon/icon.cgi?i=Citrus+clementin...a&t=L http://biosciencedbc.jp/taxonomy_icon/icon.cgi?i=Citrus+clementina&t=NL http://biosciencedbc.jp/taxon...omy_icon/icon.cgi?i=Citrus+clementina&t=S http://biosciencedbc.jp/taxonomy_icon/icon.cgi?i=Citrus+clementina&t=NS ...

  1. Taxonomy Icon Data: Escherichia coli [Taxonomy Icon

    Lifescience Database Archive (English)

    Full Text Available Escherichia coli Escherichia coli Escherichia_coli_L.png Escherichia_coli_NL.png Escherich...ia_coli_S.png Escherichia_coli_NS.png http://biosciencedbc.jp/taxonomy_icon/icon.cgi?i=Escherichia+co...li&t=L http://biosciencedbc.jp/taxonomy_icon/icon.cgi?i=Escherichia+coli&t=NL http://biosciencedbc.jp/taxono...my_icon/icon.cgi?i=Escherichia+coli&t=S http://biosciencedbc.jp/taxonomy_icon/icon.cgi?i=Escherichia+coli&t=NS ...

  2. Taxonomy Icon Data: wine grape [Taxonomy Icon

    Lifescience Database Archive (English)

    Full Text Available _S.png Vitis_vinifera_NS.png http://biosciencedbc.jp/taxonomy_icon/icon.cgi?i=Vitis+vinifera&t=L http://biosciencedbc.jp/tax...onomy_icon/icon.cgi?i=Vitis+vinifera&t=NL http://biosciencedbc.jp/taxonomy_icon/icon.cgi?i=V...itis+vinifera&t=S http://biosciencedbc.jp/taxonomy_icon/icon.cgi?i=Vitis+vinifera&t=NS ...

  3. Taxonomy Icon Data: saddleback dolphin [Taxonomy Icon

    Lifescience Database Archive (English)

    Full Text Available nomy_icon/icon.cgi?i=Delphinus+delphis&t=L http://biosciencedbc.jp/taxonomy_icon/ic...on.cgi?i=Delphinus+delphis&t=NL http://biosciencedbc.jp/taxonomy_icon/icon.cgi?i=...Delphinus+delphis&t=S http://biosciencedbc.jp/taxonomy_icon/icon.cgi?i=Delphinus+delphis&t=NS ... ...etacea Delphinus_delphis_L.png Delphinus_delphis_NL.png Delphinus_delphis_S.png Delphinus_delphis_NS.png http://biosciencedbc.jp/taxo

  4. Taxonomy Icon Data: Guillardia theta [Taxonomy Icon

    Lifescience Database Archive (English)

    Full Text Available Guillardia theta Guillardia theta Guillardia_theta_L.png Guillardia_theta_NL.png Guillardia_the...ta_S.png Guillardia_theta_NS.png http://biosciencedbc.jp/taxonomy_icon/icon.cgi?i=Guillardia+the...ta&t=L http://biosciencedbc.jp/taxonomy_icon/icon.cgi?i=Guillardia+theta&t=NL http://biosciencedbc.jp/taxono...my_icon/icon.cgi?i=Guillardia+theta&t=S http://biosciencedbc.jp/taxonomy_icon/icon.cgi?i=Guillardia+the

  5. Taxonomy Icon Data: Japanese serow [Taxonomy Icon

    Lifescience Database Archive (English)

    Full Text Available Japanese serow Capricornis crispus Chordata/Vertebrata/Mammalia/Theria/Eutheria/Artiodactyla Caprico...rnis_crispus_L.png Capricornis_crispus_NL.png Capricornis_crispus_S.png Capricornis_crispus..._NS.png http://biosciencedbc.jp/taxonomy_icon/icon.cgi?i=Capricornis+crispus&t=L http://biosciencedbc.jp/taxonomy_icon/ico...n.cgi?i=Capricornis+crispus&t=NL http://biosciencedbc.jp/taxonomy_icon/icon.cgi?i=Caprico...rnis+crispus&t=S http://biosciencedbc.jp/taxonomy_icon/icon.cgi?i=Capricornis+crispus&t=NS ...

  6. Taxonomy Icon Data: Asiatic elephant [Taxonomy Icon

    Lifescience Database Archive (English)

    Full Text Available Asiatic elephant Elephas maximus Chordata/Vertebrata/Mammalia/Theria/Eutheria/etc. Elephas_maximus..._L.png Elephas_maximus_NL.png Elephas_maximus_S.png Elephas_maximus_NS.png http://bioscienced...bc.jp/taxonomy_icon/icon.cgi?i=Elephas+maximus&t=L http://biosciencedbc.jp/taxonomy_icon/icon.cgi?i=Elephas+maximus...&t=NL http://biosciencedbc.jp/taxonomy_icon/icon.cgi?i=Elephas+maximus&t=S http://biosciencedbc.jp/taxonomy_icon/icon.cgi?i=Elephas+maximus&t=NS ...

  7. Taxonomy Icon Data: Oryzias javanicus [Taxonomy Icon

    Lifescience Database Archive (English)

    Full Text Available Oryzias javanicus Oryzias javanicus Chordata/Vertebrata/Pisciformes Oryzias_javanicus_L.png Oryzias_javan...icus_NL.png Oryzias_javanicus_S.png Oryzias_javanicus_NS.png http://biosciencedbc.jp/t...axonomy_icon/icon.cgi?i=Oryzias+javanicus&t=L http://biosciencedbc.jp/taxonomy_icon/icon.cgi?i=Oryzias+javan...icus&t=NL http://biosciencedbc.jp/taxonomy_icon/icon.cgi?i=Oryzias+javanicus&t=S ...http://biosciencedbc.jp/taxonomy_icon/icon.cgi?i=Oryzias+javanicus&t=NS http://togodb.biosciencedbc.jp/togodb/view/taxonomy_icon_comment_en?species_id=77 ...

  8. Taxonomy Icon Data: giant panda [Taxonomy Icon

    Lifescience Database Archive (English)

    Full Text Available giant panda Ailuropoda melanoleuca Chordata/Vertebrata/Mammalia/Theria/Eutheria/Carnivora Ailuropoda..._melanoleuca_L.png Ailuropoda_melanoleuca_NL.png Ailuropoda_melanoleuca_S.png Ailuropoda_me...lanoleuca_NS.png http://biosciencedbc.jp/taxonomy_icon/icon.cgi?i=Ailuropoda+melanoleuca&t=L http://bioscien...cedbc.jp/taxonomy_icon/icon.cgi?i=Ailuropoda+melanoleuca&t=NL http://biosciencedb...c.jp/taxonomy_icon/icon.cgi?i=Ailuropoda+melanoleuca&t=S http://biosciencedbc.jp/taxonomy_icon/icon.cgi?i=Ailuropoda+melanoleuca&t=NS ...

  9. Taxonomy Icon Data: Magellanic penguin [Taxonomy Icon

    Lifescience Database Archive (English)

    Full Text Available Magellanic penguin Spheniscus magellanicus Chordata/Vertebrata/Aves Spheniscus_magel...lanicus_L.png Spheniscus_magellanicus_NL.png Spheniscus_magellanicus_S.png Spheniscus_magellanicus_NS.png h...ttp://biosciencedbc.jp/taxonomy_icon/icon.cgi?i=Spheniscus+magellanicus&t=L http://biosciencedbc.jp/taxonomy..._icon/icon.cgi?i=Spheniscus+magellanicus&t=NL http://biosciencedbc.jp/taxonomy_ic...on/icon.cgi?i=Spheniscus+magellanicus&t=S http://biosciencedbc.jp/taxonomy_icon/icon.cgi?i=Spheniscus+magell

  10. Taxonomy Icon Data: rainbow trout [Taxonomy Icon

    Lifescience Database Archive (English)

    Full Text Available rainbow trout Oncorhynchus mykiss Chordata/Vertebrata/Pisciformes Oncorhynchus_mykiss_L.png Oncorhynchus_my...kiss_NL.png Oncorhynchus_mykiss_S.png Oncorhynchus_mykiss_NS.png http://biosciencedbc.jp/taxonomy..._icon/icon.cgi?i=Oncorhynchus+mykiss&t=L http://biosciencedbc.jp/taxonomy_icon/icon.cgi?i=Oncorhynchus+my...kiss&t=NL http://biosciencedbc.jp/taxonomy_icon/icon.cgi?i=Oncorhynchus+my...kiss&t=S http://biosciencedbc.jp/taxonomy_icon/icon.cgi?i=Oncorhynchus+mykiss&t=NS ...

  11. Taxonomy Icon Data: moss [Taxonomy Icon

    Lifescience Database Archive (English)

    Full Text Available sp_patens_NS.png http://biosciencedbc.jp/taxonomy_icon/icon.cgi?i=Physcomitrella+patens+subsp%2e+patens%2e&t...=L http://biosciencedbc.jp/taxonomy_icon/icon.cgi?i=Physcomitrella+patens+subsp%2...e+patens%2e&t=NL http://biosciencedbc.jp/taxonomy_icon/icon.cgi?i=Physcomitrella+patens+subsp%2e+patens%2e&t...=S http://biosciencedbc.jp/taxonomy_icon/icon.cgi?i=Physcomitrella+patens+subsp%2e+patens%2e&t=NS ...

  12. Taxonomy Icon Data: pygmy chimpanzee [Taxonomy Icon

    Lifescience Database Archive (English)

    Full Text Available pygmy chimpanzee Pan paniscus Chordata/Vertebrata/Mammalia/Theria/Eutheria/Primate ...Pan_paniscus_L.png Pan_paniscus_NL.png Pan_paniscus_S.png Pan_paniscus_NS.png http://biosciencedbc.jp/taxonomy..._icon/icon.cgi?i=Pan+paniscus&t=L http://biosciencedbc.jp/taxonomy_icon/icon.cgi?i=Pan+paniscus&t=NL http:...//biosciencedbc.jp/taxonomy_icon/icon.cgi?i=Pan+paniscus&t=S http://biosciencedbc.jp/taxonomy_icon/icon.cgi?i=Pan+paniscus&t=NS ...

  13. Taxonomy Icon Data: okapi [Taxonomy Icon

    Lifescience Database Archive (English)

    Full Text Available okapi Okapia johnstoni Chordata/Vertebrata/Mammalia/Theria/Eutheria/Artiodactyla Okapia_john...stoni_L.png Okapia_johnstoni_NL.png Okapia_johnstoni_S.png Okapia_johnstoni_NS.png http://bioscienc...edbc.jp/taxonomy_icon/icon.cgi?i=Okapia+johnstoni&t=L http://biosciencedbc.jp/taxonomy_icon/icon.cgi?i=Okapia+john...stoni&t=NL http://biosciencedbc.jp/taxonomy_icon/icon.cgi?i=Okapia+johnston...i&t=S http://biosciencedbc.jp/taxonomy_icon/icon.cgi?i=Okapia+johnstoni&t=NS ...

  14. Taxonomy Icon Data: fathead minnow [Taxonomy Icon

    Lifescience Database Archive (English)

    Full Text Available fathead minnow Pimephales promelas Chordata/Vertebrata/Pisciformes Pimephales_promelas_L.png Pim...ephales_promelas_NL.png Pimephales_promelas_S.png Pimephales_promelas_NS.png http://bioscienced...bc.jp/taxonomy_icon/icon.cgi?i=Pimephales+promelas&t=L http://biosciencedbc.jp/taxonomy_icon/icon.cgi?i=Pime...phales+promelas&t=NL http://biosciencedbc.jp/taxonomy_icon/icon.cgi?i=Pimephales+...promelas&t=S http://biosciencedbc.jp/taxonomy_icon/icon.cgi?i=Pimephales+promelas&t=NS ...

  15. Taxonomy Icon Data: southern cassowary [Taxonomy Icon

    Lifescience Database Archive (English)

    Full Text Available southern cassowary Casuarius casuarius Chordata/Vertebrata/Aves Casuarius_casuarius_L.png Casuarius_cas...uarius_NL.png Casuarius_casuarius_S.png Casuarius_casuarius_NS.png http://biosciencedbc....jp/taxonomy_icon/icon.cgi?i=Casuarius+casuarius&t=L http://biosciencedbc.jp/taxonomy_icon/icon.cgi?i=Casuarius+cas...uarius&t=NL http://biosciencedbc.jp/taxonomy_icon/icon.cgi?i=Casuarius+casu...arius&t=S http://biosciencedbc.jp/taxonomy_icon/icon.cgi?i=Casuarius+casuarius&t=NS ...

  16. Taxonomy Icon Data: ostrich [Taxonomy Icon

    Lifescience Database Archive (English)

    Full Text Available ostrich Struthio camelus Chordata/Vertebrata/Aves Struthio_camelus_L.png Struthio_camelus_NL.png Struth...io_camelus_S.png Struthio_camelus_NS.png http://biosciencedbc.jp/taxonomy_icon/icon.cgi?i=Struth...io+camelus&t=L http://biosciencedbc.jp/taxonomy_icon/icon.cgi?i=Struthio+camelus&t=NL http://bioscie...ncedbc.jp/taxonomy_icon/icon.cgi?i=Struthio+camelus&t=S http://biosciencedbc.jp/taxonomy_icon/icon.cgi?i=Struthio+camelus&t=NS ...

  17. Taxonomy Icon Data: crested porcupine [Taxonomy Icon

    Lifescience Database Archive (English)

    Full Text Available crested porcupine Hystrix cristata Chordata/Vertebrata/Mammalia/Theria/Eutheria/etc. Hystrix_cristata..._L.png Hystrix_cristata_NL.png Hystrix_cristata_S.png Hystrix_cristata_NS.png http://biosc...iencedbc.jp/taxonomy_icon/icon.cgi?i=Hystrix+cristata&t=L http://biosciencedbc.jp/taxonomy_icon/icon.cgi?i=Hystrix+cristata...&t=NL http://biosciencedbc.jp/taxonomy_icon/icon.cgi?i=Hystrix+cristata...&t=S http://biosciencedbc.jp/taxonomy_icon/icon.cgi?i=Hystrix+cristata&t=NS ...

  18. Taxonomy Icon Data: lion [Taxonomy Icon

    Lifescience Database Archive (English)

    Full Text Available lion Panthera leo Chordata/Vertebrata/Mammalia/Theria/Eutheria/Carnivora Panthera_leo_L.png Panthera..._leo_NL.png Panthera_leo_S.png Panthera_leo_NS.png http://biosciencedbc.jp/taxonomy_icon/icon.cgi?i=Panthera...+leo&t=L http://biosciencedbc.jp/taxonomy_icon/icon.cgi?i=Panthera+leo&t=NL http://bioscien...cedbc.jp/taxonomy_icon/icon.cgi?i=Panthera+leo&t=S http://biosciencedbc.jp/taxonomy_icon/icon.cgi?i=Panthera+leo&t=NS ...

  19. Taxonomy Icon Data: slipper animalcule [Taxonomy Icon

    Lifescience Database Archive (English)

    Full Text Available slipper animalcule Paramecium tetraurelia Paramecium_tetraurelia_L.png Paramecium_tetraurelia..._NL.png Paramecium_tetraurelia_S.png Paramecium_tetraurelia_NS.png http://biosciencedbc.jp/taxonom...y_icon/icon.cgi?i=Paramecium+tetraurelia&t=L http://biosciencedbc.jp/taxonomy_icon/icon.cgi?i=Paramecium+tetraurelia...&t=NL http://biosciencedbc.jp/taxonomy_icon/icon.cgi?i=Paramecium+tetraurelia...&t=S http://biosciencedbc.jp/taxonomy_icon/icon.cgi?i=Paramecium+tetraurelia&t=NS http://togodb.biosciencedbc.jp/togodb/view/taxonomy_icon_comment_en?species_id=204 ...

  20. Taxonomy Icon Data: saddled bichir [Taxonomy Icon

    Lifescience Database Archive (English)

    Full Text Available saddled bichir Polypterus endlicheri Chordata/Vertebrata/Pisciformes Polypterus_endlicheri_L.png Polypteru...s_endlicheri_NL.png Polypterus_endlicheri_S.png Polypterus_endlicheri_NS.png http://b...iosciencedbc.jp/taxonomy_icon/icon.cgi?i=Polypterus+endlicheri&t=L http://biosciencedbc.jp/taxonomy_icon/icon.cgi?i=Polypteru...s+endlicheri&t=NL http://biosciencedbc.jp/taxonomy_icon/icon.cgi?i=Polypteru...s+endlicheri&t=S http://biosciencedbc.jp/taxonomy_icon/icon.cgi?i=Polypterus+endlicheri&t=NS ...

  1. Taxonomy Icon Data: Nile crocodile [Taxonomy Icon

    Lifescience Database Archive (English)

    Full Text Available Nile crocodile Crocodylus niloticus Chordata/Vertebrata/Reptilia/etc Crocodylus_niloticus_L.png Croco...dylus_niloticus_NL.png Crocodylus_niloticus_S.png Crocodylus_niloticus_NS.png http://biosciencedbc.jp/taxonomy_ico...n/icon.cgi?i=Crocodylus+niloticus&t=L http://biosciencedbc.jp/taxonomy_icon/icon.cgi?i=Croco...dylus+niloticus&t=NL http://biosciencedbc.jp/taxonomy_icon/icon.cgi?i=Croco...dylus+niloticus&t=S http://biosciencedbc.jp/taxonomy_icon/icon.cgi?i=Crocodylus+niloticus&t=NS ...

  2. Taxonomy Icon Data: Atlantic salmon [Taxonomy Icon

    Lifescience Database Archive (English)

    Full Text Available Atlantic salmon Salmo salar Chordata/Vertebrata/Pisciformes Salmo_salar_L.png Salmo_salar_NL.png Salmo_salar..._S.png Salmo_salar_NS.png http://biosciencedbc.jp/taxonomy_icon/icon.cgi?i=Salmo+salar...&t=L http://biosciencedbc.jp/taxonomy_icon/icon.cgi?i=Salmo+salar&t=NL http://biosciencedbc.jp/taxonomy_icon/icon.cgi?i=Salmo+sala...r&t=S http://biosciencedbc.jp/taxonomy_icon/icon.cgi?i=Salmo+salar&t=NS ...

  3. Taxonomy Icon Data: coelacanth [Taxonomy Icon

    Lifescience Database Archive (English)

    Full Text Available coelacanth Latimeria chalumnae Chordata/Vertebrata/Pisciformes Latimeria_chalumnae_L.png Latime...ria_chalumnae_NL.png Latimeria_chalumnae_S.png Latimeria_chalumnae_NS.png http://biosciencedbc.j...p/taxonomy_icon/icon.cgi?i=Latimeria+chalumnae&t=L http://biosciencedbc.jp/taxonomy_icon/icon.cgi?i=Latimeri...a+chalumnae&t=NL http://biosciencedbc.jp/taxonomy_icon/icon.cgi?i=Latimeria+chalu...mnae&t=S http://biosciencedbc.jp/taxonomy_icon/icon.cgi?i=Latimeria+chalumnae&t=NS ...

  4. Taxonomy Icon Data: domestic pigeon [Taxonomy Icon

    Lifescience Database Archive (English)

    Full Text Available domestic pigeon Columba livia Chordata/Vertebrata/Aves Columba_livia_L.png Columba_livia_NL.png Columba..._livia_S.png Columba_livia_NS.png http://biosciencedbc.jp/taxonomy_icon/icon.cgi?i=Columba...+livia&t=L http://biosciencedbc.jp/taxonomy_icon/icon.cgi?i=Columba+livia&t=NL http://biosciencedbc.jp/taxonomy_icon/icon.cgi?i=Col...umba+livia&t=S http://biosciencedbc.jp/taxonomy_icon/icon.cgi?i=Columba+livia&t=NS ...

  5. Taxonomy Icon Data: Chinchilla [Taxonomy Icon

    Lifescience Database Archive (English)

    Full Text Available Chinchilla Chinchilla lanigera Chordata/Vertebrata/Mammalia/Theria/Eutheria/etc. Chinchill...a_lanigera_L.png Chinchilla_lanigera_NL.png Chinchilla_lanigera_S.png Chinchilla_lanigera_NS.png http...://biosciencedbc.jp/taxonomy_icon/icon.cgi?i=Chinchilla+lanigera&t=L http://biosciencedbc.jp/taxonomy_icon/icon.cgi?i=Chinchill...a+lanigera&t=NL http://biosciencedbc.jp/taxonomy_icon/icon.cgi?i=Chinchill...a+lanigera&t=S http://biosciencedbc.jp/taxonomy_icon/icon.cgi?i=Chinchilla+lanigera&t=NS ...

  6. Taxonomy Icon Data: Eastern Gorilla [Taxonomy Icon

    Lifescience Database Archive (English)

    Full Text Available Eastern Gorilla Gorilla beringei Chordata/Vertebrata/Mammalia/Theria/Eutheria/Primate Gorill...a_beringei_L.png Gorilla_beringei_NL.png Gorilla_beringei_S.png Gorilla_beringei_NS.png http://bios...ciencedbc.jp/taxonomy_icon/icon.cgi?i=Gorilla+beringei&t=L http://biosciencedbc.jp/taxonomy_icon/icon.cgi?i=Gorill...a+beringei&t=NL http://biosciencedbc.jp/taxonomy_icon/icon.cgi?i=Gorilla+be...ringei&t=S http://biosciencedbc.jp/taxonomy_icon/icon.cgi?i=Gorilla+beringei&t=NS ...

  7. Taxonomy Icon Data: horse [Taxonomy Icon

    Lifescience Database Archive (English)

    Full Text Available horse Equus caballus Chordata/Vertebrata/Mammalia/Theria/Eutheria/etc. Equus_caballus_L.png Equus_caba...llus_NL.png Equus_caballus_S.png Equus_caballus_NS.png http://biosciencedbc.jp/taxonomy_icon/icon.cgi?i=Equus+caba...llus&t=L http://biosciencedbc.jp/taxonomy_icon/icon.cgi?i=Equus+caballus&t=NL http:...//biosciencedbc.jp/taxonomy_icon/icon.cgi?i=Equus+caballus&t=S http://biosciencedbc.jp/taxonomy_icon/icon.cgi?i=Equus+caballus&t=NS ...

  8. Taxonomy Icon Data: chinese pangolin [Taxonomy Icon

    Lifescience Database Archive (English)

    Full Text Available nomy_icon/icon.cgi?i=Manis+pentadactyla&t=L http://biosciencedbc.jp/taxonomy_icon/i...con.cgi?i=Manis+pentadactyla&t=NL http://biosciencedbc.jp/taxonomy_icon/icon.cgi?...i=Manis+pentadactyla&t=S http://biosciencedbc.jp/taxonomy_icon/icon.cgi?i=Manis+pentadactyla&t=NS http://togodb.biosciencedbc.jp/togodb/view/taxonomy_icon_comment_en?species_id=190 ... ...c. Manis_pentadactyla_L.png Manis_pentadactyla_NL.png Manis_pentadactyla_S.png Manis_pentadactyla_NS.png http://biosciencedbc.jp/taxo

  9. Taxonomies of Educational Objective Domain

    OpenAIRE

    Eman Ghanem Nayef; Nik Rosila Nik Yaacob; Hairul Nizam Ismail

    2013-01-01

    This paper highlights an effort to study the educational objective domain taxonomies including Bloom’s taxonomy, Lorin Anderson’s taxonomy, and Wilson’s taxonomy. In this study a comparison among these three taxonomies have been done. Results show that Bloom’s taxonomy is more suitable as an analysis tool to Educational Objective domain.

  10. Chemical diversity of organic volatiles among comets: An emerging taxonomy and implications for processes in the proto-planetary disk

    Science.gov (United States)

    Mumma, Michael J.

    2008-10-01

    As messengers from the early Solar System, comets contain key information from the time of planet formation and even earlier some may contain material formed in our natal interstellar cloud. Along with water, the cometary nucleus contains ices of natural gases (CH4, C2H6), alcohols (CH3OH), acids (HCOOH), embalming fluid (H2CO), and even anti-freeze (ethylene glycol). Comets today contain some ices that vaporize at temperatures near absolute zero (CO, CH4), demonstrating that their compositions remain largely unchanged after 4.5 billion years. By comparing their chemical diversity, several distinct cometary classes have been identified but their specific relation to chemical gradients in the proto-planetary disk remains murky. How does the compositional diversity of comets relate to nebular processes such as chemical processing, radial migration, and dynamical scattering? No current reservoir holds a unique class, but their fractional abundance can test emerging dynamical models for origins of the scattered Kuiper disk, the Oort cloud, and the (proposed) main-belt comets. I will provide a simplified overview emphasizing what we are learning, current issues, and their relevance to the subject of this Symposium.

  11. Taxonomy Icon Data: sea lamprey [Taxonomy Icon

    Lifescience Database Archive (English)

    Full Text Available sea lamprey Petromyzon marinus Chordata/Vertebrata/Hyperoartia Petromyzon_marinus_L.png Pet...romyzon_marinus_NL.png Petromyzon_marinus_S.png Petromyzon_marinus_NS.png http://biosciencedbc.jp/ta...xonomy_icon/icon.cgi?i=Petromyzon+marinus&t=L http://biosciencedbc.jp/taxonomy_icon/icon.cgi?i=Petromyzon+ma...rinus&t=NL http://biosciencedbc.jp/taxonomy_icon/icon.cgi?i=Petromyzon+marinus&t=S http://biosciencedbc.jp/taxonomy_icon/icon.cgi?i=Petromyzon+marinus&t=NS ...

  12. Taxonomy Icon Data: dog [Taxonomy Icon

    Lifescience Database Archive (English)

    Full Text Available dog Canis lupus familiaris Chordata/Vertebrata/Mammalia/Theria/Eutheria/Carnivora Canis_lupus_familia...ris_L.png Canis_lupus_familiaris_NL.png Canis_lupus_familiaris_S.png Canis_lupus_familiari...s_NS.png http://biosciencedbc.jp/taxonomy_icon/icon.cgi?i=Canis+lupus+familiaris&t=L http://biosciencedbc.jp.../taxonomy_icon/icon.cgi?i=Canis+lupus+familiaris&t=NL http://biosciencedbc.jp/tax...onomy_icon/icon.cgi?i=Canis+lupus+familiaris&t=S http://biosciencedbc.jp/taxonomy_icon/icon.cgi?i=Canis+lupus+familiaris&t=NS ...

  13. Taxonomy Icon Data: Australian echidna [Taxonomy Icon

    Lifescience Database Archive (English)

    Full Text Available Australian echidna Tachyglossus aculeatus Chordata/Vertebrata/Mammalia/Prototheria Tachygloss...us_aculeatus_L.png Tachyglossus_aculeatus_NL.png Tachyglossus_aculeatus_S.png Tachyglossus_aculeat...us_NS.png http://biosciencedbc.jp/taxonomy_icon/icon.cgi?i=Tachyglossus+aculeatus&t=L http://biosciencedbc.j...p/taxonomy_icon/icon.cgi?i=Tachyglossus+aculeatus&t=NL http://biosciencedbc.jp/ta...xonomy_icon/icon.cgi?i=Tachyglossus+aculeatus&t=S http://biosciencedbc.jp/taxonomy_icon/icon.cgi?i=Tachyglossus+aculeatus&t=NS ...

  14. Taxonomy Icon Data: Arabian camel [Taxonomy Icon

    Lifescience Database Archive (English)

    Full Text Available Arabian camel Camelus dromedarius Chordata/Vertebrata/Mammalia/Theria/Eutheria/Artiodactyla Camelus_dromedar...ius_L.png Camelus_dromedarius_NL.png Camelus_dromedarius_S.png Camelus_dromedarius_...NS.png http://biosciencedbc.jp/taxonomy_icon/icon.cgi?i=Camelus+dromedarius&t=L http://biosciencedbc.jp/taxo...nomy_icon/icon.cgi?i=Camelus+dromedarius&t=NL http://biosciencedbc.jp/taxonomy_ic...on/icon.cgi?i=Camelus+dromedarius&t=S http://biosciencedbc.jp/taxonomy_icon/icon.cgi?i=Camelus+dromedarius&t=NS ...

  15. Taxonomy Icon Data: pronghorn [Taxonomy Icon

    Lifescience Database Archive (English)

    Full Text Available pronghorn Antilocapra americana Chordata/Vertebrata/Mammalia/Theria/Eutheria/Artiodactyla Antilocapra..._americana_L.png Antilocapra_americana_NL.png Antilocapra_americana_S.png Antilocapra_amer...icana_NS.png http://biosciencedbc.jp/taxonomy_icon/icon.cgi?i=Antilocapra+americana&t=L http://biosciencedbc....jp/taxonomy_icon/icon.cgi?i=Antilocapra+americana&t=NL http://biosciencedbc.jp/t...axonomy_icon/icon.cgi?i=Antilocapra+americana&t=S http://biosciencedbc.jp/taxonomy_icon/icon.cgi?i=Antilocapra+americana&t=NS ...

  16. Integrative taxonomy: Combining morphological, molecular and chemical data for species delineation in the parthenogenetic Trhypochthonius tectorum complex (Acari, Oribatida, Trhypochthoniidae

    Directory of Open Access Journals (Sweden)

    Weigmann Gerd

    2011-02-01

    Full Text Available Abstract Background There is a long-standing controversial about how parthenogenetic species can be defined in absence of a generally accepted species concept for this reproductive mode. An integrative approach was suggested, combining molecular and morphological data to identify distinct monophyletic entities. Using this approach, speciation of parthenogenetic lineages was recently demonstrated for groups of bdelloid rotifers and oribatid mites. Trhypochthonius tectorum, an oribatid mite from the entirely parthenogenetic desmonomatan family Trhypochthoniidae, is traditionally treated as a single species in Central Europe. However, two new morphological lineages were recently proposed for some Austrian populations of T. tectorum, and were described as novel subspecies (T. silvestris europaeus or form (T. japonicus forma occidentalis. We used the morphological and morphometrical data which led to this separation, and added mitochondrial and nuclear DNA sequences and the chemical composition of complex exocrine oil gland secretions to test this taxonomical hypothesis. This is the first attempt to combine these three types of data for integrative taxonomical investigations of oribatid mites. Results We show that the previous European species T. tectorum represents a species complex consisting of three distinct lineages in Austria (T.tectorum, T. silvestris europaeus and T. japonicus forma occidentalis, each clearly separated by morphology, oil gland secretion profiles and mitochondrial cox1 sequences. This diversification happened in the last ten million years. In contrast to these results, no variation among the lineages was found in the nuclear 18S rDNA. Conclusions Our approach combined morphological, molecular and chemical data to investigate diversity and species delineation in a parthenogenetic oribatid mite species complex. To date, hypotheses of a general oribatid mite phylogeny are manifold, and mostly based on single-method approaches

  17. Taxonomy Icon Data: Sugarcane [Taxonomy Icon

    Lifescience Database Archive (English)

    Full Text Available Sugarcane Saccharum officinarum Saccharum_officinarum_L.png Saccharum_officinarum_NL.png Saccharum_officinarum_S.png Saccharum_officinarum_NS.png http://biosciencedbc.jp/taxonomy_icon/icon.cg

  18. Taxonomy of Payments

    DEFF Research Database (Denmark)

    Hedman, Jonas; Tan, Felix B.; Holst, Jacques

    2017-01-01

    . The approach draws heavily on organizational systematics to better understand payers’ choice of payment instruments. Findings: A four-category taxonomy of payments was developed. The authors refer to the taxonomy as the 4Ps: the purchase, the payer, the payment instrument, and the physical technology......) there are over 12,000 startups in the payment arena. For them, the taxonomy can function as a template for the design of payment instruments, as well as understanding the various factors that influence payer choice of payment instruments. Originality/value: The main contribution of this paper is the 4Ps taxonomy...

  19. The NCBI Taxonomy database.

    Science.gov (United States)

    Federhen, Scott

    2012-01-01

    The NCBI Taxonomy database (http://www.ncbi.nlm.nih.gov/taxonomy) is the standard nomenclature and classification repository for the International Nucleotide Sequence Database Collaboration (INSDC), comprising the GenBank, ENA (EMBL) and DDBJ databases. It includes organism names and taxonomic lineages for each of the sequences represented in the INSDC's nucleotide and protein sequence databases. The taxonomy database is manually curated by a small group of scientists at the NCBI who use the current taxonomic literature to maintain a phylogenetic taxonomy for the source organisms represented in the sequence databases. The taxonomy database is a central organizing hub for many of the resources at the NCBI, and provides a means for clustering elements within other domains of NCBI web site, for internal linking between domains of the Entrez system and for linking out to taxon-specific external resources on the web. Our primary purpose is to index the domain of sequences as conveniently as possible for our user community.

  20. Taxonomy Icon Data: crab-eating macaque [Taxonomy Icon

    Lifescience Database Archive (English)

    Full Text Available _NS.png http://biosciencedbc.jp/taxonomy_icon/icon.cgi?i=Macaca+fascicularis&t=L http://biosciencedbc.jp/taxonomy..._icon/icon.cgi?i=Macaca+fascicularis&t=NL http://biosciencedbc.jp/taxonomy_i...con/icon.cgi?i=Macaca+fascicularis&t=S http://biosciencedbc.jp/taxonomy_icon/icon.cgi?i=Macaca+fascicularis&t=NS ...

  1. Taxonomy Icon Data: gray slender loris [Taxonomy Icon

    Lifescience Database Archive (English)

    Full Text Available NS.png http://biosciencedbc.jp/taxonomy_icon/icon.cgi?i=Loris+lydekkerianus&t=L http://biosciencedbc.jp/taxonomy..._icon/icon.cgi?i=Loris+lydekkerianus&t=NL http://biosciencedbc.jp/taxonomy_ic...on/icon.cgi?i=Loris+lydekkerianus&t=S http://biosciencedbc.jp/taxonomy_icon/icon.cgi?i=Loris+lydekkerianus&t=NS ...

  2. Taxonomy Icon Data: northern fur seal [Taxonomy Icon

    Lifescience Database Archive (English)

    Full Text Available _NS.png http://biosciencedbc.jp/taxonomy_icon/icon.cgi?i=Callorhinus+ursinus&t=L http://biosciencedbc.jp/taxonomy..._icon/icon.cgi?i=Callorhinus+ursinus&t=NL http://biosciencedbc.jp/taxonomy_i...con/icon.cgi?i=Callorhinus+ursinus&t=S http://biosciencedbc.jp/taxonomy_icon/icon.cgi?i=Callorhinus+ursinus&t=NS ...

  3. Taxonomy Icon Data: aye-aye [Taxonomy Icon

    Lifescience Database Archive (English)

    Full Text Available .png Daubentonia_madagascariensis_NS.png http://biosciencedbc.jp/taxonomy_icon/icon.cgi?i=Daubentonia+madaga...scariensis&t=L http://biosciencedbc.jp/taxonomy_icon/icon.cgi?i=Daubentonia+madag...ascariensis&t=NL http://biosciencedbc.jp/taxonomy_icon/icon.cgi?i=Daubentonia+madagascariensis&t=S http://biosciencedbc.jp/taxonomy..._icon/icon.cgi?i=Daubentonia+madagascariensis&t=NS http://togodb.biosciencedbc.jp/togodb/view/taxonomy_icon_comment_en?species_id=1 ...

  4. Taxonomy Icon Data: Halocynthia roretzi (Sea squirt) [Taxonomy Icon

    Lifescience Database Archive (English)

    Full Text Available .png http://biosciencedbc.jp/taxonomy_icon/icon.cgi?i=Halocynthia+roretzi&t=L http://biosciencedbc.jp/taxonomy..._icon/icon.cgi?i=Halocynthia+roretzi&t=NL http://biosciencedbc.jp/taxonomy_icon.../icon.cgi?i=Halocynthia+roretzi&t=S http://biosciencedbc.jp/taxonomy_icon/icon.cgi?i=Halocynthia+roretzi&t=N...S http://togodb.biosciencedbc.jp/togodb/view/taxonomy_icon_comment_en?species_id=183 ...

  5. Taxonomy Icon Data: common brandling worm [Taxonomy Icon

    Lifescience Database Archive (English)

    Full Text Available L.png Eisenia_fetida_S.png Eisenia_fetida_NS.png http://biosciencedbc.jp/taxonomy_icon/icon.cgi?i=Eisenia+fe...tida&t=L http://biosciencedbc.jp/taxonomy_icon/icon.cgi?i=Eisenia+fetida&t=NL http://biosciencedbc.jp/taxonomy..._icon/icon.cgi?i=Eisenia+fetida&t=S http://biosciencedbc.jp/taxonomy_icon/icon....cgi?i=Eisenia+fetida&t=NS http://togodb.biosciencedbc.jp/togodb/view/taxonomy_icon_comment_en?species_id=73 ...

  6. Taxonomy Icon Data: Kuroda's sea hare [Taxonomy Icon

    Lifescience Database Archive (English)

    Full Text Available .png Aplysia_kurodai_S.png Aplysia_kurodai_NS.png http://biosciencedbc.jp/taxonomy_icon/icon.cgi?i=Aplysia+k...urodai&t=L http://biosciencedbc.jp/taxonomy_icon/icon.cgi?i=Aplysia+kurodai&t=NL http://biosciencedbc.jp/taxonomy..._icon/icon.cgi?i=Aplysia+kurodai&t=S http://biosciencedbc.jp/taxonomy_icon/i...con.cgi?i=Aplysia+kurodai&t=NS http://togodb.biosciencedbc.jp/togodb/view/taxonomy_icon_comment_en?species_id=14 ...

  7. The Taxonomy of Intervention Intensity

    Science.gov (United States)

    Fuchs, Lynn S.; Fuchs, Douglas; Malone, Amelia S.

    2016-01-01

    The purpose of this article is to describe the Taxonomy of Intervention Intensity, which articulates 7 dimensions for evaluating and building intervention intensity. We explain the Taxonomy's dimensions of intensity. In explaining the Taxonomy, we rely on a case study to illustrate how the Taxonomy can systematize the process by which special…

  8. A Taxonomy for Conceptualizing Teaching.

    Science.gov (United States)

    Seda, E. Elliott

    This paper details the development of a taxonomy for conceptualizing teaching. This taxonomy is presented as a means to help educators understand and interpret what it is they do and continue in the process of searching and understanding. The purpose of developing a taxonomy, the basis for the dimensions--or subject matter--for the taxonomy, and…

  9. Public health workforce taxonomy.

    Science.gov (United States)

    Boulton, Matthew L; Beck, Angela J; Coronado, Fátima; Merrill, Jacqueline A; Friedman, Charles P; Stamas, George D; Tyus, Nadra; Sellers, Katie; Moore, Jean; Tilson, Hugh H; Leep, Carolyn J

    2014-11-01

    Thoroughly characterizing and continuously monitoring the public health workforce is necessary for ensuring capacity to deliver public health services. A prerequisite for this is to develop a standardized methodology for classifying public health workers, permitting valid comparisons across agencies and over time, which does not exist for the public health workforce. An expert working group, all of whom are authors on this paper, was convened during 2012-2014 to develop a public health workforce taxonomy. The purpose of the taxonomy is to facilitate the systematic characterization of all public health workers while delineating a set of minimum data elements to be used in workforce surveys. The taxonomy will improve the comparability across surveys, assist with estimating duplicate counting of workers, provide a framework for describing the size and composition of the workforce, and address other challenges to workforce enumeration. The taxonomy consists of 12 axes, with each axis describing a key characteristic of public health workers. Within each axis are multiple categories, and sometimes subcategories, that further define that worker characteristic. The workforce taxonomy axes are occupation, workplace setting, employer, education, licensure, certification, job tasks, program area, public health specialization area, funding source, condition of employment, and demographics. The taxonomy is not intended to serve as a replacement for occupational classifications but rather is a tool for systematically categorizing worker characteristics. The taxonomy will continue to evolve as organizations implement it and recommend ways to improve this tool for more accurate workforce data collection.

  10. EPA Web Taxonomy

    Data.gov (United States)

    U.S. Environmental Protection Agency — EPA's Web Taxonomy is a faceted hierarchical vocabulary used to tag web pages with terms from a controlled vocabulary. Tagging enables search and discovery of EPA's...

  11. A Taxonomy of Networks

    CERN Document Server

    Onnela, Jukka-Pekka; Reid, Stephen; Porter, Mason A; Mucha, Peter J; Fricker, Mark D; Jones, Nick S

    2010-01-01

    The study of networks has grown into a substantial interdisciplinary endeavor across the natural, social, and information sciences. Yet there have been very few attempts to investigate the interrelatedness of the different classes of networks studied by different disciplines. Here, we introduced a framework to establish a taxonomy of networks from various origins. The provision of this family tree not only helps understand the kinship of networks, but also facilitates the transfer of empirical analysis, theoretical modeling, and conceptual developments across disciplinary boundaries. The framework is based on probing the mesoscopic properties of networks, an important source of heterogeneity for their structure and function. Using our method, we computed a taxonomy for 752 individual networks and a separate taxonomy for 12 network classes. We also computed three within-class taxonomies for political, fungal, and financial networks, and found them to be insightful in each case.

  12. [Concepts of rational taxonomy].

    Science.gov (United States)

    Pavlinov, I Ia

    2011-01-01

    The problems are discussed related to development of concepts of rational taxonomy and rational classifications (taxonomic systems) in biology. Rational taxonomy is based on the assumption that the key characteristic of rationality is deductive inference of certain partial judgments about reality under study from other judgments taken as more general and a priory true. Respectively, two forms of rationality are discriminated--ontological and epistemological ones. The former implies inference of classifications properties from general (essential) properties of the reality being investigated. The latter implies inference of the partial rules of judgments about classifications from more general (formal) rules. The following principal concepts of ontologically rational biological taxonomy are considered: "crystallographic" approach, inference of the orderliness of organismal diversity from general laws of Nature, inference of the above orderliness from the orderliness of ontogenetic development programs, based on the concept of natural kind and Cassirer's series theory, based on the systemic concept, based on the idea of periodic systems. Various concepts of ontologically rational taxonomy can be generalized by an idea of the causal taxonomy, according to which any biologically sound classification is founded on a contentwise model of biological diversity that includes explicit indication of general causes responsible for that diversity. It is asserted that each category of general causation and respective background model may serve as a basis for a particular ontologically rational taxonomy as a distinctive research program. Concepts of epistemologically rational taxonomy and classifications (taxonomic systems) can be interpreted in terms of application of certain epistemological criteria of substantiation of scientific status of taxonomy in general and of taxonomic systems in particular. These concepts include: consideration of taxonomy consistency from the

  13. Application of Modern Experimental Technique to Solve Morphological Complexity in Plants Taxonomy

    Directory of Open Access Journals (Sweden)

    SURANTO

    2000-07-01

    Full Text Available Modern taxonomy has two approaches, i.e. classical and experimental taxonomy. Classical taxonomy uses morphological characters, while experimental taxonomy uses broader methods including chemistry, physics and mathematics, in the form of laboratory data that are revealed together with the progress of optical technique (microscope, chemistry methods (chromatography, electrophoresis, etc. Modern taxonomy tends to use series of interrelated data. More data used would result in more validity and give better clarification of taxonomic status. A lot of modern taxonomic data such as palynology, cytotaxonomy (cytology, chemical constituent (chemotaxonomy, isozyme and DNA sequencing were used recently.

  14. Taxonomy Icon Data: hemichordates (Acorn worm) [Taxonomy Icon

    Lifescience Database Archive (English)

    Full Text Available hemichordates (Acorn worm) Glandiceps hacksi Hemichordata Glandiceps_hacksi_L.png G...landiceps_hacksi_NL.png Glandiceps_hacksi_S.png Glandiceps_hacksi_NS.png http://biosciencedbc.jp/taxonomy_icon/ico...n.cgi?i=Glandiceps+hacksi&t=L http://biosciencedbc.jp/taxonomy_icon/icon.cgi?i=Glandiceps+hacksi&t=NL ...http://biosciencedbc.jp/taxonomy_icon/icon.cgi?i=Glandiceps+hacksi&t=S http://biosciencedbc.jp/taxonomy_icon/icon.cgi?i=Glandiceps+hacksi&t=NS ...

  15. Taxonomy Icon Data: common water flea [Taxonomy Icon

    Lifescience Database Archive (English)

    Full Text Available common water flea Daphnia pulex Arthropoda Daphnia_pulex_L.png Daphnia_pulex_NL.png... Daphnia_pulex_S.png Daphnia_pulex_NS.png http://biosciencedbc.jp/taxonomy_icon/icon.cgi?i=Daphnia+pulex&t=L... http://biosciencedbc.jp/taxonomy_icon/icon.cgi?i=Daphnia+pulex&t=NL http://biosciencedbc.jp/taxonomy_icon/ico...n.cgi?i=Daphnia+pulex&t=S http://biosciencedbc.jp/taxonomy_icon/icon.cgi?i=Daphnia+pulex&t=NS ...

  16. Taxonomy Icon Data: African malaria mosquito [Taxonomy Icon

    Lifescience Database Archive (English)

    Full Text Available African malaria mosquito Anopheles gambiae Arthropoda Anopheles_gambiae_L.png Anopheles_gambia...e_NL.png Anopheles_gambiae_S.png Anopheles_gambiae_NS.png http://biosciencedbc.jp/taxonomy_icon/icon.cgi?i=Anopheles+gambi...ae&t=L http://biosciencedbc.jp/taxonomy_icon/icon.cgi?i=Anopheles+gambiae&t=NL http...://biosciencedbc.jp/taxonomy_icon/icon.cgi?i=Anopheles+gambiae&t=S http://biosciencedbc.jp/taxonomy_icon/icon.cgi?i=Anopheles+gambiae&t=NS ...

  17. Taxonomy Icon Data: yellow fever mosquito [Taxonomy Icon

    Lifescience Database Archive (English)

    Full Text Available yellow fever mosquito Aedes aegypti Arthropoda Aedes_aegypti_L.png Aedes_aegypti_NL.png Aedes_aegypt...i_S.png Aedes_aegypti_NS.png http://biosciencedbc.jp/taxonomy_icon/icon.cgi?i=Aedes+aegypti...&t=L http://biosciencedbc.jp/taxonomy_icon/icon.cgi?i=Aedes+aegypti&t=NL http://biosciencedbc.jp/taxonomy_icon/icon.cgi?i=Aedes+aegyp...ti&t=S http://biosciencedbc.jp/taxonomy_icon/icon.cgi?i=Aedes+aegypti&t=NS ...

  18. Taxonomy Icon Data: Striped bark scorpion [Taxonomy Icon

    Lifescience Database Archive (English)

    Full Text Available Centruroides_vittatus_NL.png Centruroides_vittatus_S.png Centruroides_vittatus_NS.png http://biosciencedbc.jp/taxonomy..._icon/icon.cgi?i=Centruroides+vittatus&t=L http://biosciencedbc.jp/taxonomy_icon/icon.cgi?i=Centru...roides+vittatus&t=NL http://biosciencedbc.jp/taxonomy_icon/icon.cgi?i=Centruroide...s+vittatus&t=S http://biosciencedbc.jp/taxonomy_icon/icon.cgi?i=Centruroides+vittatus&t=NS ...

  19. Taxonomy Icon Data: Gossypium raimondii Ulbr. [Taxonomy Icon

    Lifescience Database Archive (English)

    Full Text Available aimondii_NL.png Gossypium_raimondii_S.png Gossypium_raimondii_NS.png http://biosciencedbc.jp/taxonomy_icon/i...con.cgi?i=Gossypium+raimondii&t=L http://biosciencedbc.jp/taxonomy_icon/icon.cgi?i=Gossypium+raimondii&t=NL ...http://biosciencedbc.jp/taxonomy_icon/icon.cgi?i=Gossypium+raimondii&t=S http://biosciencedbc.jp/taxonomy_icon/icon.cgi?i=Gossypium+raimondii&t=NS ...

  20. Taxonomy Icon Data: cape rock hyrax [Taxonomy Icon

    Lifescience Database Archive (English)

    Full Text Available Procavia_capensis_L.png Procavia_capensis_NL.png Procavia_capensis_S.png Procavia_capensis_NS.png http://biosciencedbc.jp/taxonomy..._icon/icon.cgi?i=Procavia+capensis&t=L http://biosciencedbc.jp/taxonomy_icon/icon.cgi...?i=Procavia+capensis&t=NL http://biosciencedbc.jp/taxonomy_icon/icon.cgi?i=Procav...ia+capensis&t=S http://biosciencedbc.jp/taxonomy_icon/icon.cgi?i=Procavia+capensis&t=NS ...

  1. A Theory of Taxonomy

    CERN Document Server

    D'Amico, Guido; Kleban, Matthew

    2016-01-01

    A taxonomy is a standardized framework to classify and organize items into categories. Hierarchical taxonomies are ubiquitous, ranging from the classification of organisms to the file system on a computer. Characterizing the typical distribution of items within taxonomic categories is an important question with applications in many disciplines. Ecologists have long sought to account for the patterns observed in species-abundance distributions (the number of individuals per species found in some sample), and computer scientists study the distribution of files per directory. Is there a universal statistical distribution describing how many items are typically found in each category in large taxonomies? Here, we analyze a wide array of large, real-world datasets -- including items lost and found on the New York City transit system, library books, and a bacterial microbiome -- and discover such an underlying commonality. A simple, non-parametric branching model that randomly categorizes items and takes as input o...

  2. Teaching Taxonomy: How Many Kingdoms?

    Science.gov (United States)

    Case, Emily

    2008-01-01

    Taxonomy, the identification, naming, and classification of living things, is an indispensable unit in any biology curriculum and indeed, an integral part of biological science. Taxonomy catalogues life's diversity and is an essential tool for communication. Textbook discussions of taxonomy range anywhere from three to eight domains of kingdoms.…

  3. ICTV Virus Taxonomy Profile

    DEFF Research Database (Denmark)

    Simmonds, Peter; Becher, Paul; Bukh, Jens

    2017-01-01

    The Flaviviridae is a family of small enveloped viruses with RNA genomes of 9000-13 000 bases. Most infect mammals and birds. Many flaviviruses are host-specific and pathogenic, such as hepatitis C virus in the genus Hepacivirus. The majority of known members in the genus Flavivirus are arthropod...... borne, and many are important human and veterinary pathogens (e.g. yellow fever virus, dengue virus). This is a summary of the current International Committee on Taxonomy of Viruses (ICTV) report on the taxonomy of the Flaviviridae, which is available at www.ictv.global/report/flaviviridae....

  4. Taxonomy Icon Data: Western clawed frog [Taxonomy Icon

    Lifescience Database Archive (English)

    Full Text Available Western clawed frog Xenopus tropicalis Chordata/Vertebrata/Amphibia Xenopus_tropicalis_L.png Xenopus..._tropicalis_NL.png Xenopus_tropicalis_S.png Xenopus_tropicalis_NS.png http://biosciencedbc....jp/taxonomy_icon/icon.cgi?i=Xenopus+tropicalis&t=L http://biosciencedbc.jp/taxonomy_icon/icon.cgi?i=Xenopus+...tropicalis&t=NL http://biosciencedbc.jp/taxonomy_icon/icon.cgi?i=Xenopus+tropical...is&t=S http://biosciencedbc.jp/taxonomy_icon/icon.cgi?i=Xenopus+tropicalis&t=NS http://togodb.biosciencedbc.jp/togodb/view/taxonomy_icon_comment_en?species_id=137 ...

  5. Taxonomy Icon Data: African clawed frog [Taxonomy Icon

    Lifescience Database Archive (English)

    Full Text Available g Xenopus_laevis_NL.png Xenopus_laevis_S.png Xenopus_laevis_NS.png http://biosciencedbc.jp/taxonomy_icon/ico...n.cgi?i=Xenopus+laevis&t=L http://biosciencedbc.jp/taxonomy_icon/icon.cgi?i=Xenopus+laevis&t=NL http://biosciencedbc.jp/taxonomy..._icon/icon.cgi?i=Xenopus+laevis&t=S http://biosciencedbc.jp/taxonomy..._icon/icon.cgi?i=Xenopus+laevis&t=NS http://togodb.biosciencedbc.jp/togodb/view/taxonomy_icon_comment_en?species_id=11 ...

  6. Taxonomy Icon Data: Old world swallowtail [Taxonomy Icon

    Lifescience Database Archive (English)

    Full Text Available aon_NL.png Papilio_machaon_S.png Papilio_machaon_NS.png http://biosciencedbc.jp/taxonomy_icon/icon.cgi?i=Pap...ilio+machaon&t=L http://biosciencedbc.jp/taxonomy_icon/icon.cgi?i=Papilio+machaon&t=NL http://biosciencedbc.jp/taxonomy..._icon/icon.cgi?i=Papilio+machaon&t=S http://biosciencedbc.jp/taxonomy_...icon/icon.cgi?i=Papilio+machaon&t=NS http://togodb.biosciencedbc.jp/togodb/view/taxonomy_icon_comment_en?species_id=47 ...

  7. Taxonomy Icon Data: malaria parasite P. falciparum [Taxonomy Icon

    Lifescience Database Archive (English)

    Full Text Available malaria parasite P. falciparum Plasmodium falciparum Plasmodium_falciparum_L.png Plasmodium_falci...parum_NL.png Plasmodium_falciparum_S.png Plasmodium_falciparum_NS.png http://biosciencedbc.jp/...taxonomy_icon/icon.cgi?i=Plasmodium+falciparum&t=L http://biosciencedbc.jp/taxonomy_icon/icon.cgi?i=Plasmodium+falci...parum&t=NL http://biosciencedbc.jp/taxonomy_icon/icon.cgi?i=Plasmodium+falci...parum&t=S http://biosciencedbc.jp/taxonomy_icon/icon.cgi?i=Plasmodium+falciparum&t=NS http://togodb.biosciencedbc.jp/togodb/view/taxonomy_icon_comment_en?species_id=218 ...

  8. Scientific and non-scientific information in the uptake of health information: The case of Ebola

    Directory of Open Access Journals (Sweden)

    Bankole A. Falade

    2017-07-01

    Full Text Available The Ebola virus disease outbreak in West Africa (2013–2016 claimed over 10 000 lives in less than 18 months. Low levels of familiarity with the disease, ease of transmission, scale of infection, gruesomeness of symptoms, lack of cure and high fatality rate created a global panic. From the perspective of the social psychology of communication and content analysis, this study examines media coverage of the crisis in Africa with a view to unpacking the scientific and non-scientific information that may have framed public understanding of the disease. Findings show that accepting scientific advice was not unproblematic, because of the similarity of early symptoms with known diseases such as Lassa, dengue and malaria fevers. Cultural and religious actors and beliefs posed a paradox for believers as the public assimilated disease prevention information into existing norms and practices. Rumours and conspiracy theories about Western governments and pharmaceuticals also contributed to the rejection of the scientific explanation of its origin. Fear of the devastating effects of the disease and the lack of a cure led to the stigmatisation of the infected and treatment centres and ultimately to public revolts. Findings show the importance of non-scientific information and actors in matters of health and illness in Africa. Significance: Scientific knowledge is not enough to change health behaviour. Non-scientific knowledge and actors, traditional and religious practices, rumours and conspiracy theories must all be factored into efforts to address behavioural change.

  9. Comment: 13 [Taxonomy Icon

    Lifescience Database Archive (English)

    Full Text Available Life Science licensed under CC Attribution2.1 Japan ヒトアイコンの別候補を作成してみました。 ttamura 2008/11/06 17:14:44 ... ...Human Homo sapiens Homo_sapiens_L.png 13.png Taxonomy icon (c) Database Center for

  10. Company Taxonomy development

    DEFF Research Database (Denmark)

    Lund, Haakon; Ørnager, Susanne

    2016-01-01

    Purpose – The purpose of this paper is to explore theoretically and empirically the understanding and implementation of an information taxonomy in the UN organization World Food Programme (WFP) by analysing users’ information behaviour and by establishing a minimum set of cross-silo metadata...

  11. Comment: 215 [Taxonomy Icon

    Lifescience Database Archive (English)

    Full Text Available 215.png Taxonomy icon (c) Database Center for Life Science licensed under CC Attribution2.1 Japan アイコン:電子顕微鏡バージョン bando 2010/02/15 15:30:03 2010/02/15 15:30:03 ...

  12. Comment: 61 [Taxonomy Icon

    Lifescience Database Archive (English)

    Full Text Available .png Taxonomy icon (c) Database Center for Life Science licensed under CC Attribution2.1 Japan イメージを差し替えました(添付は旧イメージ) ttamura 2009/04/21 12:50:03 ...

  13. Taxonomy in Epistemology

    Science.gov (United States)

    Galloway, Jerry P.

    2011-01-01

    This paper outlines a theoretical paradigm for distinguishing thinking, knowing and believing. A new taxonomy is presented for categorizing levels of knowing and outlines a structure of justification for each level. The paper discusses and explains the importance of such distinctions in decision making and thinking in general.

  14. Comment: 2 [Taxonomy Icon

    Lifescience Database Archive (English)

    Full Text Available bottlenosed dolphin Tursiops truncatus Tursiops_truncatus_L.png 2.png Taxonomy icon (c) Database Cen...ter for Life Science licensed under CC Attribution2.1 Japan サンプルの投稿です ttamura 2008/10/29 11:43:57 ...

  15. Company Taxonomy development

    DEFF Research Database (Denmark)

    Lund, Haakon; Ørnager, Susanne

    2016-01-01

    and knowledge, greater internal collaborations and stronger links with various sources of knowledge. Staff participating in the various workshops pointed out that work processes as well as the human resources component cannot be left out of a solution development. Originality/value – There has been little......Purpose – The purpose of this paper is to explore theoretically and empirically the understanding and implementation of an information taxonomy in the UN organization World Food Programme (WFP) by analysing users’ information behaviour and by establishing a minimum set of cross-silo metadata...... (taxonomy). Design/methodology/approach – The study implies the use of both qualitative and quantitative methods. This includes desk review of key documents and interviews with information architecture staff from various WFP units; data collection carried out as semi-structured staff interviews in WFP; log...

  16. Taxonomy Icon Data: Javan tree shrew [Taxonomy Icon

    Lifescience Database Archive (English)

    Full Text Available Javan tree shrew Tupaia javanica Chordata/Vertebrata/Mammalia/Theria/Eutheria/etc. Tupaia_javan...ica_L.png Tupaia_javanica_NL.png Tupaia_javanica_S.png Tupaia_javanica_NS.png http://bioscienced...bc.jp/taxonomy_icon/icon.cgi?i=Tupaia+javanica&t=L http://biosciencedbc.jp/taxonomy_icon/icon.cgi?i=Tupaia+javan...ica&t=NL http://biosciencedbc.jp/taxonomy_icon/icon.cgi?i=Tupaia+javanica&t=S http://biosciencedbc.jp/taxonomy_icon/icon.cgi?i=Tupaia+javanica&t=NS ...

  17. Taxonomy Icon Data: Florida lancelet (amphioxus) [Taxonomy Icon

    Lifescience Database Archive (English)

    Full Text Available Florida lancelet (amphioxus) Branchiostoma floridae Chordata/Urochordata,Cephalochorda...ta Branchiostoma_floridae_L.png Branchiostoma_floridae_NL.png Branchiostoma_floridae_S.png Branchiostoma_florida...e_NS.png http://biosciencedbc.jp/taxonomy_icon/icon.cgi?i=Branchiostoma+floridae&t=L http://bioscienc...edbc.jp/taxonomy_icon/icon.cgi?i=Branchiostoma+floridae&t=NL http://biosciencedbc....jp/taxonomy_icon/icon.cgi?i=Branchiostoma+floridae&t=S http://biosciencedbc.jp/taxonomy_icon/icon.cgi?i=Branchiostoma+florida

  18. Taxonomy Icon Data: California sea lion [Taxonomy Icon

    Lifescience Database Archive (English)

    Full Text Available California sea lion Zalophus californianus Chordata/Vertebrata/Mammalia/Theria/Euth...eria/Carnivora Zalophus_californianus_L.png Zalophus_californianus_NL.png Zalophus_californianus_S.png Zalophus_california...nus_NS.png http://biosciencedbc.jp/taxonomy_icon/icon.cgi?i=Zalophus+californianus&t=L http://...biosciencedbc.jp/taxonomy_icon/icon.cgi?i=Zalophus+californianus&t=NL http://bios...ciencedbc.jp/taxonomy_icon/icon.cgi?i=Zalophus+californianus&t=S http://biosciencedbc.jp/taxonomy_icon/icon.cgi?i=Zalophus+californianus&t=NS ...

  19. Taxonomy Icon Data: wild Bactrian camel [Taxonomy Icon

    Lifescience Database Archive (English)

    Full Text Available wild Bactrian camel Camelus ferus Chordata/Vertebrata/Mammalia/Theria/Eutheria/Artiodactyla Cam...elus_ferus_L.png Camelus_ferus_NL.png Camelus_ferus_S.png Camelus_ferus_NS.png http://bioscience...dbc.jp/taxonomy_icon/icon.cgi?i=Camelus+ferus&t=L http://biosciencedbc.jp/taxonomy_icon/icon.cgi?i=Camelus+f...erus&t=NL http://biosciencedbc.jp/taxonomy_icon/icon.cgi?i=Camelus+ferus&t=S http://biosciencedbc.jp/taxonomy_icon/icon.cgi?i=Camelus+ferus&t=NS ...

  20. Taxonomy Icon Data: white-tufted-ear marmoset [Taxonomy Icon

    Lifescience Database Archive (English)

    Full Text Available white-tufted-ear marmoset Callithrix jacchus Chordata/Vertebrata/Mammalia/Theria/Eutheria/Primate Call...ithrix_jacchus_L.png Callithrix_jacchus_NL.png Callithrix_jacchus_S.png Callithrix_jacchu...s_NS.png http://biosciencedbc.jp/taxonomy_icon/icon.cgi?i=Callithrix+jacchus&t=L http://biosciencedbc.jp/taxonomy_icon/icon.cgi?i=Cal...lithrix+jacchus&t=NL http://biosciencedbc.jp/taxonomy_icon/icon.cgi?i=Call...ithrix+jacchus&t=S http://biosciencedbc.jp/taxonomy_icon/icon.cgi?i=Callithrix+jacchus&t=NS ...

  1. Taxonomy Icon Data: red flour beetle [Taxonomy Icon

    Lifescience Database Archive (English)

    Full Text Available red flour beetle Tribolium castaneum Arthropoda Tribolium_castaneum_L.png Tribolium_cast...aneum_NL.png Tribolium_castaneum_S.png Tribolium_castaneum_NS.png http://biosciencedbc.jp/taxonomy_icon/icon.cgi?i=Tribolium+cas...taneum&t=L http://biosciencedbc.jp/taxonomy_icon/icon.cgi?i=Tribolium+castaneum&t=N...L http://biosciencedbc.jp/taxonomy_icon/icon.cgi?i=Tribolium+castaneum&t=S http://biosciencedbc.jp/taxonomy_icon/icon.cgi?i=Tribolium+castaneum&t=NS ...

  2. Taxonomy Icon Data: Reeve's pond turtle [Taxonomy Icon

    Lifescience Database Archive (English)

    Full Text Available Reeve's pond turtle Chinemys reevesii Chordata/Vertebrata/Reptilia/etc Chinemys_reevesii_L.png Chinemys_reev...esii_NL.png Chinemys_reevesii_S.png Chinemys_reevesii_NS.png http://biosciencedbc.j...p/taxonomy_icon/icon.cgi?i=Chinemys+reevesii&t=L http://biosciencedbc.jp/taxonomy_icon/icon.cgi?i=Chinemys+reeve...sii&t=NL http://biosciencedbc.jp/taxonomy_icon/icon.cgi?i=Chinemys+reevesii&t=S http://biosciencedbc.jp/taxonomy_icon/icon.cgi?i=Chinemys+reevesii&t=NS ...

  3. Taxonomy Icon Data: gray short-tailed opossum [Taxonomy Icon

    Lifescience Database Archive (English)

    Full Text Available gray short-tailed opossum Monodelphis domestica Chordata/Vertebrata/Mammalia/Theria.../Metatheria Monodelphis_domestica_L.png Monodelphis_domestica_NL.png Monodelphis_domestica_S.png Monodelphis_domestic...a_NS.png http://biosciencedbc.jp/taxonomy_icon/icon.cgi?i=Monodelphis+domestica&t=L http://bioscien...cedbc.jp/taxonomy_icon/icon.cgi?i=Monodelphis+domestica&t=NL http://biosciencedbc....jp/taxonomy_icon/icon.cgi?i=Monodelphis+domestica&t=S http://biosciencedbc.jp/taxonomy_icon/icon.cgi?i=Monodelphis+domestica&t=NS ...

  4. Taxonomy Icon Data: Southern elephant seal [Taxonomy Icon

    Lifescience Database Archive (English)

    Full Text Available Southern elephant seal Mirounga leonina Chordata/Vertebrata/Mammalia/Theria/Eutheria/Carnivora Mirounga_leon...ina_L.png Mirounga_leonina_NL.png Mirounga_leonina_S.png Mirounga_leonina_NS.png ht...tp://biosciencedbc.jp/taxonomy_icon/icon.cgi?i=Mirounga+leonina&t=L http://biosciencedbc.jp/taxonomy_icon/icon.cgi?i=Mirounga+leon...ina&t=NL http://biosciencedbc.jp/taxonomy_icon/icon.cgi?i=Mirounga+leon...ina&t=S http://biosciencedbc.jp/taxonomy_icon/icon.cgi?i=Mirounga+leonina&t=NS ...

  5. Taxonomy Icon Data: thick-tailed bush baby [Taxonomy Icon

    Lifescience Database Archive (English)

    Full Text Available thick-tailed bush baby Otolemur crassicaudatus Chordata/Vertebrata/Mammalia/Theria/Eutheria/Primate Otolemur..._crassicaudatus_L.png Otolemur_crassicaudatus_NL.png Otolemur_crassicaudatus_S.png Otolemur..._crassicaudatus_NS.png http://biosciencedbc.jp/taxonomy_icon/icon.cgi?i=Otolemur+crassicaudatus&t=L ...http://biosciencedbc.jp/taxonomy_icon/icon.cgi?i=Otolemur+crassicaudatus&t=NL htt...p://biosciencedbc.jp/taxonomy_icon/icon.cgi?i=Otolemur+crassicaudatus&t=S http://biosciencedbc.jp/taxonomy_icon/icon.cgi?i=Otolemur+crassicaudatus&t=NS ...

  6. Taxonomy Icon Data: Ciona intestinalis (Sea squirt) [Taxonomy Icon

    Lifescience Database Archive (English)

    Full Text Available Ciona intestinalis (Sea squirt) Ciona intestinalis Chordata/Urochordata,Cephalochordata Ciona_intest...inalis_L.png Ciona_intestinalis_NL.png Ciona_intestinalis_S.png Ciona_intestinalis_NS.png h...ttp://biosciencedbc.jp/taxonomy_icon/icon.cgi?i=Ciona+intestinalis&t=L http://biosciencedbc.jp/taxonomy_icon/icon.cgi?i=Ciona+intest...inalis&t=NL http://biosciencedbc.jp/taxonomy_icon/icon.cgi?i=Ciona+intest...inalis&t=S http://biosciencedbc.jp/taxonomy_icon/icon.cgi?i=Ciona+intestinalis&t=NS ...

  7. Taxonomy Icon Data: Formosan subterranean termite [Taxonomy Icon

    Lifescience Database Archive (English)

    Full Text Available Formosan subterranean termite Coptotermes formosanus Arthropoda Coptotermes_formosan...us_L.png Coptotermes_formosanus_NL.png Coptotermes_formosanus_S.png Coptotermes_formosanus_NS.png http://bi...osciencedbc.jp/taxonomy_icon/icon.cgi?i=Coptotermes+formosanus&t=L http://biosciencedbc.jp/taxonomy_icon/ico...n.cgi?i=Coptotermes+formosanus&t=NL http://biosciencedbc.jp/taxonomy_icon/icon.cgi?i=Coptotermes+formosan...us&t=S http://biosciencedbc.jp/taxonomy_icon/icon.cgi?i=Coptotermes+formosanus&t=NS ...

  8. Taxonomy Icon Data: Pacific electric ray [Taxonomy Icon

    Lifescience Database Archive (English)

    Full Text Available Pacific electric ray Torpedo californica Chordata/Vertebrata/Pisciformes Torpedo_californica_L.png Torpedo..._californica_NL.png Torpedo_californica_S.png Torpedo_californica_NS.png http://biosc...iencedbc.jp/taxonomy_icon/icon.cgi?i=Torpedo+californica&t=L http://biosciencedbc.jp/taxonomy_icon/icon.cgi?i=Torpedo...+californica&t=NL http://biosciencedbc.jp/taxonomy_icon/icon.cgi?i=Torpedo...+californica&t=S http://biosciencedbc.jp/taxonomy_icon/icon.cgi?i=Torpedo+californica&t=NS ...

  9. Taxonomy Icon Data: gold crucian carp [Taxonomy Icon

    Lifescience Database Archive (English)

    Full Text Available gold crucian carp Carassius auratus auratus Chordata/Vertebrata/Pisciformes Carassius_auratus_aura...tus_L.png Carassius_auratus_auratus_NL.png Carassius_auratus_auratus_S.png Carassius_auratus_aura...tus_NS.png http://biosciencedbc.jp/taxonomy_icon/icon.cgi?i=Carassius+auratus+auratus&t=L http://bioscie...ncedbc.jp/taxonomy_icon/icon.cgi?i=Carassius+auratus+auratus&t=NL http://bioscien...cedbc.jp/taxonomy_icon/icon.cgi?i=Carassius+auratus+auratus&t=S http://biosciencedbc.jp/taxonomy_icon/icon.cgi?i=Carassius+auratus+auratus&t=NS ...

  10. Taxonomy Icon Data: Japanese Bush Warbler [Taxonomy Icon

    Lifescience Database Archive (English)

    Full Text Available Japanese Bush Warbler Cettia diphone Chordata/Vertebrata/Aves Cettia_diphone_L.png Cettia_diphone..._NL.png Cettia_diphone_S.png Cettia_diphone_NS.png http://biosciencedbc.jp/taxonomy_icon/icon.cgi?i=Cettia+diphone...&t=L http://biosciencedbc.jp/taxonomy_icon/icon.cgi?i=Cettia+diphone&t=NL http://bioscie...ncedbc.jp/taxonomy_icon/icon.cgi?i=Cettia+diphone&t=S http://biosciencedbc.jp/tax...onomy_icon/icon.cgi?i=Cettia+diphone&t=NS http://togodb.biosciencedbc.jp/togodb/view/taxonomy_icon_comment_en?species_id=26 ...

  11. Taxonomy Icon Data: Ptychodera flava Eschscholtz (Acorn worm) [Taxonomy Icon

    Lifescience Database Archive (English)

    Full Text Available flava_L.png Ptychodera_flava_NL.png Ptychodera_flava_S.png Ptychodera_flava_NS.png http://biosciencedbc.jp/taxonomy..._icon/icon.cgi?i=Ptychodera+flava&t=L http://biosciencedbc.jp/taxonomy_icon/icon.cgi?i=Ptychodera+fla...va&t=NL http://biosciencedbc.jp/taxonomy_icon/icon.cgi?i=Ptychodera+flava&t=S http://biosciencedbc.jp/taxo...nomy_icon/icon.cgi?i=Ptychodera+flava&t=NS http://togodb.biosciencedbc.jp/togodb/view/taxonomy_icon_comment_en?species_id=161 ...

  12. Taxonomy Icon Data: Japanese giant salamander [Taxonomy Icon

    Lifescience Database Archive (English)

    Full Text Available Japanese giant salamander Andrias japonicus Chordata/Vertebrata/Amphibia Andrias_japonicus_L.png Andrias_jap...onicus_NL.png Andrias_japonicus_S.png Andrias_japonicus_NS.png http://biosciencedbc....jp/taxonomy_icon/icon.cgi?i=Andrias+japonicus&t=L http://biosciencedbc.jp/taxonomy_icon/icon.cgi?i=Andrias+japon...icus&t=NL http://biosciencedbc.jp/taxonomy_icon/icon.cgi?i=Andrias+japonicus...&t=S http://biosciencedbc.jp/taxonomy_icon/icon.cgi?i=Andrias+japonicus&t=NS ...

  13. Taxonomy Icon Data: Diplazium tomitaroanum Masam [Taxonomy Icon

    Lifescience Database Archive (English)

    Full Text Available Diplazium tomitaroanum Masam Diplazium tomitaroanum Masam Diplazium_tomitaroanum_Masa...m_L.png Diplazium_tomitaroanum_Masam_NL.png Diplazium_tomitaroanum_Masam_S.png Diplazium_tomitaroanum_Masa...m_NS.png http://biosciencedbc.jp/taxonomy_icon/icon.cgi?i=Diplazium+tomitaroanum+Masam&t=L http://bioscience...dbc.jp/taxonomy_icon/icon.cgi?i=Diplazium+tomitaroanum+Masam&t=NL http://bioscien...cedbc.jp/taxonomy_icon/icon.cgi?i=Diplazium+tomitaroanum+Masam&t=S http://biosciencedbc.jp/taxonomy_icon/icon.cgi?i=Diplazium+tomitaroanum+Masam&t=NS ...

  14. Taxonomy Icon Data: Japanese tree frog [Taxonomy Icon

    Lifescience Database Archive (English)

    Full Text Available Japanese tree frog Hyla japonica Chordata/Vertebrata/Amphibia Hyla_japonica_L.png Hyla_jap...onica_NL.png Hyla_japonica_S.png Hyla_japonica_NS.png http://biosciencedbc.jp/taxonomy_icon/icon.cgi?i=Hyla+jap...onica&t=L http://biosciencedbc.jp/taxonomy_icon/icon.cgi?i=Hyla+japonica&t=NL http://biosciencedbc....jp/taxonomy_icon/icon.cgi?i=Hyla+japonica&t=S http://biosciencedbc.jp/taxonomy_icon/icon.cgi?i=Hyla+jap

  15. Comment: 219 [Taxonomy Icon

    Lifescience Database Archive (English)

    Full Text Available Japanese medaka Oryzias latipes Oryzias_latipes_L.png 219.png Taxonomy icon (c) Database Center for Life Sci...ence licensed under CC Attribution2.1 Japan アイコン:メダカ HNI-Ⅱ系統バージョン bando 2010/02/15 15:31:07 2010/02/16 09:53:27 ...

  16. Reflection and teaching: a taxonomy

    OpenAIRE

    Vos, Henk; Cowan, John

    2009-01-01

    A major problem in teaching reflection is that educational objectives for reflection in terms of student behaviour are lacking. Therefore a taxonomy of reflection has been developed based on Bloom’s taxonomy. Reflective assignments can then be better focused on any chosen educational objectives. The act of reflection has been analysed and abstracted from goal, content, context, means, and moment of reflecting. Reflection was operationalised as answering reflective questions. Bloom’s taxonomy ...

  17. Weight loss diets advertised in non-scientific publications Dietas para perda de peso anunciadas na imprensa leiga

    Directory of Open Access Journals (Sweden)

    Olga Maria Silverio Amancio

    2004-10-01

    Full Text Available Weight-loss diets advertised in mainstream non-scientific publications and targeting the adult female public were evaluated in relation to total energy value, macronutrients, calcium, iron, vitamins A and E, and cholesterol content, as well as the presence of information regarding the duration of diets, fluid intake, physical activity, and maintenance diets. Two publications were selected, considering periodicity, circulation, readership, and years in publication. The Virtual Nutri software was used to evaluate the nutrients of 112 diets. Micronutrient content was compared to the Dietary Reference Intakes. All diets were inadequate in at least one of the evaluated items. Less than 25.0% of the diets presented adequate macronutrient distribution. Calcium, iron, and vitamin E were also predominantly inadequate (85.7, 97.3, and 91.9%, respectively. Non-scientific publications should not be allowed to advertise weight-loss diets. In addition, their chemical composition is inadequate and they are not accompanied by important instructions for such therapy.Diversas dietas para redução de peso, anunciadas em periódicos não-científicos de grande circulação, foram avaliadas em relação ao teor energético e de macronutrientes, cálcio, ferro, vitaminas A e E, colesterol e presença de informações sobre a duração da dieta, ingestão de fluidos, atividade física e dieta de manutenção. Duas publicações foram selecionadas em função da periodicidade, tiragem, número de leitores e anos de publicação. Foi utilizado o programa Virtual Nutri para medir os nutrientes de 112 dietas. Os teores de micronutrientes foram comparados com as Dietary Reference Intakes. Todas as dietas eram inadequadas em relação a uma ou mais substâncias avaliadas. Menos de 25,0% das dietas apresentaram distribuição adequada de macronutrientes. Predominavam os níveis inadequados de cálcio, ferro e vitamina E (85,7, 97,3, e 91,9%, respectivamente. Não deveria

  18. Software Vulnerability Taxonomy Consolidation

    Energy Technology Data Exchange (ETDEWEB)

    Polepeddi, Sriram S. [Carnegie Mellon Univ., Pittsburgh, PA (United States)

    2004-12-07

    In today's environment, computers and networks are increasing exposed to a number of software vulnerabilities. Information about these vulnerabilities is collected and disseminated via various large publicly available databases such as BugTraq, OSVDB and ICAT. Each of these databases, individually, do not cover all aspects of a vulnerability and lack a standard format among them, making it difficult for end-users to easily compare various vulnerabilities. A central database of vulnerabilities has not been available until today for a number of reasons, such as the non-uniform methods by which current vulnerability database providers receive information, disagreement over which features of a particular vulnerability are important and how best to present them, and the non-utility of the information presented in many databases. The goal of this software vulnerability taxonomy consolidation project is to address the need for a universally accepted vulnerability taxonomy that classifies vulnerabilities in an unambiguous manner. A consolidated vulnerability database (CVDB) was implemented that coalesces and organizes vulnerability data from disparate data sources. Based on the work done in this paper, there is strong evidence that a consolidated taxonomy encompassing and organizing all relevant data can be achieved. However, three primary obstacles remain: lack of referencing a common ''primary key'', un-structured and free-form descriptions of necessary vulnerability data, and lack of data on all aspects of a vulnerability. This work has only considered data that can be unambiguously extracted from various data sources by straightforward parsers. It is felt that even with the use of more advanced, information mining tools, which can wade through the sea of unstructured vulnerability data, this current integration methodology would still provide repeatable, unambiguous, and exhaustive results. Though the goal of coalescing all available data

  19. Faceted Taxonomy-Based Sources

    Science.gov (United States)

    Tzitzikas, Yannis

    The objective of this chapter is to explain the underlying mathematical structure of faceted taxonomy-based sources and to provide some common notions and notations that are used in some parts of the book. Subsequently, and on the basis of the introduced formalism, this chapter describes the interaction between a user and an information source that supports dynamic taxonomies and faceted search.

  20. Reflection and teaching: a taxonomy

    NARCIS (Netherlands)

    Vos, Henk; Cowan, John

    2009-01-01

    A major problem in teaching reflection is that educational objectives for reflection in terms of student behaviour are lacking. Therefore a taxonomy of reflection has been developed based on Bloom’s taxonomy. Reflective assignments can then be better focused on any chosen educational objectives. The

  1. Taxonomy Icon Data: Philippine flying lemur [Taxonomy Icon

    Lifescience Database Archive (English)

    Full Text Available Philippine flying lemur Cynocephalus volans Chordata/Vertebrata/Mammalia/Theria/Eutheria/etc. Cynocephalu...s_volans_L.png Cynocephalus_volans_NL.png Cynocephalus_volans_S.png Cynocephalus_volan...s_NS.png http://biosciencedbc.jp/taxonomy_icon/icon.cgi?i=Cynocephalus+volans&t=L http://biosciencedbc.jp/ta...xonomy_icon/icon.cgi?i=Cynocephalus+volans&t=NL http://biosciencedbc.jp/taxonomy_...icon/icon.cgi?i=Cynocephalus+volans&t=S http://biosciencedbc.jp/taxonomy_icon/icon.cgi?i=Cynocephalus+volans&t=NS ...

  2. Taxonomy Icon Data: southern two-toed sloth [Taxonomy Icon

    Lifescience Database Archive (English)

    Full Text Available southern two-toed sloth Choloepus didactylus Chordata/Vertebrata/Mammalia/Theria/Eutheria/etc. Choloe...pus_didactylus_L.png Choloepus_didactylus_NL.png Choloepus_didactylus_S.png Choloepus_dida...ctylus_NS.png http://biosciencedbc.jp/taxonomy_icon/icon.cgi?i=Choloepus+didactylus&t=L http://biosciencedbc....jp/taxonomy_icon/icon.cgi?i=Choloepus+didactylus&t=NL http://biosciencedbc.jp/ta...xonomy_icon/icon.cgi?i=Choloepus+didactylus&t=S http://biosciencedbc.jp/taxonomy_icon/icon.cgi?i=Choloepus+didactylus&t=NS ...

  3. Taxonomy Icon Data: African savanna elephant [Taxonomy Icon

    Lifescience Database Archive (English)

    Full Text Available African savanna elephant Loxodonta africana Chordata/Vertebrata/Mammalia/Theria/Eutheria/etc. Loxodonta_afri...cana_L.png Loxodonta_africana_NL.png Loxodonta_africana_S.png Loxodonta_africana_NS....png http://biosciencedbc.jp/taxonomy_icon/icon.cgi?i=Loxodonta+africana&t=L http://biosciencedbc.jp/taxonom...y_icon/icon.cgi?i=Loxodonta+africana&t=NL http://biosciencedbc.jp/taxonomy_icon/icon.cgi?i=Loxodonta+afric...ana&t=S http://biosciencedbc.jp/taxonomy_icon/icon.cgi?i=Loxodonta+africana&t=NS ...

  4. Taxonomy Icon Data: North Pacific right whale [Taxonomy Icon

    Lifescience Database Archive (English)

    Full Text Available North Pacific right whale Eubalaena japonica Chordata/Vertebrata/Mammalia/Theria/Eu...theria/Cetacea Eubalaena_japonica_L.png Eubalaena_japonica_NL.png Eubalaena_japonica_S.png Eubalaena_japonic...a_NS.png http://biosciencedbc.jp/taxonomy_icon/icon.cgi?i=Eubalaena+japonica&t=L http://biosciencedbc.jp/tax...onomy_icon/icon.cgi?i=Eubalaena+japonica&t=NL http://biosciencedbc.jp/taxonomy_ic...on/icon.cgi?i=Eubalaena+japonica&t=S http://biosciencedbc.jp/taxonomy_icon/icon.cgi?i=Eubalaena+japonica&t=NS ...

  5. Genomic taxonomy of vibrios

    Directory of Open Access Journals (Sweden)

    Iida Tetsuya

    2009-10-01

    Full Text Available Abstract Background Vibrio taxonomy has been based on a polyphasic approach. In this study, we retrieve useful taxonomic information (i.e. data that can be used to distinguish different taxonomic levels, such as species and genera from 32 genome sequences of different vibrio species. We use a variety of tools to explore the taxonomic relationship between the sequenced genomes, including Multilocus Sequence Analysis (MLSA, supertrees, Average Amino Acid Identity (AAI, genomic signatures, and Genome BLAST atlases. Our aim is to analyse the usefulness of these tools for species identification in vibrios. Results We have generated four new genome sequences of three Vibrio species, i.e., V. alginolyticus 40B, V. harveyi-like 1DA3, and V. mimicus strains VM573 and VM603, and present a broad analyses of these genomes along with other sequenced Vibrio species. The genome atlas and pangenome plots provide a tantalizing image of the genomic differences that occur between closely related sister species, e.g. V. cholerae and V. mimicus. The vibrio pangenome contains around 26504 genes. The V. cholerae core genome and pangenome consist of 1520 and 6923 genes, respectively. Pangenomes might allow different strains of V. cholerae to occupy different niches. MLSA and supertree analyses resulted in a similar phylogenetic picture, with a clear distinction of four groups (Vibrio core group, V. cholerae-V. mimicus, Aliivibrio spp., and Photobacterium spp.. A Vibrio species is defined as a group of strains that share > 95% DNA identity in MLSA and supertree analysis, > 96% AAI, ≤ 10 genome signature dissimilarity, and > 61% proteome identity. Strains of the same species and species of the same genus will form monophyletic groups on the basis of MLSA and supertree. Conclusion The combination of different analytical and bioinformatics tools will enable the most accurate species identification through genomic computational analysis. This endeavour will culminate in

  6. Taxonomy of the extrasolar planet

    OpenAIRE

    Plávalová, E.

    2011-01-01

    When a star is described as a spectral class G2V, we know that the star is similar to our Sun. We know its approximate mass, temperature, age, and size. When working with an extra-solar planet database, it is very useful to have a taxonomy scale (classification) such as, for example, the Harvard classification for stars. The taxonomy has to be easily interpreted and present the most relevant information about extra-solar planets. I propose the following the extra-solar planet taxonomy scale w...

  7. Taxonomy Icon Data: Synechocystis sp.PCC 6803 [Taxonomy Icon

    Lifescience Database Archive (English)

    Full Text Available Synechocystis sp.PCC 6803 Synechocystis sp.PCC 6803 Synechocystis_sp_PCC_6803_L.png Synechoc...ystis_sp_PCC_6803_NL.png Synechocystis_sp_PCC_6803_S.png Synechocystis_sp_PCC_6803_NS.png http://bi...osciencedbc.jp/taxonomy_icon/icon.cgi?i=Synechocystis+sp%2ePCC+6803&t=L http://biosciencedbc.jp/taxonomy_icon/icon.cgi?i=Synechoc...ystis+sp%2ePCC+6803&t=NL http://biosciencedbc.jp/taxonomy_icon/icon.cgi?i=Synechoc...ystis+sp%2ePCC+6803&t=S http://biosciencedbc.jp/taxonomy_icon/icon.cgi?i=Synechocystis

  8. A taxonomy of inductive problems.

    Science.gov (United States)

    Kemp, Charles; Jern, Alan

    2014-02-01

    Inductive inferences about objects, features, categories, and relations have been studied for many years, but there are few attempts to chart the range of inductive problems that humans are able to solve. We present a taxonomy of inductive problems that helps to clarify the relationships between familiar inductive problems such as generalization, categorization, and identification, and that introduces new inductive problems for psychological investigation. Our taxonomy is founded on the idea that semantic knowledge is organized into systems of objects, features, categories, and relations, and we attempt to characterize all of the inductive problems that can arise when these systems are partially observed. Recent studies have begun to address some of the new problems in our taxonomy, and future work should aim to develop unified theories of inductive reasoning that explain how people solve all of the problems in the taxonomy.

  9. Further Verification of Bloom's Taxonomy

    Science.gov (United States)

    Roberts, Nancy

    1976-01-01

    Tests a curriculum designed to teach fifth and sixth grade students system dynamics thinking, an orientation that is congruent with the fourth and fifth levels of Bloom's "Taxonomy of Educational Objectives: Cognitive Domain".

  10. Taxonomy of stock market indices

    Science.gov (United States)

    Bonanno, Giovanni; Vandewalle, Nicolas; Mantegna, Rosario N.

    2000-12-01

    We investigate sets of financial nonredundant and nonsynchronously recorded time series. The sets are composed by a number of stock market indices located all over the world in five continents. By properly selecting the time horizon of returns and by using a reference currency we find a meaningful taxonomy. The detection of such a taxonomy proves that interpretable information can be stored in a set of nonsynchronously recorded time series.

  11. Taxonomy Working Group Final Report

    Science.gov (United States)

    Parsons, Vickie S.; Beil, Robert J.; Terrone, Mark; Barth, Timothy S.; Panontin, Tina L.; Wales, Roxana; Rackley, Michael W.; Milne, James S.; McPherson, John W.; Dutra, Jayne E.; Shaw, Larry C.

    2009-01-01

    The purpose of the Taxonomy Working Group was to develop a proposal for a common taxonomy to be used by all NASA projects in the classifying of nonconformances, anomalies, and problems. Specifically, the group developed a recommended list of data elements along with general suggestions for the development of a problem reporting system to better serve NASA's need for managing, reporting, and trending project aberrant events. The Group's recommendations are reported in this document.

  12. The Distributed Wind Cost Taxonomy

    Energy Technology Data Exchange (ETDEWEB)

    Forsyth, Trudy; Jimenez, Tony [National Renewable Energy Lab. (NREL), Golden, CO (United States); Preus, Robert [National Renewable Energy Lab. (NREL), Golden, CO (United States); Tegan, Suzanne [National Renewable Energy Lab. (NREL), Golden, CO (United States); Baring-Gould, Ian [National Renewable Energy Lab. (NREL), Golden, CO (United States)

    2017-03-28

    To date, there has been no standard method or tool to analyze the installed and operational costs for distributed wind turbine systems. This report describes the development of a classification system, or taxonomy, for distributed wind turbine project costs. The taxonomy establishes a framework to help collect, sort, and compare distributed wind cost data that mirrors how the industry categorizes information. The taxonomy organizes costs so they can be aggregated from installers, developers, vendors, and other sources without losing cost details. Developing a peer-reviewed taxonomy is valuable to industry stakeholders because a common understanding the details of distributed wind turbine costs and balance of station costs is a first step to identifying potential high-value cost reduction opportunities. Addressing cost reduction potential can help increase distributed wind's competitiveness and propel the U.S. distributed wind industry forward. The taxonomy can also be used to perform cost comparisons between technologies and track trends for distributed wind industry costs in the future. As an initial application and piloting of the taxonomy, preliminary cost data were collected for projects of different sizes and from different regions across the contiguous United States. Following the methods described in this report, these data are placed into the established cost categories.

  13. Microbial genomic taxonomy.

    Science.gov (United States)

    Thompson, Cristiane C; Chimetto, Luciane; Edwards, Robert A; Swings, Jean; Stackebrandt, Erko; Thompson, Fabiano L

    2013-12-23

    A need for a genomic species definition is emerging from several independent studies worldwide. In this commentary paper, we discuss recent studies on the genomic taxonomy of diverse microbial groups and a unified species definition based on genomics. Accordingly, strains from the same microbial species share >95% Average Amino Acid Identity (AAI) and Average Nucleotide Identity (ANI), >95% identity based on multiple alignment genes, genomic signature, and > 70% in silico Genome-to-Genome Hybridization similarity (GGDH). Species of the same genus will form monophyletic groups on the basis of 16S rRNA gene sequences, Multilocus Sequence Analysis (MLSA) and supertree analysis. In addition to the established requirements for species descriptions, we propose that new taxa descriptions should also include at least a draft genome sequence of the type strain in order to obtain a clear outlook on the genomic landscape of the novel microbe. The application of the new genomic species definition put forward here will allow researchers to use genome sequences to define simultaneously coherent phenotypic and genomic groups.

  14. The integrative future of taxonomy

    Directory of Open Access Journals (Sweden)

    Vences Miguel

    2010-05-01

    Full Text Available Abstract Background Taxonomy is the biological discipline that identifies, describes, classifies and names extant and extinct species and other taxa. Nowadays, species taxonomy is confronted with the challenge to fully incorporate new theory, methods and data from disciplines that study the origin, limits and evolution of species. Results Integrative taxonomy has been proposed as a framework to bring together these conceptual and methodological developments. Here we review perspectives for an integrative taxonomy that directly bear on what species are, how they can be discovered, and how much diversity is on Earth. Conclusions We conclude that taxonomy needs to be pluralistic to improve species discovery and description, and to develop novel protocols to produce the much-needed inventory of life in a reasonable time. To cope with the large number of candidate species revealed by molecular studies of eukaryotes, we propose a classification scheme for those units that will facilitate the subsequent assembly of data sets for the formal description of new species under the Linnaean system, and will ultimately integrate the activities of taxonomists and molecular biologists.

  15. Taxonomy Icon Data: three-spined stickleback [Taxonomy Icon

    Lifescience Database Archive (English)

    Full Text Available three-spined stickleback Gasterosteus aculeatus Chordata/Vertebrata/Pisciformes Gasteros...teus_aculeatus_L.png Gasterosteus_aculeatus_NL.png Gasterosteus_aculeatus_S.png Gasterosteus_aculeatus_...NS.png http://biosciencedbc.jp/taxonomy_icon/icon.cgi?i=Gasterosteus+aculeatus&t=L http://biosciencedbc.jp/t...axonomy_icon/icon.cgi?i=Gasterosteus+aculeatus&t=NL http://biosciencedbc.jp/taxon...omy_icon/icon.cgi?i=Gasterosteus+aculeatus&t=S http://biosciencedbc.jp/taxonomy_icon/icon.cgi?i=Gasterosteus+aculeatus&t=NS ...

  16. Sustainability Indicators for Chemical Processes : I. Taxonomy

    Science.gov (United States)

    High demand and consumption rates of ecological materials and services to satisfy societal needs and for the dissipation of emissions are quickly exceeding the capacity that nature can provide. To avoid a tipping point situation, where ecological services may no longer be availa...

  17. Constructing a Business Model Taxonomy

    DEFF Research Database (Denmark)

    Groth, Pernille; Nielsen, Christian

    2015-01-01

    Abstract Purpose: The paper proposes a research design recipe capable of leading to future business model taxonomies and discusses the potential benefits and implications of achieving this goal. Design/Methodology/Approach: The paper provides a review of relevant scholarly literature about business...... models to clarify the subject as well as highlighting the importance of past studies of business model classifications. In addition it reviews the scholarly literature on relevant methodological approaches, such as cluster analysis and latent class analysis, for constructing a business model taxonomy....... The two literature streams combined to form the basis for the suggested recipe. Findings: The paper highlights the need for further large-scale empirical studies leading to a potential business model taxonomy, a topic that is currently under-exposed even though its merits are highlighted continuously...

  18. Constructing a Business Model Taxonomy

    DEFF Research Database (Denmark)

    Groth, Pernille; Nielsen, Christian

    2015-01-01

    Abstract Purpose: The paper proposes a research design recipe capable of leading to future business model taxonomies and discusses the potential benefits and implications of achieving this goal. Design/Methodology/Approach: The paper provides a review of relevant scholarly literature about business...... models to clarify the subject as well as highlighting the importance of past studies of business model classifications. In addition it reviews the scholarly literature on relevant methodological approaches, such as cluster analysis and latent class analysis, for constructing a business model taxonomy....... The two literature streams combined to form the basis for the suggested recipe. Findings: The paper highlights the need for further large-scale empirical studies leading to a potential business model taxonomy, a topic that is currently under-exposed even though its merits are highlighted continuously...

  19. Myth, Music, and Science: Teaching the Philosophy of Science through the Use of Non-Scientific Examples

    Science.gov (United States)

    Slowik, Edward

    This essay explores the benefits of utilizing non-scientific examples and analogies in teaching philosophy of science courses. These examples can help resolve two basic difficulties faced by most instructors, especially when teaching lower-level courses: first, they can prompt students to take an active interest in the class material, since the examples will involve aspects of the culture well-known, or at least more interesting, to the students; and second, these familiar, less-threatening examples will lessen the students' collective anxieties and open them up to learning the material more easily. To demonstrate this strategy of constructing and employing non-scientific examples, a lengthy analogy between musical styles and Kuhn's theory of scientific revolutions is developed.

  20. Mismatches between 'scientific' and 'non-scientific' ways of knowing and their contributions to public understanding of science.

    Science.gov (United States)

    Mikulak, Anna

    2011-06-01

    As differentiation within scientific disciplines increases, so does differentiation between the sciences and other ways of knowing. This distancing between 'scientific' and 'non-scientific' cultures reflects differences in what are considered valid and reliable approaches to acquiring knowledge and has played a major role in recent science-oriented controversies. Scientists' reluctance to actively engage in science communication, coupled with journalists' reliance on the norms of balance, conflict, and human interest in covering scientific issues, have combined to exacerbate public mistrust of science on issues like the measles-mumps-rubella (MMR) vaccine. The failure of effective communications between scientists and non-scientists has hindered the progress of both effective science and effective policy. In order to better bridge the gap between the 'scientific' and 'non-scientific' cultures, renewed efforts must be made to encourage substantive public engagement, with the ultimate goal of facilitating an open, democratic policy-making process.

  1. A Taxonomy of Technical Animation

    Directory of Open Access Journals (Sweden)

    D. Vaněček

    2011-01-01

    Full Text Available The age in which we are living nowadays is characterized by rapid innovation in the development of information and communication technologies (ICT. This innovation has a significant influence on the education process. This article deals with computer animation in technical education. Our aim is to show the taxonomy of education animation. The paper includes practical examples of animation.

  2. Amerind taxonomy and testable hypotheses.

    Science.gov (United States)

    Pichardo, M

    1998-06-01

    The acceptance of a 30,000 yr B.P. age for Valsequillo sets new parameters for hypotheses of Paleoindian entry into America. A review of Amerind taxonomy defines the early groups as Otamid-Sundadonts. Isolation in America led to an adaptive radiation that has implications for the origin and dispersal of Pithecanthropus.

  3. Taxonomy Icon Images (PNG format) - Taxonomy Icon | LSDB Archive [Life Science Database Archive metadata

    Lifescience Database Archive (English)

    Full Text Available [ Credits ] BLAST Search Image Search Home About Archive Update History Contact us ...se Database Description Download License Update History of This Database Site Policy | Contact Us Taxonomy Icon Images (PNG format) - Taxonomy Icon | LSDB Archive ...

  4. Taxonomy of the extrasolar planet.

    Science.gov (United States)

    Plávalová, Eva

    2012-04-01

    When a star is described as a spectral class G2V, we know that the star is similar to our Sun. We know its approximate mass, temperature, age, and size. When working with an extrasolar planet database, it is very useful to have a taxonomy scale (classification) such as, for example, the Harvard classification for stars. The taxonomy has to be easily interpreted and present the most relevant information about extrasolar planets. I propose an extrasolar planet taxonomy scale with four parameters. The first parameter concerns the mass of an extrasolar planet in the form of units of the mass of other known planets, where M represents the mass of Mercury, E that of Earth, N Neptune, and J Jupiter. The second parameter is the planet's distance from its parent star (semimajor axis) described in a logarithm with base 10. The third parameter is the mean Dyson temperature of the extrasolar planet, for which I established four main temperature classes: F represents the Freezing class, W the Water class, G the Gaseous class, and R the Roasters class. I devised one additional class, however: P, the Pulsar class, which concerns extrasolar planets orbiting pulsar stars. The fourth parameter is eccentricity. If the attributes of the surface of the extrasolar planet are known, we are able to establish this additional parameter where t represents a terrestrial planet, g a gaseous planet, and i an ice planet. According to this taxonomy scale, for example, Earth is 1E0W0t, Neptune is 1N1.5F0i, and extrasolar planet 55 Cnc e is 9E-1.8R1.

  5. LEADERSHIP BEHAVIORAL TAXONOMIES IN UNIVERSITIES

    Directory of Open Access Journals (Sweden)

    Riaz Ahmed Mangi

    2011-10-01

    Full Text Available The study was intended to recognize and replicate the Yukl’s (1989-2004 behavioral taxonomies in the university settings in Sindh. A comprehensive questionnaire based on the items in taxonomies was developed, face validity of the questionnaire was test and found suitable. A total of 90 university Deans and head of Departments were randomly selected from public and private universities of Sindh. Categorical reliability of the data was checked and found highly reliable. The majority of the respondents were male, post graduate, above 50 years of age, married and had more than 15 years of experience. The statistical analysis describes the typical Sindhi culture among the respondents. A large number of university leadership focused on the relation as compared to task and change at the universities. This research also supports partial replication of three dimensions i.e., Relation, Task and Change as Yukl’s behavioral taxonomies with first order factor analysis. Relation factor was replicated completely, while other two were replicated in two different facets each i.e., Change was replicated in two facets – Improvement and Process and Task was also replicated in two facets – Improvement and Process. Making a second order factor analysis assured these two factors were replicated completely.

  6. A taxonomy fuzzy filtering approach

    Directory of Open Access Journals (Sweden)

    Vrettos S.

    2003-01-01

    Full Text Available Our work proposes the use of topic taxonomies as part of a filtering language. Given a taxonomy, a classifier is trained for each one of its topics. The user is able to formulate logical rules combining the available topics, e.g. (Topic1 AND Topic2 OR Topic3, in order to filter related documents in a stream. Using the trained classifiers, every document in the stream is assigned a belief value of belonging to the topics of the filter. These belief values are then aggregated using logical operators to yield the belief to the filter. In our study, Support Vector Machines and Naïve Bayes classifiers were used to provide topic probabilities. Aggregation of topic probabilities based on fuzzy logic operators was found to improve filtering performance on the Renters text corpus, as compared to the use of their Boolean counterparts. Finally, we deployed a filtering system on the web using a sample taxonomy of the Open Directory Project.

  7. Breast cancer pathology: the impact of molecular taxonomy on morphological taxonomy.

    Science.gov (United States)

    Masuda, Shinobu

    2012-05-01

    The concept of having an 'intrinsic subtype,' or a molecular taxonomy, lets us clearly recognize that breast cancers have characteristically different patterns of gene expression, thus giving newfound significance to morphological taxonomy. In this review, the concept of the 'intrinsic subtype' is discussed, research questions are introduced to refine the significance of morphological taxonomy, and a corresponding example is presented between microarray analysis and 'immunohistochemical subtype,' or histological taxonomy.

  8. Diversity and Taxonomy in Cultural Heritage

    OpenAIRE

    Myridis, N. E.

    2012-01-01

    The discipline of Cultural Heritage is nowadays developing very well. Moreover, the field of Cultural Heritage Preservation is also developing well. The necessity of well-organized taxonomy and classification now seems to be an outstanding significant topic. The scope of this paper regards such taxonomy; more precisely, it proposes this kind of taxonomy. The final products of this paper are the Diagram of Cultural Heritage & its Preservation and the Universal Cultural Heritage & Preservation ...

  9. A taxonomy of systems of corporate governance

    NARCIS (Netherlands)

    Weimer, J.; Pape, J.C.

    1999-01-01

    This paper argues that debate on corporate governance in an international context is hampered by the lack of a coherent framework. A taxonomy of systems of corporate governance is proposed as a remedy. The taxonomy is based upon eight characteristics: the prevailing concept of the firm, the board

  10. Taxonomy for Assessing Evaluation Competencies in Extension

    Science.gov (United States)

    Rodgers, Michelle S.; Hillaker, Barbara D.; Haas, Bruce E.; Peters, Cheryl

    2012-01-01

    Evaluation of public service programming is becoming increasingly important with current funding realities. The taxonomy of evaluation competencies compiled by Ghere et al. (2006) provided the starting place for Taxonomy for Assessing Evaluation Competencies in Extension. The Michigan State University Extension case study described here presents a…

  11. [Taxonomy and typology: are they really synonymous?].

    Science.gov (United States)

    Borgès Da Silva, Roxane

    2013-01-01

    Typology and taxonomy constructions are increasingly used as a method of analysis in health services and public health research. Although taxonomy and typology have different definitions in the dictionary, these terms are often used synonymously. The objective of this paper is to propose a theoretical framework derived from organizational theory in which the concepts of taxonomy and typology are clearly defined. The configurational approach emerged in the 1980s. It is designed to analyse the elements constituting an entity under study as a whole and not in isolation. In this approach, conceptually developed configurations are defined as typologies, while empirically derived configurations are defined as taxonomies. Based on this theoretical framework, taxonomies are used much more often than typologies in the scientific literature in the field of public health. Taxonomies can process large sets of multidimensional variables by generating relatively homogeneous groups that take into account interactions between variables. Taxonomies are usually built from classification methods or factor analyses combined with a classification. In conclusion, this paper proposes a theoretical framework to differentiate typologies from taxonomies to provide public health stakeholders with a common language in relation to classifications. This article provides the basis for discussion of theoretical frameworks underlying the definition of these concepts.

  12. In the Cells of the 'Bloom Taxonomy'.

    Science.gov (United States)

    Calder, J. R.

    1983-01-01

    The Bloom Taxonomy of Educational Objectives is criticized because its distinctions between cognitive, affective, and psychomotor domains are invalid; its categories are ill-defined and do not denote homogenous types of objectives; its structural base is inconsistent; and it is debatable whether it is a true taxonomy. (IS)

  13. Comprehensive Social Skills Taxonomy: Development and Application.

    Science.gov (United States)

    Kauffman, Nancy A; Kinnealey, Moya

    2015-01-01

    We developed a comprehensive social skills taxonomy based on archived children's social skill goal sheets, and we applied the taxonomy to 6,897 goals of children in 6 diagnostic categories to explore patterns related to diagnosis. We used a grounded theory approach to code and analyze social skill goals and develop the taxonomy. Multivariate analysis of variance and Tukey post hoc honestly significant difference test were used to analyze differences in social skill needs among diagnostic groups. We developed a taxonomy of 7 social skill constructs or categories, descriptions, and behavioral indicators. The 7 social skill categories were reflected across 6 diagnostic groups, and differences in social skill needs among groups were identified. This comprehensive taxonomy of social skills can be useful in developing research-based individual, group, or institutional programming to improve social skills. Copyright © 2015 by the American Occupational Therapy Association, Inc.

  14. TAXONOMIES OF PHYSICS PROBLEMS IN PHYSICS EDUCATION

    Directory of Open Access Journals (Sweden)

    Monika Hanáková

    2016-09-01

    Full Text Available Taxonomies of physics problems serve as useful tools to define and analyze the requirements of pupils and students in solving physics problems and tasks. The connection between taxonomies of educational objectives is important, and these were considered in selecting taxonomies of physics problems. Different approaches to classification are briefly described in this article, as well as the importance of a balance of physics problems in instruction, according to the selected taxonomy. Two taxonomies of physics problems were chosen according to our criteria and then analyzed and described in detail. A strength, weakness, opportunity, and threat SWOT analysis was performed on the tools as well as an example of the use of the tools on a particular physics problem.

  15. GEM Building Taxonomy (Version 2.0)

    Science.gov (United States)

    Brzev, S.; Scawthorn, C.; Charleson, A.W.; Allen, L.; Greene, M.; Jaiswal, Kishor; Silva, V.

    2013-01-01

    This report documents the development and applications of the Building Taxonomy for the Global Earthquake Model (GEM). The purpose of the GEM Building Taxonomy is to describe and classify buildings in a uniform manner as a key step towards assessing their seismic risk, Criteria for development of the GEM Building Taxonomy were that the Taxonomy be relevant to seismic performance of different construction types; be comprehensive yet simple; be collapsible; adhere to principles that are familiar to the range of users; and ultimately be extensible to non-buildings and other hazards. The taxonomy was developed in conjunction with other GEM researchers and builds on the knowledge base from other taxonomies, including the EERI and IAEE World Housing Encyclopedia, PAGER-STR, and HAZUS. The taxonomy is organized as a series of expandable tables, which contain information pertaining to various building attributes. Each attribute describes a specific characteristic of an individual building or a class of buildings that could potentially affect their seismic performance. The following 13 attributes have been included in the GEM Building Taxonomy Version 2.0 (v2.0): 1.) direction, 2.)material of the lateral load-resisting system, 3.) lateral load-resisting system, 4.) height, 5.) date of construction of retrofit, 6.) occupancy, 7.) building position within a block, 8.) shape of the building plan, 9.) structural irregularity, 10.) exterior walls, 11.) roof, 12.) floor, 13.) foundation system. The report illustrates the pratical use of the GEM Building Taxonomy by discussing example case studies, in which the building-specific characteristics are mapped directly using GEM taxonomic attributes and the corresponding taxonomic string is constructed for that building, with "/" slash marks separating attributes. For example, for the building shown to the right, the GEM Taxonomy string is: DX1/MUR+CLBRS+MOCL2/LWAL3/

  16. Generalized metamaterials: Definitions and taxonomy.

    Science.gov (United States)

    Kim, Noori; Yoon, Yong-Jin; Allen, Jont B

    2016-06-01

    This article reviews the development of metamaterials (MM), starting from Newton's discovery of the wave equation, and ends with a discussion of the need for a technical taxonomy (classification) of these materials, along with a better defined definition of metamaterials. It is intended to be a technical definition of metamaterials, based on a historical perspective. The evolution of MMs began with the discovery of the wave equation, traceable back to Newton's calculation of the speed of sound. The theory of sound evolved to include quasi-statics (Helmholtz) and the circuit equations of Kirchhoff's circuit laws, leading to the ultimate development of Maxwell's equations and the equation for the speed of light. Be it light, or sound, the speed of the wave-front travel defines the wavelength, and thus the quasi-static (QS) approximation. But there is much more at stake than QSs. Taxonomy requires a proper statement of the laws of physics, which includes at least the six basic network postulates: (P1) causality (non-causal/acausal), (P2) linearity (non-linear), (P3) real (complex) time response, (P4) passive (active), (P5) time-invariant (time varying), and (P6) reciprocal (non-reciprocal). These six postulates are extended to include MMs.

  17. Taxonomy

    Science.gov (United States)

    1991-01-01

    subdivision of Proteobacteria, dog pathogen Ehrlichia canis and thf. human pathogen but belongs to subgroup 2 and is specifically related to Rickettsia...fever group rickettsia ? tu res: similarities to the growth cycle of Ehrlichia canis . from humans in Japan. J. Infect. Dis. 159:1122-1126. Infect. Immun...fever oroup; genotypes; Rickettsiae; Ehrlichia ; Proteobacteria; Chlamydiae; serologic relat’i’onships; bacteriology; -, " -I" taxon; phylogeny

  18. Building a taxonomy of GI knowledge

    DEFF Research Database (Denmark)

    Arleth, Mette

    2004-01-01

    This paper reports on and ongoing study concerning non-professional users` understanding of GI. Online access to GI are offered by many public authorities, in order to make the public able to serve them selves online and gain insight in the physical planning and area administration. The aim...... of this project is to investigate how and how well non-professional users actually understand GI. For that purpose a taxonomy of GI knowledge is built, drawing on Bloom`s taxonomy. The elements of this taxonomy are described after a presentation of the main research question of the study, the applications chosen...

  19. Organising knowledge taxonomies, knowledge and organisational effectiveness

    CERN Document Server

    Lambe, Patrick

    2007-01-01

    Taxonomies are often thought to play a niche role within content-oriented knowledge management projects. They are thought to be 'nice to have' but not essential. In this ground-breaking book, Patrick Lambe shows how they play an integral role in helping organizations coordinate and communicate effectively. Through a series of case studies, he demonstrates the range of ways in which taxonomies can help organizations to leverage and articulate their knowledge. A step-by-step guide in the book to running a taxonomy project is full of practical advice for knowledge managers and business owners ali

  20. Building a taxonomy of GI knowledge

    DEFF Research Database (Denmark)

    Arleth, Mette

    2004-01-01

    of this project is to investigate how and how well non-professional users actually understand GI. For that purpose a taxonomy of GI knowledge is built, drawing on Bloom`s taxonomy. The elements of this taxonomy are described after a presentation of the main research question of the study, the applications chosen...... for the study and the definition of the non-professional user group. Finally considerations are made concerning the difference between this study and a traditional usability study as well as the further implications of the outcome of the study....

  1. A taxonomy of automatic differentiation tools

    Energy Technology Data Exchange (ETDEWEB)

    Juedes, D.W. (Iowa State Univ. of Science and Technology, Ames, IA (United States). Dept. of Computer Science)

    1991-01-01

    Many of the current automatic differentiation (AD) tools have similar characteristics. Unfortunately, the similarities between these various AD tools often cannot be easily ascertained by reading the corresponding documentation. To clarify this situation, a taxonomy of AD tools is presented. The taxonomy places AD tools into the Elemental, Extensional, Integral, Operational, and Symbolic classes. This taxonomy is used to classify twenty-nine AD tools. Each tool is examined individually with respect to the mode of differentiation used and the degree of derivatives computed. A list detailing the availability of the surveyed AD tools is provided in the Appendix. 54 refs., 3 figs., 1 tab.

  2. The evolution of trypanosomatid taxonomy.

    Science.gov (United States)

    Kaufer, Alexa; Ellis, John; Stark, Damien; Barratt, Joel

    2017-06-08

    Trypanosomatids are protozoan parasites of the class Kinetoplastida predominately restricted to invertebrate hosts (i.e. possess a monoxenous life-cycle). However, several genera are pathogenic to humans, animals and plants, and have an invertebrate vector that facilitates their transmission (i.e. possess a dixenous life-cycle). Phytomonas is one dixenous genus that includes several plant pathogens transmitted by phytophagous insects. Trypanosoma and Leishmania are dixenous genera that infect vertebrates, including humans, and are transmitted by hematophagous invertebrates. Traditionally, monoxenous trypanosomatids such as Leptomonas were distinguished from morphologically similar dixenous species based on their restriction to an invertebrate host. Nonetheless, this criterion is somewhat flawed as exemplified by Leptomonas seymouri which reportedly infects vertebrates opportunistically. Similarly, Novymonas and Zelonia are presumably monoxenous genera yet sit comfortably in the dixenous clade occupied by Leishmania. The isolation of Leishmania macropodum from a biting midge (Forcipomyia spp.) rather than a phlebotomine sand fly calls into question the exclusivity of the Leishmania-sand fly relationship, and its suitability for defining the Leishmania genus. It is now accepted that classic genus-defining characteristics based on parasite morphology and host range are insufficient to form the sole basis of trypanosomatid taxonomy as this has led to several instances of paraphyly. While improvements have been made, resolution of evolutionary relationships within the Trypanosomatidae is confounded by our incomplete knowledge of its true diversity. The known trypanosomatids probably represent a fraction of those that exist and isolation of new species will help resolve relationships in this group with greater accuracy. This review incites a dialogue on how our understanding of the relationships between certain trypanosomatids has shifted, and discusses new knowledge

  3. Taxonomy Icon Data - Taxonomy Icon | LSDB Archive [Life Science Database Archive metadata

    Lifescience Database Archive (English)

    Full Text Available rch Image Search Home About Archive Update History Data ...name of species Taxonomy ID NCBI Taxonomy ID (Link to NCBI in Simple Search) Icon Taxonomy Taxonomy informat...d icon (The icon is displayed in Simple Search.) Icon (Large) No Background File name of the large-sized ico...n with no background (The icon is displayed in Simple Search.) Icon (Small) File ...name of the small-sized icon (The icon is displayed in Simple Search.) Icon (Small) No Background File name

  4. Encouraging Higher-Order Thinking in General Chemistry by Scaffolding Student Learning Using Marzano's Taxonomy

    Science.gov (United States)

    Toledo, Santiago; Dubas, Justin M.

    2016-01-01

    An emphasis on higher-order thinking within the curriculum has been a subject of interest in the chemical and STEM literature due to its ability to promote meaningful, transferable learning in students. The systematic use of learning taxonomies could be a practical way to scaffold student learning in order to achieve this goal. This work proposes…

  5. Encouraging Higher-Order Thinking in General Chemistry by Scaffolding Student Learning Using Marzano's Taxonomy

    Science.gov (United States)

    Toledo, Santiago; Dubas, Justin M.

    2016-01-01

    An emphasis on higher-order thinking within the curriculum has been a subject of interest in the chemical and STEM literature due to its ability to promote meaningful, transferable learning in students. The systematic use of learning taxonomies could be a practical way to scaffold student learning in order to achieve this goal. This work proposes…

  6. A psychologically-based taxonomy of misdirection.

    Science.gov (United States)

    Kuhn, Gustav; Caffaratti, Hugo A; Teszka, Robert; Rensink, Ronald A

    2014-01-01

    Magicians use misdirection to prevent you from realizing the methods used to create a magical effect, thereby allowing you to experience an apparently impossible event. Magicians have acquired much knowledge about misdirection, and have suggested several taxonomies of misdirection. These describe many of the fundamental principles in misdirection, focusing on how misdirection is achieved by magicians. In this article we review the strengths and weaknesses of past taxonomies, and argue that a more natural way of making sense of misdirection is to focus on the perceptual and cognitive mechanisms involved. Our psychologically-based taxonomy has three basic categories, corresponding to the types of psychological mechanisms affected: perception, memory, and reasoning. Each of these categories is then divided into subcategories based on the mechanisms that control these effects. This new taxonomy can help organize magicians' knowledge of misdirection in a meaningful way, and facilitate the dialog between magicians and scientists.

  7. A Psychologically-based taxonomy of misdirection

    Directory of Open Access Journals (Sweden)

    Gustav eKuhn

    2014-12-01

    Full Text Available Magicians use misdirection to prevent you from realizing the methods used to create a magical effect, thereby allowing you to experience an apparently impossible event. Magicians have acquired much knowledge about misdirection, and have suggested several taxonomies of misdirection. These describe many of the fundamental principles in misdirection, focusing on how misdirection is achieved by magicians. In this article we review the strengths and weaknesses of past taxonomies, and argue that a more natural way of making sense of misdirection is to focus on the perceptual and cognitive mechanisms involved. Our psychologically-based taxonomy has three basic categories, corresponding to the types of psychological mechanisms affected: perception, memory, and reasoning. Each of these categories is then divided into subcategories based on the mechanisms that control these effects. This new taxonomy can help organize the magicians’ knowledge of misdirection in a meaningful way, and facilitate the dialogue between magicians and scientists.

  8. Toward a cognitive taxonomy of medical errors.

    Science.gov (United States)

    Zhang, Jiajie; Patel, Vimla L; Johnson, Todd R; Shortliffe, Edward H

    2002-01-01

    One critical step in addressing and resolving the problems associated with human errors is the development of a cognitive taxonomy of such errors. In the case of errors, such a taxonomy may be developed (1) to categorize all types of errors along cognitive dimensions, (2) to associate each type of error with a specific underlying cognitive mechanism, (3) to explain why, and even predict when and where, a specific error will occur, and (4) to generate intervention strategies for each type of error. Based on Reason's (1992) definition of human errors and Norman's (1986) cognitive theory of human action, we have developed a preliminary action-based cognitive taxonomy of errors that largely satisfies these four criteria in the domain of medicine. We discuss initial steps for applying this taxonomy to develop an online medical error reporting system that not only categorizes errors but also identifies problems and generates solutions.

  9. Assessing clustering results with reference taxonomies.

    Science.gov (United States)

    Valiente, Gabriel

    2006-01-01

    The comparative analysis of phylogenies obtained using different phylogenetic methods or different gene sequences for a given set of species, is usually done by computing some quantitative measure of similarity between the phylogenetic trees. Such a quantitative approach provides little insight into the actual similarities and differences between the alternative phylogenies. In this paper, we present a method for the qualitative assessment of a phylogenetic tree against a reference taxonomy, based on highlighting their common clusters. Our algorithms build a reference taxonomy for the taxa present in a given phylogenetic tree and produce a dendogram for the input phylogenetic tree, with branches in those clusters common to the reference taxonomy highlighted. Our implementation of the algorithms produces publication-quality graphics. For unrooted phylogenies, the method produces a radial cladogram for the input phylogenetic tree, with branches in common clusters to the reference taxonomy highlighted.

  10. Taxonomy of the order Mononegavirales: update 2016

    Science.gov (United States)

    Afonso, C.L.; Kurath, Gael; 82 Additional Authors,

    2016-01-01

    In 2016, the order Mononegavirales was emended through the addition of two new families (Mymonaviridae and Sunviridae), the elevation of the paramyxoviral subfamily Pneumovirinae to family status (Pneumoviridae), the addition of five free-floating genera (Anphevirus, Arlivirus, Chengtivirus, Crustavirus, and Wastrivirus), and several other changes at the genus and species levels. This article presents the updated taxonomy of the order Mononegavirales as now accepted by the International Committee on Taxonomy of Viruses (ICTV).

  11. Toward a cognitive taxonomy of medical errors.

    OpenAIRE

    Zhang, Jiajie; Patel, Vimla L.; Johnson, Todd R.; Shortliffe, Edward H.

    2002-01-01

    One critical step in addressing and resolving the problems associated with human errors is the development of a cognitive taxonomy of such errors. In the case of errors, such a taxonomy may be developed (1) to categorize all types of errors along cognitive dimensions, (2) to associate each type of error with a specific underlying cognitive mechanism, (3) to explain why, and even predict when and where, a specific error will occur, and (4) to generate intervention strategies for each type of e...

  12. Taxonomy of the order Mononegavirales: update 2016

    Energy Technology Data Exchange (ETDEWEB)

    Afonso, Claudio L.; Amarasinghe, Gaya K.; Bányai, Krisztián; Bào, Yīmíng; Basler, Christopher F.; Bavari, Sina; Bejerman, Nicolás; Blasdell, Kim R.; Briand, François-Xavier; Briese, Thomas; Bukreyev, Alexander; Calisher, Charles H.; Chandran, Kartik; Chéng, Jiāsēn; Clawson, Anna N.; Collins, Peter L.; Dietzgen, Ralf G.; Dolnik, Olga; Domier, Leslie L.; Dürrwald, Ralf; Dye, John M.; Easton, Andrew J.; Ebihara, Hideki; Farkas, Szilvia L.; Freitas-Astúa, Juliana; Formenty, Pierre; Fouchier, Ron A. M.; Fù, Yànpíng; Ghedin, Elodie; Goodin, Michael M.; Hewson, Roger; Horie, Masayuki; Hyndman, Timothy H.; Jiāng, Dàohóng; Kitajima, Elliot W.; Kobinger, Gary P.; Kondo, Hideki; Kurath, Gael; Lamb, Robert A.; Lenardon, Sergio; Leroy, Eric M.; Li, Ci-Xiu; Lin, Xian-Dan; Liú, Lìjiāng; Longdon, Ben; Marton, Szilvia; Maisner, Andrea; Mühlberger, Elke; Netesov, Sergey V.; Nowotny, Norbert; Patterson, Jean L.; Payne, Susan L.; Paweska, Janusz T.; Randall, Rick E.; Rima, Bertus K.; Rota, Paul; Rubbenstroth, Dennis; Schwemmle, Martin; Shi, Mang; Smither, Sophie J.; Stenglein, Mark D.; Stone, David M.; Takada, Ayato; Terregino, Calogero; Tesh, Robert B.; Tian, Jun-Hua; Tomonaga, Keizo; Tordo, Noël; Towner, Jonathan S.; Vasilakis, Nikos; Verbeek, Martin; Volchkov, Viktor E.; Wahl-Jensen, Victoria; Walsh, John A.; Walker, Peter J.; Wang, David; Wang, Lin-Fa; Wetzel, Thierry; Whitfield, Anna E.; Xiè, Jiǎtāo; Yuen, Kwok-Yung; Zhang, Yong-Zhen; Kuhn, Jens H.

    2016-05-23

    In 2016, the order Mononegavirales was emended through the addition of two new families (Mymonaviridae and Sunviridae), the elevation of the paramyxoviral subfamily Pneumovirinae to family status (Pneumoviridae), the addition of five free-floating genera (Anphevirus, Arlivirus, Chengtivirus, Crustavirus, and Wastrivirus), and several other changes at the genus and species levels. This article presents the updated taxonomy of the order Mononegavirales as now accepted by the International Committee on Taxonomy of Viruses (ICTV).

  13. Bloom's taxonomy of cognitive learning objectives.

    Science.gov (United States)

    Adams, Nancy E

    2015-07-01

    Information professionals who train or instruct others can use Bloom's taxonomy to write learning objectives that describe the skills and abilities that they desire their learners to master and demonstrate. Bloom's taxonomy differentiates between cognitive skill levels and calls attention to learning objectives that require higher levels of cognitive skills and, therefore, lead to deeper learning and transfer of knowledge and skills to a greater variety of tasks and contexts.

  14. Is Bloom's Taxonomy Appropriate for Computer Science?

    OpenAIRE

    Johnson, Colin G.; Fuller, Ursula

    2007-01-01

    Bloom's taxonomy attempts to provide a set of levels of cognitive engagement with material being learned. It is usually presented as a generic framework. In this paper we outline some studies which examine whether the taxonomy is appropriate for computing, and how its application in computing might differ from its application elsewhere. We place this in the context of ongoing debates concerning graduateness and attempts to benchmark the content of a computing degree.

  15. Nutritional value of diets disclosed in non-scientific magazines - doi: 10.5020/18061230.2010.p349

    Directory of Open Access Journals (Sweden)

    Karla Vanessa Gomes de Lima

    2012-01-01

    Full Text Available Objective: To assess the nutritional value of weight-loss diets disclosed in non-scientific magazines. Methods: A quantitative cross-sectional study carried out in two phases (first investigation in 2007; second investigation in 2009, in which 120 weight-loss diets were randomly selected from 24 magazines divided into three groups based on cost. The menus were evaluated with regard to calories, macronutrients and fiber, using the Diet Pro 2 program. The SPSS program (version 15.0 was used for statistical analysis, with the results expressed as mean, standard deviation and confidence intervals. Two-way analysis of variance (ANOVA with Tukey’s paired post hoc comparison was used for the quantitative study of the nutrients in each group of magazines and each phase of the study. The Student’s t-test was used for the comparisons of mean values obtained with the diets and established recommendations. The level of significance was set at 5.0%. Results: The energy supply was higher in 2007. Over time, mean protein content in the diets diminished, lipid content remained similar and glucose content increased. Based on the recommended values, the diets were characterized as hypoglycemic, high-protein and normolipidemic. The content of micronutrients was lower than recommended amounts in both years assessed. The fiber content increased in the second year in relation to the first, but did not reach the recommended level. Conclusion: Diets showed inadequacies of macro and micronutrients in the two studied years, with an imbalance between their components.

  16. Overview on the Research Methods of Bacterial Taxonomy%细菌分类学方法研究概况

    Institute of Scientific and Technical Information of China (English)

    申磊

    2011-01-01

    This paper focused on the classical taxonomy,numerical taxonomy,chemical taxonomy,genetic taxonomy and many other polyphasic taxonomy in detail,which were applied to the classification and identification of bacteria.All of these provided necessary references for selecting and using the proper methods for bacterial classification and identification in clinical and scientific research.%对细菌分类鉴定中采用的传统分类法、数值分类法、化学分类法、遗传学分类法等多项分类技术作了详细的介绍和全面的总结,从而为临床和科研中选择和应用恰当的细菌分类鉴定方法提供参考依据。

  17. The perceptual domain: a taxonomy for allied health educators.

    Science.gov (United States)

    Hooker, E Z

    1981-08-01

    A taxonomy of the perceptual domain was proposed over a decade ago. It is hierarchical, as are the taxonomies in the cognitive, affective, and psychomotor domains. Perception involves extraction of information from presenting stimuli, and there is progression of information extraction as the hierarchy is ascended. Perceptual performance at the higher levels of the taxonomy assumes perceptual abilities at the lower levels. A modified version of the perceptual taxonomy applicable to allied health education is presented. Methods concerning application of the taxonomy are suggested. Use of the taxonomy of the perceptual domain would help allied health educators plan instruction and evaluate teaching.

  18. The taxobook principles and practices of building taxonomies

    CERN Document Server

    Hlava, Marjorie

    2014-01-01

    This book outlines the basic principles of creation and maintenance of taxonomies and thesauri. It also provides step by step instructions for building a taxonomy or thesaurus and discusses the various ways to get started on a taxonomy construction project.Often, the first step is to get management and budgetary approval, so I start this book with a discussion of reasons to embark on the taxonomy journey. From there I move on to a discussion of metadata and how taxonomies and metadata are related, and then consider how, where, and why taxonomies are used.Information architecture has its corner

  19. Taxonomies of networks from community structure.

    Science.gov (United States)

    Onnela, Jukka-Pekka; Fenn, Daniel J; Reid, Stephen; Porter, Mason A; Mucha, Peter J; Fricker, Mark D; Jones, Nick S

    2012-09-01

    The study of networks has become a substantial interdisciplinary endeavor that encompasses myriad disciplines in the natural, social, and information sciences. Here we introduce a framework for constructing taxonomies of networks based on their structural similarities. These networks can arise from any of numerous sources: They can be empirical or synthetic, they can arise from multiple realizations of a single process (either empirical or synthetic), they can represent entirely different systems in different disciplines, etc. Because mesoscopic properties of networks are hypothesized to be important for network function, we base our comparisons on summaries of network community structures. Although we use a specific method for uncovering network communities, much of the introduced framework is independent of that choice. After introducing the framework, we apply it to construct a taxonomy for 746 networks and demonstrate that our approach usefully identifies similar networks. We also construct taxonomies within individual categories of networks, and we thereby expose nontrivial structure. For example, we create taxonomies for similarity networks constructed from both political voting data and financial data. We also construct network taxonomies to compare the social structures of 100 Facebook networks and the growth structures produced by different types of fungi.

  20. Taxonomies of networks from community structure

    Science.gov (United States)

    Onnela, Jukka-Pekka; Fenn, Daniel J.; Reid, Stephen; Porter, Mason A.; Mucha, Peter J.; Fricker, Mark D.; Jones, Nick S.

    2012-09-01

    The study of networks has become a substantial interdisciplinary endeavor that encompasses myriad disciplines in the natural, social, and information sciences. Here we introduce a framework for constructing taxonomies of networks based on their structural similarities. These networks can arise from any of numerous sources: They can be empirical or synthetic, they can arise from multiple realizations of a single process (either empirical or synthetic), they can represent entirely different systems in different disciplines, etc. Because mesoscopic properties of networks are hypothesized to be important for network function, we base our comparisons on summaries of network community structures. Although we use a specific method for uncovering network communities, much of the introduced framework is independent of that choice. After introducing the framework, we apply it to construct a taxonomy for 746 networks and demonstrate that our approach usefully identifies similar networks. We also construct taxonomies within individual categories of networks, and we thereby expose nontrivial structure. For example, we create taxonomies for similarity networks constructed from both political voting data and financial data. We also construct network taxonomies to compare the social structures of 100 Facebook networks and the growth structures produced by different types of fungi.

  1. 76 FR 74050 - Measured Building Energy Performance Data Taxonomy

    Science.gov (United States)

    2011-11-30

    ... energy performance data taxonomy as part of its DOE Buildings Performance Database project. This... energy performance data taxonomy as part of its DOE Buildings Performance Database project. This... From the Federal Register Online via the Government Publishing Office ] DEPARTMENT OF...

  2. Taxonomy and origin of reindeer

    Directory of Open Access Journals (Sweden)

    Knut H. Røed

    2007-04-01

    Full Text Available Reindeer and caribou was probably the key species for the human immigration and colonization in the Arctic and sub-Arctic by the retreat of the ice in the last glacial period. The close connection between human and reindeer has contributed to great interest and variation in reindeer taxonomy and origin. Through the history several both species, subspecies and types of reindeer and caribou have been described. The early taxonomy of the species is marked by comparisons of individual specimen using traits as body size, skin colour or antler formations - characteristics known to be highly variable and subjected to environmental and nutritional level. During the mid 1900s the taxonomy was more based on variation of morphological traits among populations by analysing a large series of specimens representative of the various geographic populations and a consensus of classification of several subspecies, all belonging to the same species, evolved. During late 1900 the development of modern molecular techniques procured tools for revealing genetic structure of populations reflecting different origin and isolation rather than environmental influences. The genetic structure revealed a major genetic dichotomy between American woodland caribou on the one hand and all other types of reindeer and caribou on the other which gave evidence that the ancestors of present woodland caribou had survived and evolved in ice free refugium south to the glacier in North America and the ancestors of all other types of reindeer and caribou had evolved separated from these in refugium in Eurasia and Beringia. The ancestors of present reindeer in Scandinavia appear furthermore to have evolved from different populations separated during the last glaciation period and the colonization and origin of present wild and domestic reindeer will be discussed in this perspective.Taksonomi og opprinnelse til reinAbstract in Norwegian / Sammendrag: Rein og caribou har hatt stor betydning

  3. CHEMICALS

    CERN Document Server

    Medical Service

    2002-01-01

    It is reminded that all persons who use chemicals must inform CERN's Chemistry Service (TIS-GS-GC) and the CERN Medical Service (TIS-ME). Information concerning their toxicity or other hazards as well as the necessary individual and collective protection measures will be provided by these two services. Users must be in possession of a material safety data sheet (MSDS) for each chemical used. These can be obtained by one of several means : the manufacturer of the chemical (legally obliged to supply an MSDS for each chemical delivered) ; CERN's Chemistry Service of the General Safety Group of TIS ; for chemicals and gases available in the CERN Stores the MSDS has been made available via EDH either in pdf format or else via a link to the supplier's web site. Training courses in chemical safety are available for registration via HR-TD. CERN Medical Service : TIS-ME :73186 or service.medical@cern.ch Chemistry Service : TIS-GS-GC : 78546

  4. Intraspecific taxonomy of plant genetic resources – Important for differentiation of medicinal and aromatic plants?

    Directory of Open Access Journals (Sweden)

    Lohwasser, Ulrike

    2016-07-01

    Full Text Available Taxonomy of plant genetic resources is an important input in characterising and evaluating cultivated plants and essential for identification and documentation of the diversity of genebank collections. In former times taxonomical determination was based only on morphological characters. Nowadays, new molecular and chemical methods and techniques are available for providing additional information. As examples, investigations of parsley (Petroselinum crispum [Mill.] Nyman, Apiaceae and opium poppy (Papaver somniferum L., Papaveraceae collections of the German genebank are demonstrated. In addition to morphological description, the molecular distance and the phylogenetic relationship of the accessions were performed with molecular marker analysis. Essential oil compound and content for parsley and the content of the five main alkaloids (morphine, codeine, thebaine, noscapine, papaverine for opium poppy were measured with GC (gas chromatography and HPLC (high pressure liquid chromatography, respectively. For parsley the results of the three methods support the existing taxonomy partly, a separation of root and leaf parsley was confirmed. However, the taxonomy of opium poppy should be revised because molecular and chemical data do not verify the morphological results. But nevertheless taxonomy of cultivated plants is an important tool to describe the variability of plant genetic resources.

  5. Developing a Computer Science-specific Learning Taxonomy

    OpenAIRE

    Fuller, Ursula; Johnson, Colin G.; Ahoniemi, Tuukka; Cukierman, Diana; Hernán-Losada, Isidoro; Jackova, Jana; Lahtinen, Essi; Lewis, Tracy L.; McGee Thompson, Donna; Riesdel, Charles; Thompson, Errol

    2007-01-01

    Bloom's taxonomy of the cognitive domain and the SOLO taxonomy are being increasingly widely used in the design and assessment of courses, but there are some drawbacks to their use in computer science. This paper reviews the literature on educational taxonomies and their use in computer science education, identifies some of the problems that arise, proposes a new taxonomy and discusses how this can be used in application-oriented courses such as programming.

  6. Forensic Taxonomy of Android Social Apps.

    Science.gov (United States)

    Azfar, Abdullah; Choo, Kim-Kwang Raymond; Liu, Lin

    2017-03-01

    An Android social app taxonomy incorporating artifacts that are of forensic interest will enable users and forensic investigators to identify the personally identifiable information (PII) stored by the apps. In this study, 30 popular Android social apps were examined. Artifacts of forensic interest (e.g., contacts lists, chronology of messages, and timestamp of an added contact) were recovered. In addition, images were located, and Facebook token strings used to tie account identities and gain access to information entered into Facebook by a user were identified. Based on the findings, a two-dimensional taxonomy of the forensic artifacts of the social apps is proposed. A comparative summary of existing forensic taxonomies of different categories of Android apps, designed to facilitate timely collection and analysis of evidentiary materials from Android devices, is presented.

  7. Rehabilitation treatment taxonomy: implications and continuations.

    Science.gov (United States)

    P Dijkers, Marcel; Hart, Tessa; Whyte, John; M Zanca, Jeanne; Packel, Andrew; Tsaousides, Theodore

    2014-01-01

    In relation to the conceptual framework for a rehabilitation treatment taxonomy (RTT), which has been proposed in other articles in this supplement, this article discusses a number of issues relevant to its further development, including creating distinctions within the major target classes; the nature and quantity of allowable targets of treatment; and bracketing as a way of specifying (1) the skill or knowledge taught; (2) the nature of compensation afforded by changes in the environment, assistive technology, and orthotics/prosthetics; and (3) the ingredients in homework a clinician assigns. Clarification is provided regarding the role of the International Classification of Functioning, Disability and Health, focusing a taxonomy on ingredients versus other observable aspects of treatment, and regarding our lack of knowledge and its impact on taxonomy development. Finally, this article discusses the immediate implications of the work to date and presents the need for rehabilitation stakeholders of all disciplines to be involved in further RTT development.

  8. Binary Keys for Classification and Taxonomy of Behaviour

    Science.gov (United States)

    Nieminen, Timo A.; Choi, Serene Hyun-Jin

    2008-01-01

    Quantitative behaviour analysis requires the classification of behaviour to produce the basic data. This can be challenging when the theoretical taxonomy does not match observational limitations, or if a theoretical taxonomy is unavailable. Binary keys allow qualitative observation to be used to modify a theoretical taxonomy to produce a practical…

  9. The Importance of Taxonomy in Biological Education at Advanced Level.

    Science.gov (United States)

    Honey, John N.; Paxman, Heather M.

    1986-01-01

    Reports on the status of the teaching of taxonomy in advanced biology classes in the United Kingdom. Reviews findings related to examination requirements, the principles, terminology, and methods of taxonomy, the understanding and attitudes of teachers of taxonomy principles, and the position of the topic in the advanced biology syllabus. (ML)

  10. Taxonomies of Educational Technology Uses: Dewey, Chip and Me

    Science.gov (United States)

    Levin, James A.

    2014-01-01

    In the early 1990s, Chip Bruce created a taxonomy of education technology uses, which the author of the article helped to expand and evaluate. This taxonomy is based on John Dewey's "four impulses of the child": inquiry, construction, communication, and expression. This taxonomy has helped people interested in the uses of…

  11. Type material in the NCBI Taxonomy Database.

    Science.gov (United States)

    Federhen, Scott

    2015-01-01

    Type material is the taxonomic device that ties formal names to the physical specimens that serve as exemplars for the species. For the prokaryotes these are strains submitted to the culture collections; for the eukaryotes they are specimens submitted to museums or herbaria. The NCBI Taxonomy Database (http://www.ncbi.nlm.nih.gov/taxonomy) now includes annotation of type material that we use to flag sequences from type in GenBank and in Genomes. This has important implications for many NCBI resources, some of which are outlined below.

  12. A Taxonomy of Human Translation Styles

    DEFF Research Database (Denmark)

    Carl, Michael; Dragsted, Barbara; Lykke Jakobsen, Arnt

    2011-01-01

    While the translation profession becomes increasingly technological, we are still far from understanding how humans actually translate and how they could be best supported by machines. In this paper we outline a method which helps to uncover characteristics of human translation processes. Based o...... on the translators' activity data, we develop a taxonomy of translation styles. The taxonomy could serve to inform the development of advanced translation assistance tools and provide a basis for a felicitous and grounded integration of human machine interaction in translation....

  13. Toward an embodiment-disembodiment taxonomy.

    Science.gov (United States)

    Stocker, Kurt

    2012-08-01

    Psychological, neuroscientific, and linguistic evidence suggests that a mental scene is in principle cognized with a mental gaze that can take on one of three forms: embodied physical gaze, embodied mental gaze, or disembodied mental gaze. Combinations of these forms also occur. A first sketch of the embodiment-disembodiment taxonomy that emerges from this threefold distinction is presented.

  14. A Taxonomy of Software for Mathematics Instruction

    Science.gov (United States)

    Kurz, Terri L.; Middleton, James A.; Yanik, H. Bahadir

    2005-01-01

    The potential to use mathematics software to enhance student thinking and development is discussed and a taxonomy of software categories is outlined in this paper. Briefly, there are five categories of tool-based mathematics software that can be used fruitfully in a mathematics curriculum: (a) review and practice, (b) general, (c) specific, (d)…

  15. Visualizing a Taxonomy for Virtual Worlds

    Science.gov (United States)

    Downey, Steve

    2012-01-01

    Since the mid-1990s, however, the popularity, diversity, and application of virtual worlds have spread rapidly. As a result, existing taxonomies and topologies increasingly are becoming less effective at being able to classify and organize the growing diversification of content available in today's virtual worlds. This article presents the…

  16. Classification and Taxonomy of Vegetable Macergens.

    Science.gov (United States)

    Aremu, Bukola R; Babalola, Olubukola O

    2015-01-01

    Macergens are bacteria capable of releasing pectic enzymes (pectolytic bacteria). These enzymatic actions result in the separation of plant tissues leading to total plant destruction. This can be attributed to soft rot diseases in vegetables. These macergens primarily belong to the genus Erwinia and to a range of opportunistic pathogens namely: the Xanthomonas spp., Pseudomonas spp., Clostridium spp., Cytophaga spp., and Bacillus spp. They consist of taxa that displayed considerable heterogeneity and intermingled with members of other genera belonging to the Enterobacteriaceae. They have been classified based on phenotypic, chemotaxonomic and genotypic which obviously not necessary in the taxonomy of all bacterial genera for defining bacterial species and describing new ones These taxonomic markers have been used traditionally as a simple technique for identification of bacterial isolates. The most important fields of taxonomy are supposed to be based on clear, reliable and worldwide applicable criteria. Hence, this review clarifies the taxonomy of the macergens to the species level and revealed that their taxonomy is beyond complete. For discovery of additional species, further research with the use modern molecular methods like phylogenomics need to be done. This can precisely define classification of macergens resulting in occasional, but significant changes in previous taxonomic schemes of these macergens.

  17. Classification and taxonomy of vegetable macergens

    Directory of Open Access Journals (Sweden)

    Bukola Rhoda Aremu

    2015-11-01

    Full Text Available Macergens are bacteria capable of releasing pectic enzymes (pectolytic bacteria. These enzymatic actions result in the separation of plant tissues leading to total plant destruction. This can be attributed to soft rot diseases in vegetables. These macergens primarily belong to the genus Erwinia and to a range of opportunistic pathogens namely: the Xanthomonas spp, Pseudomonas spp., Clostridium spp., Cytophaga spp. and Bacillus spp. They consist of taxa that displayed considerable heterogeneity and intermingled with members of other genera belonging to the Enterobacteriaceae. They have been classified based on phenotypic, chemotaxonomic and genotypic which obviously not necessary in the taxonomy of all bacterial genera for defining bacterial species and describing new ones These taxonomic markers have been used traditionally as a simple technique for identification of bacterial isolates. The most important fields of taxonomy are supposed to be based on clear, reliable and worldwide applicable criteria. Hence, this review clarifies the taxonomy of the macergens to the species level and revealed that their taxonomy is beyond complete. For discovery of additional species, further research with the use modern molecular methods like phylogenomics need to be done. This can precisely define classification of macergens resulting in occasional, but significant changes in previous taxonomic schemes of these macergens.

  18. An Android Communication App Forensic Taxonomy.

    Science.gov (United States)

    Azfar, Abdullah; Choo, Kim-Kwang Raymond; Liu, Lin

    2016-09-01

    Due to the popularity of Android devices and applications (apps), Android forensics is one of the most studied topics within mobile forensics. Communication apps, such as instant messaging and Voice over IP (VoIP), are one popular app category used by mobile device users, including criminals. Therefore, a taxonomy outlining artifacts of forensic interest involving the use of Android communication apps will facilitate the timely collection and analysis of evidentiary materials from such apps. In this paper, 30 popular Android communication apps were examined, where a logical extraction of the Android phone images was collected using XRY, a widely used mobile forensic tool. Various information of forensic interest, such as contact lists and chronology of messages, was recovered. Based on the findings, a two-dimensional taxonomy of the forensic artifacts of the communication apps is proposed, with the app categories in one dimension and the classes of artifacts in the other dimension. Finally, the artifacts identified in the study of the 30 communication apps are summarized using the taxonomy. It is expected that the proposed taxonomy and the forensic findings in this paper will assist forensic investigations involving Android communication apps. © 2016 American Academy of Forensic Sciences.

  19. Visualizing a Taxonomy for Virtual Worlds

    Science.gov (United States)

    Downey, Steve

    2012-01-01

    Since the mid-1990s, however, the popularity, diversity, and application of virtual worlds have spread rapidly. As a result, existing taxonomies and topologies increasingly are becoming less effective at being able to classify and organize the growing diversification of content available in today's virtual worlds. This article presents the…

  20. Towards an understanding of driver inattention: taxonomy and theory.

    Science.gov (United States)

    Regan, Michael A; Strayer, David L

    2014-01-01

    There is little agreement in the scientific literature about what the terms "driver distraction" and "driver inattention" mean, and what the relationship is between them. In 2011, Regan, Hallett and Gordon proposed a taxonomy of driver inattention in which driver distraction is conceptualized as just one of several processes that give rise to driver inattention. Since publication of that paper, two other papers have emerged that bear on the taxonomy. In one, the Regan et al taxonomy was used, for the first time, to classify data from an in-depth crash investigation in Australia. In the other, another taxonomy of driver inattention was proposed and described. In this paper we revisit the original taxonomy proposed by Regan et al. in light of these developments, and make recommendations for how the original taxonomy might be improved to make it more useful as a tool for classifying and coding crash and critical incident data. In addition, we attempt to characterize, theoretically, the processes within each category of the original taxonomy that are assumed to give rise to driver inattention. Recommendations are made for several lines of research: to further validate the original taxonomy; to understand the impact of each category of inattention in the taxonomy on driving performance, crash type and crash risk; and to revise and align with the original taxonomy existing crash and incident investigation protocols, so that they provide more comprehensive, reliable and consistent information regarding the contribution of inattention to crashes of all types.

  1. Linking Virus Genomes with Host Taxonomy.

    Science.gov (United States)

    Mihara, Tomoko; Nishimura, Yosuke; Shimizu, Yugo; Nishiyama, Hiroki; Yoshikawa, Genki; Uehara, Hideya; Hingamp, Pascal; Goto, Susumu; Ogata, Hiroyuki

    2016-03-01

    Environmental genomics can describe all forms of organisms--cellular and viral--present in a community. The analysis of such eco-systems biology data relies heavily on reference databases, e.g., taxonomy or gene function databases. Reference databases of symbiosis sensu lato, although essential for the analysis of organism interaction networks, are lacking. By mining existing databases and literature, we here provide a comprehensive and manually curated database of taxonomic links between viruses and their cellular hosts.

  2. Taxonomy of Indonesian giant clams (Cardiidae, Tridacninae)

    OpenAIRE

    UDHI EKO HERNAWAN

    2012-01-01

    Hernawan E. 2012. Taxonomy of Indonesian giant clams (Cardiidae, Tridacninae). Biodiversitas 13: 118-123. A taxonomic study was conducted on the giant clam’s specimens deposited in Museum Zoologicum Bogoriense (MZB), Cibinong Indonesia. Taxonomic overviews of the examined specimens are given with diagnostic characters, remarks, habitat and distribution. Discussion is focused on specific characters distinguishing each species. From seven species known to distribute in Indonesian waters, there ...

  3. Bloom's Taxonomy and Training in Programming Style

    OpenAIRE

    Teodosi TEODOSIEV

    2013-01-01

    Report published in the Proceedings of the National Conference on "Education in the Information Society", Plovdiv, May, 2013 The presented work is using Bloom's taxonomy to set the goals of teaching programming. Here are shown the elements of programming style, in which you can teach novices. Elements of programming style are at different levels of Bloom's pyramid. Association for the Development of the Information Society, Institute of Mathematics and Informatics Bulgarian Academ...

  4. Unsupervised organization of image collections: taxonomies and beyond.

    Science.gov (United States)

    Bart, Evgeniy; Welling, Max; Perona, Pietro

    2011-11-01

    We introduce a nonparametric Bayesian model, called TAX, which can organize image collections into a tree-shaped taxonomy without supervision. The model is inspired by the Nested Chinese Restaurant Process (NCRP) and associates each image with a path through the taxonomy. Similar images share initial segments of their paths and thus share some aspects of their representation. Each internal node in the taxonomy represents information that is common to multiple images. We explore the properties of the taxonomy through experiments on a large (~10(4)) image collection with a number of users trying to locate quickly a given image. We find that the main benefits are easier navigation through image collections and reduced description length. A natural question is whether a taxonomy is the optimal form of organization for natural images. Our experiments indicate that although taxonomies can organize images in a useful manner, more elaborate structures may be even better suited for this task.

  5. Multilocus sequence analysis (MLSA) in prokaryotic taxonomy.

    Science.gov (United States)

    Glaeser, Stefanie P; Kämpfer, Peter

    2015-06-01

    To obtain a higher resolution of the phylogenetic relationships of species within a genus or genera within a family, multilocus sequence analysis (MLSA) is currently a widely used method. In MLSA studies, partial sequences of genes coding for proteins with conserved functions ('housekeeping genes') are used to generate phylogenetic trees and subsequently deduce phylogenies. However, MLSA is not only suggested as a phylogenetic tool to support and clarify the resolution of bacterial species with a higher resolution, as in 16S rRNA gene-based studies, but has also been discussed as a replacement for DNA-DNA hybridization (DDH) in species delineation. Nevertheless, despite the fact that MLSA has become an accepted and widely used method in prokaryotic taxonomy, no common generally accepted recommendations have been devised to date for either the whole area of microbial taxonomy or for taxa-specific applications of individual MLSA schemes. The different ways MLSA is performed can vary greatly for the selection of genes, their number, and the calculation method used when comparing the sequences obtained. Here, we provide an overview of the historical development of MLSA and critically review its current application in prokaryotic taxonomy by highlighting the advantages and disadvantages of the method's numerous variations. This provides a perspective for its future use in forthcoming genome-based genotypic taxonomic analyses. Copyright © 2015 Elsevier GmbH. All rights reserved.

  6. A taxonomy of external and internal attention.

    Science.gov (United States)

    Chun, Marvin M; Golomb, Julie D; Turk-Browne, Nicholas B

    2011-01-01

    Attention is a core property of all perceptual and cognitive operations. Given limited capacity to process competing options, attentional mechanisms select, modulate, and sustain focus on information most relevant for behavior. A significant problem, however, is that attention is so ubiquitous that it is unwieldy to study. We propose a taxonomy based on the types of information that attention operates over--the targets of attention. At the broadest level, the taxonomy distinguishes between external attention and internal attention. External attention refers to the selection and modulation of sensory information. External attention selects locations in space, points in time, or modality-specific input. Such perceptual attention can also select features defined across any of these dimensions, or object representations that integrate over space, time, and modality. Internal attention refers to the selection, modulation, and maintenance of internally generated information, such as task rules, responses, long-term memory, or working memory. Working memory, in particular, lies closest to the intersection between external and internal attention. The taxonomy provides an organizing framework that recasts classic debates, raises new issues, and frames understanding of neural mechanisms.

  7. A taxonomy update for the family Polyomaviridae.

    Science.gov (United States)

    Calvignac-Spencer, Sébastien; Feltkamp, Mariet C W; Daugherty, Matthew D; Moens, Ugo; Ramqvist, Torbjörn; Johne, Reimar; Ehlers, Bernhard

    2016-06-01

    Many distinct polyomaviruses infecting a variety of vertebrate hosts have recently been discovered, and their complete genome sequence could often be determined. To accommodate this fast-growing diversity, the International Committee on Taxonomy of Viruses (ICTV) Polyomaviridae Study Group designed a host- and sequence-based rationale for an updated taxonomy of the family Polyomaviridae. Applying this resulted in numerous recommendations of taxonomical revisions, which were accepted by the Executive Committee of the ICTV in December 2015. New criteria for definition and creation of polyomavirus species were established that were based on the observed distance between large T antigen coding sequences. Four genera (Alpha-, Beta, Gamma- and Deltapolyomavirus) were delineated that together include 73 species. Species naming was made as systematic as possible - most species names now consist of the binomial name of the host species followed by polyomavirus and a number reflecting the order of discovery. It is hoped that this important update of the family taxonomy will serve as a stable basis for future taxonomical developments.

  8. Taxonomy of Challenges for Digital Forensics.

    Science.gov (United States)

    Karie, Nickson M; Venter, Hein S

    2015-07-01

    Since its inception, over a decade ago, the field of digital forensics has faced numerous challenges. Despite different researchers and digital forensic practitioners having studied and analysed various known digital forensic challenges, as of 2013, there still exists a need for a formal classification of these challenges. This article therefore reviews existing research literature and highlights the various challenges that digital forensics has faced for the last 10 years. In conducting this research study, however, it was difficult for the authors to review all the existing research literature in the digital forensic domain; hence, sampling and randomization techniques were employed to facilitate the review of the gathered literature. Taxonomy of the various challenges is subsequently proposed in this paper based on our review of the literature. The taxonomy classifies the large number of digital forensic challenges into four well-defined and easily understood categories. The proposed taxonomy can be useful, for example, in future developments of automated digital forensic tools by explicitly describing processes and procedures that focus on addressing specific challenges identified in this paper. However, it should also be noted that the purpose of this paper was not to propose any solutions to the individual challenges that digital forensics face, but to serve as a survey of the state of the art of the research area.

  9. Overview of the taxonomy of zooxanthellate Scleractinia.

    Science.gov (United States)

    Veron, John

    2013-11-01

    Coral taxonomy has entered a historical phase where nomenclatorial uncertainty is rapidly increasing. The fundamental cause is mandatory adherence to historical monographs that lack essential information of all sorts, and also to type specimens, if they exist at all, that are commonly unrecognizable fragments or are uncharacteristic of the species they are believed to represent. Historical problems, including incorrect subsequent type species designations, also create uncertainty for many well-established genera. The advent of in situ studies in the 1970s revealed these issues; now molecular technology is again changing the taxonomic landscape. The competing methodologies involved must be seen in context if they are to avoid becoming an additional basis for continuing nomenclatorial instability. To prevent this happening, the International Commission on Zoological Nomenclature (ICZN) will need to focus on rules that consolidate well-established nomenclature and allow for the designation of new type specimens that are unambiguous, and which include both skeletal material and soft tissue for molecular study. Taxonomic and biogeographic findings have now become linked, with molecular methodologies providing the capacity to re-visit past taxonomic decisions, and to extend both taxonomy and biogeography into the realm of evolutionary theory. It is proposed that most species will ultimately be seen as operational taxonomic units that are human rather than natural constructs, which in consequence will always have fuzzy morphological, genetic, and distribution boundaries. The pathway ahead calls for the integration of morphological and molecular taxonomies, and for website delivery of information that crosses current discipline boundaries.

  10. Download - Taxonomy Icon | LSDB Archive [Life Science Database Archive metadata

    Lifescience Database Archive (English)

    Full Text Available [ Credits ] BLAST Search Image Search Home About Archive Update History Contact us ... this page, are not included in the Taxonomy Icon archive, and therefore under different terms of use. First...that the following data #4 and #5 are not included in the Taxonomy Icon archive, and therefore under differe...Joomla SEF URLs by Artio About This Database Database Description Download License Update History of This Database Site Policy | Contact Us Download - Taxonomy Icon | LSDB Archive ...

  11. Porters, watchmen, and the crime of William Sayers: the non-scientific staff of the Royal Observatory, Greenwich, in Victorian times

    Science.gov (United States)

    Chapman, Allan

    2003-06-01

    A careful study of the detailed archives of the Victorian Royal Observatory makes it possible to build up a picture of the employment and working conditions not only of the astronomical staff who worked at Greenwich, but also of the labourers, watchmen, and gate porters. Indeed, the archives open up a window on to how the Observatory was run on a daily basis: how its non-scientific staff were recruited and paid, and what were their terms of employment. They also say a great deal about how Sir George Biddell Airy directed and controlled every aspect of the Observatory's life. Yet while Airy was a strict employer, he emerges as a man who was undoubtedly fair-minded and sometimes even generous to his non-scientific work-force. A study of the Observatory staff files also reveals the relationship between the Observatory labouring staff and the Airy family's domestic servants. And of especial interest is the robbery committed by William Sayers, the Airy family footman in 1868, bringing to light as it does Sir George and Lady Richarda Airy's views on crime and its social causes and consequences, the prison rehabilitation service in 1868, and their opinions on the reform of offenders. Though this paper is not about astronomy as such, it illuminates a fascinating interface where the world of astronomical science met and worked alongside the world of ordinary Victorian people within the walls of one of the nineteenth century's most illustrious astronomical institutions.

  12. Taxonomy of Plant Genetic Resources – Use of Morphological, Molecular and Phytochemical Data in Order to Verify Existing Classifications

    Directory of Open Access Journals (Sweden)

    Ulrike Lohwasser

    2010-12-01

    Full Text Available Taxonomy of plant genetic resources is an important input in characterising and evaluating cultivated plants and it is essential for identification and documentation of the diversity of genebank collections. In former times taxonomical determination was based only on morphological characters. Nowadays, new molecular and chemical methods and techniques are available for providing additional information. As examples of the interaction of morphological, molecular and phytochemical data, investigations of a parsley (Petroselinum crispum [Mill.] Nyman, Apiaceae and an opium poppy (Papaver somniferum L., Papaveraceae collection of the German genebank are demonstrated. 220 parsley and 300 opium poppy accessions were cultivated and described morphologically. In addition, the molecular distance and the phylogenetic relationship of the accessions were performed with molecular marker analysis. Essential oil compound and content for parsley and the content of the five main alkaloids (morphine, codeine, thebaine, noscapine, papaverine for opium poppy were measured with GC (gas chromatography and HPLC (high pressure liquid chromatography, respectively. For parsley the results of the three methods support the existing taxonomy partly, a separation of root and leaf parsley was confirmed. However, the taxonomy of opium poppy should be revised because molecular and chemical data do not verify the morphological results. But nevertheless taxonomy of cultivated plants is an important tool to describe the variability of plant genetic resources.

  13. Current and pending taxonomy of the Pasteurellaceae

    DEFF Research Database (Denmark)

    Angen, Øystein

    Since the family Pasteurellaceae was established in 1981 the taxonomy of this group of bacteria has undergone significant changes. 16S DNA sequencing showed in the early 1990-ties, that the three original genera were genetically heterogeneous. Presently, the family consists of 13 genetically cohe...... study of the genetic affiliation between strains and species feasible. At the same time the genotypic variation within a species and the description of the “pan-genomes” and “core-genomes” will represent a challenge to our conception of what a species is....

  14. Refining the asteroid taxonomy by polarimetric observations

    Science.gov (United States)

    Belskaya, I. N.; Fornasier, S.; Tozzi, G. P.; Gil-Hutton, R.; Cellino, A.; Antonyuk, K.; Krugly, Yu. N.; Dovgopol, A. N.; Faggi, S.

    2017-03-01

    We present new results of polarimetric observations of 15 main belt asteroids of different composition. By merging new and published data we determined polarimetric parameters characterizing individual asteroids and mean values of the same parameters characterizing different taxonomic classes. The majority of asteroids show polarimetric phase curves close to the average curve of the corresponding class. We show that using polarimetric data it is possible to refine asteroid taxonomy and derive a polarimetric classification for 283 main belt asteroids. Polarimetric observations of asteroid (21) Lutetia are found to exhibit possible variations of the position angle of the polarization plane over the surface.

  15. An active learning approach to Bloom's Taxonomy.

    Science.gov (United States)

    Weigel, Fred K; Bonica, Mark

    2014-01-01

    As educators strive toward improving student learning outcomes, many find it difficult to instill their students with a deep understanding of the material the instructors share. One challenge lies in how to provide the material with a meaningful and engaging method that maximizes student understanding and synthesis. By following a simple strategy involving Active Learning across the 3 primary domains of Bloom's Taxonomy (cognitive, affective, and psychomotor), instructors can dramatically improve the quality of the lesson and help students retain and understand the information. By applying our strategy, instructors can engage their students at a deeper level and may even find themselves enjoying the process more.

  16. The relationship between complexity (taxonomy) and difficulty

    Science.gov (United States)

    Tan, Yih Tyng; Othman, Abdul Rahman

    2013-04-01

    Difficulty and complexity are important factors that occur in every test questions. These two factors will also affect the reliability of the test. Hence, difficulty and complexity must be considered by educators during preparation of the test questions. The relationship between difficulty and complexity is studied. Complexity is defined as the level in Bloom's Taxonomy. Difficulty is represented by the proportion of students scoring between specific score intervals. A chi-square test of independence between difficulty and complexity was conducted on the results of a continuous assessment of a third year undergraduate course, Probability Theory. The independence test showed that the difficulty and complexity are related. However, this relationship is small.

  17. Exploring and Upgrading the Educational Business-Game Taxonomy

    Science.gov (United States)

    Jerman Blažic, Andrej; Džonova Jerman Blažic, Borka

    2015-01-01

    This article explores existing attempts to design a comprehensive and complex taxonomy framework for an educational business game intended to categorize and evaluate various properties. The identified missing elements in the current proposed taxonomies were used as a starting point for the design of a new category that addresses the game's…

  18. Manifest Variable Granger Causality Models for Developmental Research: A Taxonomy

    Science.gov (United States)

    von Eye, Alexander; Wiedermann, Wolfgang

    2015-01-01

    Granger models are popular when it comes to testing hypotheses that relate series of measures causally to each other. In this article, we propose a taxonomy of Granger causality models. The taxonomy results from crossing the four variables Order of Lag, Type of (Contemporaneous) Effect, Direction of Effect, and Segment of Dependent Series…

  19. Exploring and Upgrading the Educational Business-Game Taxonomy

    Science.gov (United States)

    Jerman Blažic, Andrej; Džonova Jerman Blažic, Borka

    2015-01-01

    This article explores existing attempts to design a comprehensive and complex taxonomy framework for an educational business game intended to categorize and evaluate various properties. The identified missing elements in the current proposed taxonomies were used as a starting point for the design of a new category that addresses the game's…

  20. Classroom Examples of Cognitive Development Phenomena: the SOLO Taxonomy.

    Science.gov (United States)

    Collis, K. F.; Biggs, J. B.

    The learning of different school subjects (history, English, poetry appreciation, creative writing, reading, elementary school mathematics, geography, and modern languages) can be evaluated qualitatively, using the Structure of the Observed Learning Outcome (SOLO) Taxonomy. The taxonomy is structured into five major levels, with transitional…

  1. Development of a taxonomy of keywords for engineering education research

    Science.gov (United States)

    Finelli, Cynthia J.; Borrego, Maura; Rasoulifar, Golnoosh

    2016-05-01

    The diversity of engineering education research provides an opportunity for cross-fertilisation of ideas and creativity, but it also can result in fragmentation of the field and duplication of effort. One solution is to establish a standardised taxonomy of engineering education terms to map the field and communicate and connect research initiatives. This report describes the process for developing such a taxonomy, the EER Taxonomy. Although the taxonomy focuses on engineering education research in the United States, inclusive efforts have engaged 266 individuals from 149 cities in 30 countries during one multiday workshop, 7 conference sessions, and several other virtual and in-person activities. The resulting taxonomy comprises 455 terms arranged in 14 branches and 6 levels. This taxonomy was found to satisfy four criteria for validity and reliability: (1) keywords assigned to a set of abstracts were reproducible by multiple researchers, (2) the taxonomy comprised terms that could be selected as keywords to fully describe 243 articles in 3 journals, (3) the keywords for those 243 articles were evenly distributed across the branches of the taxonomy, and (4) the authors of 31 conference papers agreed with 90% of researcher-assigned keywords. This report also describes guidelines developed to help authors consistently assign keywords for their articles by encouraging them to choose terms from three categories: (1) context/focus/topic, (2) purpose/target/motivation, and (3) research approach.

  2. The Evolution of Educational Objectives: Bloom's Taxonomy and beyond

    Science.gov (United States)

    Fallahi, Carolyn R.; LaMonaca, Frank H., Jr.

    2009-01-01

    It is crucial for teachers to communicate effectively about educational objectives to students, colleagues, and others in education. In 1956, Bloom developed a cognitive learning taxonomy to enhance communication between college examiners. The Bloom taxonomy consists of 6 hierarchical levels of learning (knowledge, comprehension, application,…

  3. Reconsidering Bloom's Taxonomy of Educational Objectives, Cognitive Domain.

    Science.gov (United States)

    Moore, David S.

    1982-01-01

    The hierarchical structure of the cognitive domain presented in Benjamin S. Bloom's taxonomy of educational objectives does not reflect the actual nature of the learning process. Attempts to apply the classification levels to student learning in mathematics and other subjects place the taxonomy's usefulness in question. (PP)

  4. Understanding the Advising Learning Process Using Learning Taxonomies

    Science.gov (United States)

    Muehleck, Jeanette K.; Smith, Cathleen L.; Allen, Janine M.

    2014-01-01

    To better understand the learning that transpires in advising, we used Anderson et al.'s (2001) revision of Bloom's (1956) taxonomy and Krathwohl, Bloom, and Masia's (1964) affective taxonomy to analyze eight student-reported advising outcomes from Smith and Allen (2014). Using the cognitive processes and knowledge domains of Anderson et al.'s…

  5. Algal taxonomy: a road to nowhere?

    Science.gov (United States)

    De Clerck, Olivier; Guiry, Michael D; Leliaert, Frederik; Samyn, Yves; Verbruggen, Heroen

    2013-04-01

    The widespread view of taxonomy as an essentially retrogressive and outmoded science unable to cope with the current biodiversity crisis stimulated us to analyze the current status of cataloguing global algal diversity. Contrary to this largely pessimistic belief, species description rates of algae through time and trends in the number of active taxonomists, as revealed by the web resource AlgaeBase, show a much more positive picture. More species than ever before are being described by a large community of algal taxonomists. The lack of any decline in the rate at which new species and genera are described, however, is indicative of the large proportion of undiscovered diversity and bears heavily on any prediction of global algal species diversity and the time needed to catalogue it. The saturation of accumulation curves of higher taxa (family, order, and classes) on the other hand suggest that at these taxonomic levels most diversity has been discovered. This reasonably positive picture does not imply that algal taxonomy does not face serious challenges in the near future. The observed levels of cryptic diversity in algae, combined with the shift in methods used to characterize them, have resulted in a rampant uncertainty about the status of many older species. As a consequence, there is a tendency in phycology to move gradually away from traditional names to a more informal system whereby clade-, specimen- or strain-based identifiers are used to communicate biological information. Whether these informal names for species-level clades represent a temporary situation stimulated by the lag between species discovery and formal description, or an incipient alternative or parallel taxonomy, will be largely determined by how well we manage to integrate historical collections into modern taxonomic research. Additionally, there is a pressing need for a consensus about the organizational framework to manage the information about algal species names. An eventual strategy

  6. Ontologies, taxonomies and thesauri in systems science and systematics

    CERN Document Server

    Currás, Emilia

    2010-01-01

    The originality of this book, which deals with such a new subject matter, lies in the application of methods and concepts never used before - such as ontologies and taxonomies, as well as thesauri - to the ordering of knowledge based on primary information. Chapters in the book also examine the study of ontologies, taxonomies and thesauri from the perspective of systematics and general systems theory. Ontologies, Taxonomies and Thesauri in Systems Science and Systematics will be extremely useful to those operating within the network of related fields, which includes documentation and informati

  7. Norms for environmentally responsible behaviour: An extended taxonomy

    DEFF Research Database (Denmark)

    Thøgersen, John

    2006-01-01

    and shopping. Also the frequency of the four behaviours was measured. The revised taxonomy has content, discriminant, predictive, and nomological validity and satisfactory test-retest reliability. The most internalized of the new norm constructs, integrated norms, is most strongly correlated with conventional......  The concept of personal or moral norms is ambiguous with regard to its motivational content. An extension and a refinement of the norm taxonomy are therefore suggested, distinguishing between two types of personal norms: introjected and integrated norms. A preliminary assessment of the taxonomy...

  8. Taxonomy of SSL/TLS Attacks

    Directory of Open Access Journals (Sweden)

    Keerthi Vasan K.

    2016-02-01

    Full Text Available Secure Socket Layer (SSL and Transport Layer Security (TLS protocols use cryptographic algorithms to secure data and ensure security goals such as Data Confidentiality and Integrity in networking. They are used along with other protocols such as HTTP, SMTP, etc. in applications such as web browsing, electronic mail, and VoIP. The existing versions of the protocols as well as the cryptographic algorithms they use have vulnerabilities and is not resistant towards Man-In-The- Middle (MITM attacks. Exploiting these vulnerabilities, several attacks have been launched on SSL/TLS such as session hijacking, version degradation, heart bleed, Berserk etc. This paper is a comprehensive analysis of the vulnerabilities in the protocol, attacks launched by exploiting the vulnerabilities and techniques to mitigate the flaws in protocols. A novel taxonomy of the attacks against SSL/TLS has been proposed in this paper.

  9. The taxonomy of viruses should include viruses.

    Science.gov (United States)

    Calisher, Charles H

    2016-05-01

    Having lost sight of its goal, the International Committee on Taxonomy of Viruses has redoubled its efforts. That goal is to arrive at a consensus regarding virus classification, i.e., proper placement of viruses in a hierarchical taxonomic scheme; not an easy task given the wide variety of recognized viruses. Rather than suggesting a continuation of the bureaucratic machinations of the past, this opinion piece is a call for insertion of common sense in sorting out the avalanche of information already, and soon-to-be, accrued data. In this way information about viruses ideally would be taxonomically correct as well as useful to working virologists and journal editors, rather than being lost, minimized, or ignored.

  10. Taxonomy of the genus Passerina (Thymelaeaceae

    Directory of Open Access Journals (Sweden)

    C. L. Bredenkamp

    2003-12-01

    Full Text Available Passerina L. is mainly a southern African genus, comprising 20 species and four subspecies. A few species occur along the Great Escarpment, two extend into Zimbabwe and Mozambique, but most are concentrated in the Cape Floristic Region. Palynological. macromorphological and anatomical evidence was used in the delimitation of the genus and its infrageneric taxa. A cladistic study supports Passerina as a monophyletic genus. A genus treatment, key to species and a full species treatment are given. Each species treatment includes a taxonomic diagnosis, description and notes on taxonomy, etymology, economic value and distribution. Illustrations of representative species are provided and distribution maps are included for each species.  P. esterhuyseniae Bredenk. & A.E.van Wyk is newly described. A list of excluded species names highlights the previous cosmopolitan taxonomic interpretation of Passerina. as many names are now in synony my under other genera of the Thymelaeaceae.

  11. Teosinte inflorescence phytolith assemblages mirror Zea taxonomy.

    Directory of Open Access Journals (Sweden)

    John P Hart

    Full Text Available Molecular DNA analyses of the New World grass (Poaceae genus Zea, comprising five species, has resolved taxonomic issues including the most likely teosinte progenitor (Zea mays ssp. parviglumis of maize (Zea mays ssp. mays. However, archaeologically, little is known about the use of teosinte by humans both prior to and after the domestication of maize. One potential line of evidence to explore these relationships is opaline phytoliths produced in teosinte fruit cases. Here we use multidimensional scaling and multiple discriminant analyses to determine if rondel phytolith assemblages from teosinte fruitcases reflect teosinte taxonomy. Our results indicate that rondel phytolith assemblages from the various taxa, including subspecies, can be statistically discriminated. This indicates that it will be possible to investigate the archaeological histories of teosinte use pending the recovery of appropriate samples.

  12. Phishing Detection Taxonomy for Mobile Device

    Directory of Open Access Journals (Sweden)

    Cik Feresa Mohd Foozy

    2013-01-01

    Full Text Available Phishing is one of the social engineering attacks and currently hit on mobile devices. Based on security report by Lookout, 30% of Lookout users clicking on an unsafe link per year by using mobile device. Few phishing detection techniques have been applied on mobile device. However, review on phishing detection technique on the detection technique redundant is still need. This paper addresses the current trend phishing detection for mobile device and identifies significant criterion to improve phishing detection techniques on mobile device. Thus, existing research on phishing detection technique for computer and mobile device will be compared and analysed. Hence, outcome of the analysis becomes a guideline in proposing generic phishing detection taxonomy for mobile device

  13. Teosinte inflorescence phytolith assemblages mirror Zea taxonomy.

    Science.gov (United States)

    Hart, John P; Matson, R G; Thompson, Robert G; Blake, Michael

    2011-03-30

    Molecular DNA analyses of the New World grass (Poaceae) genus Zea, comprising five species, has resolved taxonomic issues including the most likely teosinte progenitor (Zea mays ssp. parviglumis) of maize (Zea mays ssp. mays). However, archaeologically, little is known about the use of teosinte by humans both prior to and after the domestication of maize. One potential line of evidence to explore these relationships is opaline phytoliths produced in teosinte fruit cases. Here we use multidimensional scaling and multiple discriminant analyses to determine if rondel phytolith assemblages from teosinte fruitcases reflect teosinte taxonomy. Our results indicate that rondel phytolith assemblages from the various taxa, including subspecies, can be statistically discriminated. This indicates that it will be possible to investigate the archaeological histories of teosinte use pending the recovery of appropriate samples.

  14. Nematode taxonomy: from morphology to metabarcoding

    Science.gov (United States)

    Ahmed, M.; Sapp, M.; Prior, T.; Karssen, G.; Back, M.

    2015-11-01

    Nematodes represent a species rich and morphologically diverse group of metazoans inhabiting both aquatic and terrestrial environments. Their role as biological indicators and as key players in nutrient cycling has been well documented. Some groups of nematodes are also known to cause significant losses to crop production. In spite of this, knowledge of their diversity is still limited due to the difficulty in achieving species identification using morphological characters. Molecular methodology has provided very useful means of circumventing the numerous limitations associated with classical morphology based identification. We discuss herein the history and the progress made within the field of nematode systematics, the limitations of classical taxonomy and how the advent of high throughput sequencing is facilitating advanced ecological and molecular studies.

  15. Taxonomy of Indonesian giant clams (Cardiidae, Tridacninae

    Directory of Open Access Journals (Sweden)

    UDHI EKO HERNAWAN

    2012-07-01

    Full Text Available Hernawan E. 2012. Taxonomy of Indonesian giant clams (Cardiidae, Tridacninae. Biodiversitas 13: 118-123. A taxonomic study was conducted on the giant clam’s specimens deposited in Museum Zoologicum Bogoriense (MZB, Cibinong Indonesia. Taxonomic overviews of the examined specimens are given with diagnostic characters, remarks, habitat and distribution. Discussion is focused on specific characters distinguishing each species. From seven species known to distribute in Indonesian waters, there are six species, Tridacna squamosa Lamarck, 1819; T. gigas Linnaeus, 1758; T. derasa Roding, 1798; T. crocea Lamarck, 1819; T. maxima Roding,1798; and Hippopus hippopus Linnaeus, 1758. This study suggests the need for collecting specimen of H. porcellanus Rosewater, 1982. Important characters to distinguish species among Tridacninae are interlocking teeth on byssal orifice, life habits, presence of scales and inhalant siphon tentacles.

  16. A Taxonomy of Metrics for Hosted Databases

    Directory of Open Access Journals (Sweden)

    Jordan Shropshire

    2006-04-01

    Full Text Available The past three years has seen exponential growth in the number of organizations who have elected to entrust core information technology functions to application service providers. Of particular interest is the outsourcing of critical systems such as corporate databases. Major banks and financial service firms are contracting with third party organizations, sometimes overseas, for their database needs. These sophisticated contracts require careful supervision by both parties. Due to the complexities of web- based applications and the complicated nature of databases, an entire class of software suites has been developed to measure the quality of service the database is providing. This article investigates the performance metrics which have evolved to satisfy this need and describes a taxonomy of performance metrics for hosted databases.

  17. Taxonomy of the genus Passerina (Thymelaeaceae

    Directory of Open Access Journals (Sweden)

    C. L. Bredenkamp

    2003-12-01

    Full Text Available Passerina L. is mainly a southern African genus, comprising 20 species and four subspecies. A few species occur along the Great Escarpment, two extend into Zimbabwe and Mozambique, but most are concentrated in the Cape Floristic Region. Palynological. macromorphological and anatomical evidence was used in the delimitation of the genus and its infrageneric taxa. A cladistic study supports Passerina as a monophyletic genus. A genus treatment, key to species and a full species treatment are given. Each species treatment includes a taxonomic diagnosis, description and notes on taxonomy, etymology, economic value and distribution. Illustrations of representative species are provided and distribution maps are included for each species.  P. esterhuyseniae Bredenk. & A.E.van Wyk is newly described. A list of excluded species names highlights the previous cosmopolitan taxonomic interpretation of Passerina. as many names are now in synony my under other genera of the Thymelaeaceae.

  18. Organizing electronic services into security taxonomies - revised

    Energy Technology Data Exchange (ETDEWEB)

    Smith, S.W. [IBM T.J. Watson Research Center, Yorktown Heights, NY (United States); Pedersen, P.S. [Los Alamos National Lab., NM (United States)

    1997-01-01

    With increasing numbers of commercial and government services being considered for electronic delivery, effective vulnerability analysis will become increasingly critical, Organizing sets of proposed electronic services into security taxonomies will be a key part of this work. However, brute force enumeration of services and risks is inefficient, and ad hoc methods require re-invention with each new set of services. Furthermore, both such approaches fail to communicate effectively the tradeoffs between vulnerabilities and features in a set of electronic services, and fail to scale to large sets of service. From our experience advising players considering electronic delivery, we have developed a general, systematic, and scalable methodology that addresses these concerns. In this paper, we present this methodology, and apply it to the example of electronic services offered via kiosks (since kiosk systems are representative of a wide range of security issues in electronic commerce).

  19. Taxonomy of Data Prefetching for Multicore Processors

    Institute of Scientific and Technical Information of China (English)

    Surendra Byna; Yong Chen; Xian-He Sun

    2009-01-01

    Data prefetching is an effective data access latency hiding technique to mask the CPU stall caused by cache misses and to bridge the performance gap between processor and memory. With hardware and/or software support, data prefetching brings data closer to a processor before it is actually needed. Many prefetching techniques have been developed for single-core processors. Recent developments in processor technology have brought multicore processors into mainstream.While some of the single-core prefetching techniques are directly applicable to multicore processors, numerous novel strategies have been proposed in the past few years to take advantage of multiple cores. This paper aims to provide a comprehensive review of the state-of-the-art prefetching techniques, and proposes a taxonomy that classifies various design concerns in developing a prefetching strategy, especially for multicore processors. We compare various existing methods through analysis as well.

  20. Benchmarking of methods for genomic taxonomy.

    Science.gov (United States)

    Larsen, Mette V; Cosentino, Salvatore; Lukjancenko, Oksana; Saputra, Dhany; Rasmussen, Simon; Hasman, Henrik; Sicheritz-Pontén, Thomas; Aarestrup, Frank M; Ussery, David W; Lund, Ole

    2014-05-01

    One of the first issues that emerges when a prokaryotic organism of interest is encountered is the question of what it is--that is, which species it is. The 16S rRNA gene formed the basis of the first method for sequence-based taxonomy and has had a tremendous impact on the field of microbiology. Nevertheless, the method has been found to have a number of shortcomings. In the current study, we trained and benchmarked five methods for whole-genome sequence-based prokaryotic species identification on a common data set of complete genomes: (i) SpeciesFinder, which is based on the complete 16S rRNA gene; (ii) Reads2Type that searches for species-specific 50-mers in either the 16S rRNA gene or the gyrB gene (for the Enterobacteraceae family); (iii) the ribosomal multilocus sequence typing (rMLST) method that samples up to 53 ribosomal genes; (iv) TaxonomyFinder, which is based on species-specific functional protein domain profiles; and finally (v) KmerFinder, which examines the number of cooccurring k-mers (substrings of k nucleotides in DNA sequence data). The performances of the methods were subsequently evaluated on three data sets of short sequence reads or draft genomes from public databases. In total, the evaluation sets constituted sequence data from more than 11,000 isolates covering 159 genera and 243 species. Our results indicate that methods that sample only chromosomal, core genes have difficulties in distinguishing closely related species which only recently diverged. The KmerFinder method had the overall highest accuracy and correctly identified from 93% to 97% of the isolates in the evaluations sets.

  1. Taxonomy of the European Pied Flycatcher Ficedula hypoleuca (Aves: Muscicapidae)

    NARCIS (Netherlands)

    Salvador, Rodrigo B.; Van der Jeugd, Henk; Tomotani, Barbara M.

    2017-01-01

    The convoluted taxonomy of the European Pied Flycatcher, Ficedula hypoleuca ([Pallas], 1764) (Aves: Passeriformes: Muscicapidae) might present a challenge for researchers working in other areas of biology. We present here a historical review of this species’ nomenclature, discuss its generic

  2. Integrative taxonomy: a multisource approach to exploring biodiversity.

    Science.gov (United States)

    Schlick-Steiner, Birgit C; Steiner, Florian M; Seifert, Bernhard; Stauffer, Christian; Christian, Erhard; Crozier, Ross H

    2010-01-01

    Good alpha taxonomy is central to biology. On the basis of a survey of arthropod studies that used multiple disciplines for species delimitation, we evaluated the performance of single disciplines. All included disciplines had a considerable failure rate. Rigor in species delimitation can thus be increased when several disciplines chosen for complementarity are used. We present a flexible procedure and stopping rule for integrative taxonomy that uses the information from different disciplines separately. Disagreement among disciplines over the number and demarcation of species is resolved by elucidating and invoking evolutionary explanations for disagreement. With the identification of further promising study organisms and of new questions for in-depth analysis, evolutionary biology should profit from integrative taxonomy. An important rationale is clarity in researcher bias in the decision-making process. The success of integrative taxonomy will further increase through methodological progress, taxonomic training of evolutionary biologists, and balanced resource allocation.

  3. The HCBS Taxonomy- A New Language for Classifying Home...

    Data.gov (United States)

    U.S. Department of Health & Human Services — The home- and community-based services (HCBS) taxonomy provides a common language for describing and categorizing HCBS across Medicaid programs. Prior to the...

  4. Chinese Soil Taxonomy: A Milestone of Soil Classification in China

    Institute of Scientific and Technical Information of China (English)

    Gong Zitong; Zhang Ganlin

    2007-01-01

    @@ 1 Background Taxonomy is the branch of science dedicated to discovering, characterizing, naming, and classifying objects or organisms so as to understand relationships between them and the factors of their formation[1].

  5. The HCBS Taxonomy- A New Language for Classifying Home...

    Data.gov (United States)

    U.S. Department of Health & Human Services — The home- and community-based services (HCBS) taxonomy provides a common language for describing and categorizing HCBS across Medicaid programs. Prior to the...

  6. Rehabilitation treatment taxonomy and the international classification of health interventions.

    Science.gov (United States)

    Sykes, Catherine R

    2014-01-01

    This commentary provides some reactions to the rehabilitation treatment taxonomy project in relation to work already underway to develop an International Classification of Health Interventions. This commentary also includes some comments in response to questions posed by the authors.

  7. Generating a multilingual taxonomy based on multilingual terminology clustering

    Institute of Scientific and Technical Information of China (English)

    Chengzhi; ZHANG

    2011-01-01

    Taxonomy denotes the hierarchical structure of a knowledge organization system.It has important applications in knowledge navigation,semantic annotation and semantic search.It is a useful instrument to study the multilingual taxonomy generated automatically under the dynamic information environment in which massive amounts of information are processed and found.Multilingual taxonomy is the core component of the multilingual thesaurus or ontology.This paper presents two methods of bilingual generated taxonomy:Cross-language terminology clustering and mixed-language based terminology clustering.According to our experimental results of terminology clustering related to four specific subject domains,we found that if the parallel corpus is used to cluster multilingual terminologies,the method of using mixed-language based terminology clustering outperforms that of using the cross-language terminology clustering.

  8. A taxonomy of behaviour change methods: an Intervention Mapping approach.

    Science.gov (United States)

    Kok, Gerjo; Gottlieb, Nell H; Peters, Gjalt-Jorn Y; Mullen, Patricia Dolan; Parcel, Guy S; Ruiter, Robert A C; Fernández, María E; Markham, Christine; Bartholomew, L Kay

    2016-09-01

    In this paper, we introduce the Intervention Mapping (IM) taxonomy of behaviour change methods and its potential to be developed into a coding taxonomy. That is, although IM and its taxonomy of behaviour change methods are not in fact new, because IM was originally developed as a tool for intervention development, this potential was not immediately apparent. Second, in explaining the IM taxonomy and defining the relevant constructs, we call attention to the existence of parameters for effectiveness of methods, and explicate the related distinction between theory-based methods and practical applications and the probability that poor translation of methods may lead to erroneous conclusions as to method-effectiveness. Third, we recommend a minimal set of intervention characteristics that may be reported when intervention descriptions and evaluations are published. Specifying these characteristics can greatly enhance the quality of our meta-analyses and other literature syntheses. In conclusion, the dynamics of behaviour change are such that any taxonomy of methods of behaviour change needs to acknowledge the importance of, and provide instruments for dealing with, three conditions for effectiveness for behaviour change methods. For a behaviour change method to be effective: (1) it must target a determinant that predicts behaviour; (2) it must be able to change that determinant; (3) it must be translated into a practical application in a way that preserves the parameters for effectiveness and fits with the target population, culture, and context. Thus, taxonomies of methods of behaviour change must distinguish the specific determinants that are targeted, practical, specific applications, and the theory-based methods they embody. In addition, taxonomies should acknowledge that the lists of behaviour change methods will be used by, and should be used by, intervention developers. Ideally, the taxonomy should be readily usable for this goal; but alternatively, it should be

  9. Bloom’s taxonomy of cognitive learning objectives

    OpenAIRE

    Adams, Nancy E.

    2015-01-01

    Information professionals who train or instruct others can use Bloom’s taxonomy to write learning objectives that describe the skills and abilities that they desire their learners to master and demonstrate. Bloom’s taxonomy differentiates between cognitive skill levels and calls attention to learning objectives that require higher levels of cognitive skills and, therefore, lead to deeper learning and transfer of knowledge and skills to a greater variety of tasks and contexts.

  10. RAPID INDUCTION OF MULTIPLE TAXONOMIES FOR ENHANCED FACETED TEXT BROWSING

    Directory of Open Access Journals (Sweden)

    Lawrence Muchemi 1

    2016-07-01

    Full Text Available In this paper we present and compare two methodologies for rapidly inducing multiple subject-specific taxonomies from crawled data. The first method involves a sentence-level words co-occurrence frequency method for building the taxonomy, while the second involves the bootstrapping of a Word2Vec based algorithm with a directed crawler. We exploit the multilingual open-content directory of the World Wide Web, DMOZ1 to seed the crawl, and the domain name to direct the crawl. This domain corpus is then input to our algorithm that can automatically induce taxonomies. The induced taxonomies provide hierarchical semantic dimensions for the purposes of faceted browsing. As part of an ongoing personal semantics project, we applied the resulting taxonomies to personal social media data Twitter, Gmail, Facebook, Instagram, Flickr with an objective of enhancing an individual’s exploration of their personal information through faceted searching. We also perform a comprehensive corpus based evaluation of the algorithms based on many datasets drawn from the fields of medicine (diseases and leisure (hobbies and show that the induced taxonomies are of high quality.

  11. Surfacing the deep data of taxonomy

    Directory of Open Access Journals (Sweden)

    Roderic Page

    2016-12-01

    Full Text Available Taxonomic databases are perpetuating approaches to citing literature that may have been appropriate before the Internet, often being little more than digitised 5 × 3 index cards. Typically the original taxonomic literature is either not cited, or is represented in the form of a (typically abbreviated text string. Hence much of the “deep data” of taxonomy, such as the original descriptions, revisions, and nomenclatural actions are largely hidden from all but the most resourceful users. At the same time there are burgeoning efforts to digitise the scientific literature, and much of this newly available content has been assigned globally unique identifiers such as Digital Object Identifiers (DOIs, which are also the identifier of choice for most modern publications. This represents an opportunity for taxonomic databases to engage with digitisation efforts. Mapping the taxonomic literature on to globally unique identifiers can be time consuming, but need be done only once. Furthermore, if we reuse existing identifiers, rather than mint our own, we can start to build the links between the diverse data that are needed to support the kinds of inference which biodiversity informatics aspires to support. Until this practice becomes widespread, the taxonomic literature will remain balkanized, and much of the knowledge that it contains will linger in obscurity.

  12. Past, present, and future of arenavirus taxonomy.

    Science.gov (United States)

    Radoshitzky, Sheli R; Bào, Yīmíng; Buchmeier, Michael J; Charrel, Rémi N; Clawson, Anna N; Clegg, Christopher S; DeRisi, Joseph L; Emonet, Sébastien; Gonzalez, Jean-Paul; Kuhn, Jens H; Lukashevich, Igor S; Peters, Clarence J; Romanowski, Victor; Salvato, Maria S; Stenglein, Mark D; de la Torre, Juan Carlos

    2015-07-01

    Until recently, members of the monogeneric family Arenaviridae (arenaviruses) have been known to infect only muroid rodents and, in one case, possibly phyllostomid bats. The paradigm of arenaviruses exclusively infecting small mammals shifted dramatically when several groups independently published the detection and isolation of a divergent group of arenaviruses in captive alethinophidian snakes. Preliminary phylogenetic analyses suggest that these reptilian arenaviruses constitute a sister clade to mammalian arenaviruses. Here, the members of the International Committee on Taxonomy of Viruses (ICTV) Arenaviridae Study Group, together with other experts, outline the taxonomic reorganization of the family Arenaviridae to accommodate reptilian arenaviruses and other recently discovered mammalian arenaviruses and to improve compliance with the Rules of the International Code of Virus Classification and Nomenclature (ICVCN). PAirwise Sequence Comparison (PASC) of arenavirus genomes and NP amino acid pairwise distances support the modification of the present classification. As a result, the current genus Arenavirus is replaced by two genera, Mammarenavirus and Reptarenavirus, which are established to accommodate mammalian and reptilian arenaviruses, respectively, in the same family. The current species landscape among mammalian arenaviruses is upheld, with two new species added for Lunk and Merino Walk viruses and minor corrections to the spelling of some names. The published snake arenaviruses are distributed among three new separate reptarenavirus species. Finally, a non-Latinized binomial species name scheme is adopted for all arenavirus species. In addition, the current virus abbreviations have been evaluated, and some changes are introduced to unequivocally identify each virus in electronic databases, manuscripts, and oral proceedings.

  13. Plant taxonomy: a historical perspective, current challenges, and perspectives.

    Science.gov (United States)

    Rouhan, Germinal; Gaudeul, Myriam

    2014-01-01

    Taxonomy is the science that explores, describes, names, and classifies all organisms. In this introductory chapter, we highlight the major historical steps in the elaboration of this science that provides baseline data for all fields of biology and plays a vital role for society but is also an independent, complex, and sound hypothesis-driven scientific discipline.In a first part, we underline that plant taxonomy is one of the earliest scientific disciplines that emerged thousands of years ago, even before the important contributions of Greeks and Romans (e.g., Theophrastus, Pliny the Elder, and Dioscorides). In the fifteenth to sixteenth centuries, plant taxonomy benefited from the Great Navigations, the invention of the printing press, the creation of botanic gardens, and the use of the drying technique to preserve plant specimens. In parallel with the growing body of morpho-anatomical data, subsequent major steps in the history of plant taxonomy include the emergence of the concept of natural classification, the adoption of the binomial naming system (with the major role of Linnaeus) and other universal rules for the naming of plants, the formulation of the principle of subordination of characters, and the advent of the evolutionary thought. More recently, the cladistic theory (initiated by Hennig) and the rapid advances in DNA technologies allowed to infer phylogenies and to propose true natural, genealogy-based classifications.In a second part, we put the emphasis on the challenges that plant taxonomy faces nowadays. The still very incomplete taxonomic knowledge of the worldwide flora (the so-called taxonomic impediment) is seriously hampering conservation efforts that are especially crucial as biodiversity enters its sixth extinction crisis. It appears mainly due to insufficient funding, lack of taxonomic expertise, and lack of communication and coordination. We then review recent initiatives to overcome these limitations and to anticipate how taxonomy

  14. Climbing Bloom's taxonomy pyramid: Lessons from a graduate histology course.

    Science.gov (United States)

    Zaidi, Nikki B; Hwang, Charles; Scott, Sara; Stallard, Stefanie; Purkiss, Joel; Hortsch, Michael

    2017-02-23

    Bloom's taxonomy was adopted to create a subject-specific scoring tool for histology multiple-choice questions (MCQs). This Bloom's Taxonomy Histology Tool (BTHT) was used to analyze teacher- and student-generated quiz and examination questions from a graduate level histology course. Multiple-choice questions using histological images were generally assigned a higher BTHT level than simple text questions. The type of microscopy technique (light or electron microscopy) used for these image-based questions did not result in any significant differences in their Bloom's taxonomy scores. The BTHT levels for teacher-generated MCQs correlated positively with higher discrimination indices and inversely with the percent of students answering these questions correctly (difficulty index), suggesting that higher-level Bloom's taxonomy questions differentiate well between higher- and lower-performing students. When examining BTHT scores for MCQs that were written by students in a Multiple-Choice Item Development Assignment (MCIDA) there was no significant correlation between these scores and the students' ability to answer teacher-generated MCQs. This suggests that the ability to answer histology MCQs relies on a different skill set than the aptitude to construct higher-level Bloom's taxonomy questions. However, students significantly improved their average BTHT scores from the midterm to the final MCIDA task, which indicates that practice, experience and feedback increased their MCQ writing proficiency. Anat Sci Educ. © 2017 American Association of Anatomists.

  15. Functional assessment taxonomy relevant to low-back impairments.

    Science.gov (United States)

    Halpern, M

    2001-09-01

    A taxonomy of functional assessment constructs was developed to help the Social Security Administration refine the measurements of work disability. This report addresses content validity of the new taxonomy by examining the relevance of its constructs to a specific disability, and by examining the relationship between these constructs and constructs in other taxonomies. Seven experts linked the new taxonomy to consequences of low-back impairments. The selected constructs were compared to those reported independently by patients (Harper AC, Harper DA, Lambert L, Andrews HB, Lo SK, Ross FM, Straker LM. Pain 1992; 50(2): 189-195). The International Classification of Impairments, Disabilities and Handicaps served to bridge the two exercises. The findings reveal that it is feasible to use the taxonomy to define the impact of a specific disability and consequently link it to a set of standard measurements. Low-back impairments may be best assessed through measures of physical functional limitations, vocational impact, and interpersonal and emotional behavior. The study did not yield cognitive and intellectual measures that were relevant to this impairment.

  16. An Analytical Overview of Spirituality in NANDA-I Taxonomies.

    Science.gov (United States)

    Mesquita, Ana Cláudia; Caldeira, Sílvia; Chaves, Erika; Carvalho, Emilia Campos de

    2017-03-01

    To discuss the approach of spirituality in NANDA-I taxonomies, based on the elements that characterize this phenomenon. This study was based on concepts that are usually adopted in the literature for defining spirituality and on the analysis of the NANDA-I taxonomies from I to III. Spirituality is included in all taxonomies but all three are missing some attributes to guarantee the completeness of this dimension for nursing diagnosis. Taxonomy III makes different approaches to spirituality and some inconsistencies. Contribute to the development and review of the new proposal for taxonomy. Discutir a abordagem à espiritualidade nas taxonomias da NANDA-I, baseada nos elementos que caracterizam este fenômeno. MÉTODOS: Este estudo foi baseado em conceitos usualmente adotados na literatura de enfermagem para definir espiritualidade e na análise das taxonomias da NANDA-I, desde a I à III. A espiritualidade está incluída nas taxonomias, porém estas carecem de atributos do seu conceito. CONCLUSÕES: A taxonomia III faz diferentes abordagens à espiritualidade, porém com algumas inconsistências identificadas. IMPLICAÇÕES PARA A ENFERMAGEM: Esta análise pode contribuir para o desenvolvimento e revisão da taxonomia III. © 2017 NANDA International, Inc.

  17. Expanding the taxonomy of the diagnostic criteria for temporomandibular disorders.

    Science.gov (United States)

    Peck, C C; Goulet, J-P; Lobbezoo, F; Schiffman, E L; Alstergren, P; Anderson, G C; de Leeuw, R; Jensen, R; Michelotti, A; Ohrbach, R; Petersson, A; List, T

    2014-01-01

    There is a need to expand the current temporomandibular disorders' (TMDs) classification to include less common but clinically important disorders. The immediate aim was to develop a consensus-based classification system and associated diagnostic criteria that have clinical and research utility for less common TMDs. The long-term aim was to establish a foundation, vis-à-vis this classification system, that will stimulate data collection, validity testing and further criteria refinement. A working group [members of the International RDC/TMD Consortium Network of the International Association for Dental Research (IADR), members of the Orofacial Pain Special Interest Group (SIG) of the International Association for the Study of Pain (IASP), and members from other professional societies] reviewed disorders for inclusion based on clinical significance, the availability of plausible diagnostic criteria and the ability to operationalise and study the criteria. The disorders were derived from the literature when possible and based on expert opinion as necessary. The expanded TMDs taxonomy was presented for feedback at international meetings. Of 56 disorders considered, 37 were included in the expanded taxonomy and were placed into the following four categories: temporomandibular joint disorders, masticatory muscle disorders, headache disorders and disorders affecting associated structures. Those excluded were extremely uncommon, lacking operationalised diagnostic criteria, not clearly related to TMDs, or not sufficiently distinct from disorders already included within the taxonomy. The expanded TMDs taxonomy offers an integrated approach to clinical diagnosis and provides a framework for further research to operationalise and test the proposed taxonomy and diagnostic criteria.

  18. Historical development and some emendations of dinoflagellate taxonomy

    Directory of Open Access Journals (Sweden)

    Xin Ma

    2013-01-01

    Full Text Available The historical development of dinoflagellate taxonomy in China and the world are reviewed, and the taxonomic status of some dinoflagellate groups in Chinese coastal seas are emended. It has been more than 200 years since the discovery of dinoflagellates, but following intensive study, increasing confusion and controversy in dinofalgellate taxonomy has become apparent. In this paper, a broad overview of the history of dinoflagellate taxonomy is presented, highlighting some major developments. Differences exist between the international and Chinese taxonomy system. When comparing the internationally accepted system (based on the information provided by the website algaeBASE with that used in China (based on the monograph Checklist of Marine Biota of China Seas, we found that they were very similar at the order level, but some differences existed at the family and genus levels. According to morphological and some physiological characteristics, a more reasonable taxonomy is presented. The main emendations are: (1 the three genera named Karenia, Karlodinium and Takayama, are separated from the family Gymnodiniaceae and classified as a new family Kareniaceae; (2 most species in the genus Ceratium are placed in Neoceratium; (3 the genus Alexandrium is separated from family Goniodomataceae, and placed in the family Gonyaulacaceae; (4 the family Heteraulacaceae is replaced by the family Goniodomataceae; and (5 two new orders, Oxyrrhinales and Pyrocystales, are established.

  19. Taxonomy for Modeling Demand Response Resources

    Energy Technology Data Exchange (ETDEWEB)

    Olsen, Daniel; Kiliccote, Sila; Sohn, Michael; Dunn, Laura; Piette, Mary, A

    2014-08-01

    Demand response resources are an important component of modern grid management strategies. Accurate characterizations of DR resources are needed to develop systems of optimally managed grid operations and to plan future investments in generation, transmission, and distribution. The DOE Demand Response and Energy Storage Integration Study (DRESIS) project researched the degree to which demand response (DR) and energy storage can provide grid flexibility and stability in the Western Interconnection. In this work, DR resources were integrated with traditional generators in grid forecasting tools, specifically a production cost model of the Western Interconnection. As part of this study, LBNL developed a modeling framework for characterizing resource availability and response attributes of DR resources consistent with the governing architecture of the simulation modeling platform. In this report, we identify and describe the following response attributes required to accurately characterize DR resources: allowable response frequency, maximum response duration, minimum time needed to achieve load changes, necessary pre- or re-charging of integrated energy storage, costs of enablement, magnitude of controlled resources, and alignment of availability. We describe a framework for modeling these response attributes, and apply this framework to characterize 13 DR resources including residential, commercial, and industrial end-uses. We group these end-uses into three broad categories based on their response capabilities, and define a taxonomy for classifying DR resources within these categories. The three categories of resources exhibit different capabilities and differ in value to the grid. Results from the production cost model of the Western Interconnection illustrate that minor differences in resource attributes can have significant impact on grid utilization of DR resources. The implications of these findings will be explored in future DR valuation studies.

  20. Molecular Taxonomy and Tumourigenesis of Colorectal Cancer.

    Science.gov (United States)

    Biswas, S; Holyoake, D; Maughan, T S

    2016-02-01

    Over the last 5 years there has been a surge in interest in the molecular classification of colorectal cancer. The effect of molecular subtyping on current treatment decisions is limited to avoidance of adjuvant 5-fluorouracil chemotherapy in stage II microsatellite unstable-high disease and avoidance of epidermal growth factor receptor-targeted antibodies in extended RAS mutant tumours. The emergence of specific novel combination therapy for the BRAF-mutant cohort and of the microsatellite unstable-high cohort as a responsive group to immune checkpoint inhibition shows the growing importance of a clinically relevant molecular taxonomy. Clinical trials such as the Medical Research Council FOCUS4 trial using biomarkers to select patients for specific therapies are currently open and testing such approaches. The integration of mutation, gene expression and pathological analyses is refining our understanding of the biological subtypes within colorectal cancer. Sharing of data sets of parallel sequencing and gene expression of thousands of cancers among independent groups has allowed the description of disease subsets and the need for a validated consensus classification has become apparent. This biological understanding of the disease is a key step forward in developing a stratified approach to patient management. The discovery of stratifiers that predict a response to existing and emerging therapies will enable better use of these treatments. Improved scientific understanding of the biological characteristics of poorly responsive subgroups will facilitate the design of novel biologically rational combinations. Novel treatment regimens, including the combination of new drugs with radiation, and the discovery and validation of their associated predictive biomarkers will gradually lead to improved outcomes from therapy.

  1. Peruvian Children's Folk Taxonomy of Marine Animals

    Directory of Open Access Journals (Sweden)

    José Pizarro-Neyra

    2011-09-01

    Full Text Available Free listing was used to obtain names of marine animals from 234 Peruvian children with families involved in fishing activities. They live in the fishing towns of Vila-vila, Morro Sama and Ilo, located in Southern Peru. Fishes, birds and the category “other marine animal” were used for the classification of marine fauna by children. The group of 6-8 year-olds shows a mean frequency of 19.7 names per child, while the group of 9-11 year-olds shows a mean frequency of 25.7 names per child. Folk species of fish is the most frequently recorded category with a predominance of coastal species and with a mean frequency of 7.56 and 11.51 names per child for the groups of 6-8 year-olds and 9-11 year-olds, respectively. In contrast, bird names are less frequently recorded in the lists. Some bird and mollusc names have lexical under-differentiation at a generic level and apparently have lower cultural significance than fish. Children’s classification in different levels of organization is evidence of a folk biology. The folk taxonomy of marine animals could be influenced by the lesser cognitive development of younger children and the ecological salience of some species. Some species with coastal habitat exhibit a high dominance index of folk names. Cultural transmission of knowledge about birds could be failing due to the recent occupancy of the study sites by migratory people and the sexual division of work in the children’s families.

  2. Development of tools to study personal weight control strategies: OxFAB taxonomy

    OpenAIRE

    Hartmann‐Boyce, Jamie; Aveyard, Paul; Koshiaris, Constantinos; Jebb, Susan A

    2016-01-01

    Objective To describe the development of the Oxford Food and Activity Behaviors (OxFAB) taxonomy and questionnaire to explore the cognitive and behavioral strategies used by individuals during weight management attempts. Methods The taxonomy was constructed through a qualitative analysis of existing resources and a review of existing behavior change taxonomies and theories. The taxonomy was translated into a questionnaire to identify strategies used by individuals. Think‐aloud interviews were...

  3. Development of tools to study personal weight control strategies: OxFAB taxonomy.

    OpenAIRE

    Hartmann-Boyce, J; Aveyard, P; Koshiaris, C; Jebb, SA

    2016-01-01

    To describe the development of the Oxford Food and Activity Behaviors (OxFAB) taxonomy and questionnaire to explore the cognitive and behavioral strategies used by individuals during weight management attempts.The taxonomy was constructed through a qualitative analysis of existing resources and a review of existing behavior change taxonomies and theories. The taxonomy was translated into a questionnaire to identify strategies used by individuals. Think-aloud interviews were conducted to test ...

  4. Critical Examination of a Revision of Bloom's Taxonomy for the Development of Art Education Curriculum

    OpenAIRE

    中村, 和世; 大和, 浩子; 中島, 敦夫; 吉川, 和生

    2011-01-01

    This paper is aimed at developing Art Education Taxonomy Table through critically examining a revision of Bloom's Taxonomy of Educational Objectives contrived by Anderson and Krathwohl. First, the overview of the history of Bloom's Taxonomy is provided in relation to art education. Second, the influence of Bloom's theory of educational evaluation and Taxonomy on the classroom practice of art education in Japan is discussed. Third, aiming at using for the development of art education curriculu...

  5. Query processing in distributed, taxonomy-based information sources

    CERN Document Server

    Meghini, Carlo; Coltella, Veronica; Analyti, Anastasia

    2011-01-01

    We address the problem of answering queries over a distributed information system, storing objects indexed by terms organized in a taxonomy. The taxonomy consists of subsumption relationships between negation-free DNF formulas on terms and negation-free conjunctions of terms. In the first part of the paper, we consider the centralized case, deriving a hypergraph-based algorithm that is efficient in data complexity. In the second part of the paper, we consider the distributed case, presenting alternative ways implementing the centralized algorithm. These ways descend from two basic criteria: direct vs. query re-writing evaluation, and centralized vs. distributed data or taxonomy allocation. Combinations of these criteria allow to cover a wide spectrum of architectures, ranging from client-server to peer-to-peer. We evaluate the performance of the various architectures by simulation on a network with O(10^4) nodes, and derive final results. An extensive review of the relevant literature is finally included.

  6. Precision psychiatry: a neural circuit taxonomy for depression and anxiety.

    Science.gov (United States)

    Williams, Leanne M

    2016-05-01

    Although there have been tremendous advances in the understanding of human dysfunctions in the brain circuitry for self-reflection, emotion, and cognitive control, a brain-based taxonomy for mental disease is still lacking. As a result, these advances have not been translated into actionable clinical tools, and the language of brain circuits has not been incorporated into training programmes. To address this gap, I present this synthesis of published work, with a focus on functional imaging of circuit dysfunctions across the spectrum of mood and anxiety disorders. This synthesis provides the foundation for a taxonomy of putative types of dysfunction, which cuts across traditional diagnostic boundaries for depression and anxiety and includes instead distinct types of neural circuit dysfunction that together reflect the heterogeneity of depression and anxiety. This taxonomy is suited to specifying symptoms in terms of underlying neural dysfunction at the individual level and is intended as the foundation for building mechanistic research and ultimately guiding clinical practice.

  7. A knowledge network for a dynamic taxonomy of psychiatric disease.

    Science.gov (United States)

    Krishnan, Ranga R

    2015-03-01

    Current taxonomic approaches in medicine and psychiatry are limited in validity and utility. They do serve simple communication purposes for medical coding, teaching, and reimbursement, but they are not suited for the modern era with its rapid explosion of knowledge from the "omics" revolution. The National Academy of Sciences published a report entitled Toward Precision Medicine: Building a Knowledge Network for Biomedical Research and a New Taxonomy of Disease. The authors advocate a new taxonomy that would integrate molecular data, clinical data, and health outcomes in a dynamic, iterative fashion, bringing together research, public health, and health-care delivery with the interlinked goals of advancing our understanding of disease pathogenesis and thereby improving health. As the need for an information hub and a knowledge network with a dynamic taxonomy based on integration of clinical and research data is vital, and timely, this proposal merits consideration.

  8. Let's rise up to unite taxonomy and technology.

    Science.gov (United States)

    Bik, Holly M

    2017-08-01

    What do you think of when you think of taxonomy? An 18th century gentlemen in breeches? Or perhaps botany drawings hung on the walls of a boutique hotel? Such old-fashioned conceptions to the contrary, taxonomy is alive today although constantly struggling for survival and recognition. The scientific community is losing valuable resources as taxonomy experts age and retire, and funding for morphological studies and species descriptions remains stagnant. At the same time, organismal knowledge (morphology, ecology, physiology) has never been more important: genomic studies are becoming more taxon focused, the scientific community is recognizing the limitations of traditional "model" organisms, and taxonomic expertise is desperately needed to fight against global biodiversity declines resulting from human impacts. There has never been a better time for a taxonomic renaissance.

  9. The Revised Bloom's Taxonomy: implications for educating nurses.

    Science.gov (United States)

    Su, Whei Ming; Osisek, Paul J

    2011-07-01

    One of the essential goals for continuing education in nursing is to enhance nurses' ability to improve patient care outcomes. Toward this goal, learners need to transfer learned knowledge to actual practice. Achieving effective transfer requires knowledge of thinking paradigms in relation to specific subject content. Educators can facilitate knowledge transfer by developing instructional designs that incorporate subject content and cognitive processes related to the use of the subject content. However, it is difficult to develop such instructional designs. The Revised Bloom's Taxonomy provides a framework for meeting this educational need. In this article, the authors establish the relevance of the Revised Bloom's Taxonomy to continuing education and describe how to use the taxonomy to plan an educational session with an emphasis on promoting knowledge transfer.

  10. Update History of This Database - Taxonomy Icon | LSDB Archive [Life Science Database Archive metadata

    Lifescience Database Archive (English)

    Full Text Available [ Credits ] BLAST Search Image Search Home About Archive Update History Contact us Taxonomy Icon Up...date History of This Database Date Update contents 2013/06/19 Taxonomy Icon English archive ...by Artio About This Database Database Description Download License Update History... of This Database Site Policy | Contact Us Update History of This Database - Taxonomy Icon | LSDB Archive ...

  11. The Properties of Bloom's Taxonomy of Educational Objectives for the Cognitive Domain

    Science.gov (United States)

    Seddon, G. M.

    1978-01-01

    Authors of the taxonomy made various claims about its properties that concern both educational and psychological issues; these claims have stimulated investigations of the taxonomy's validity. As the taxonomy is now entering its twenty-second year, this review attempts to survey these investigations and appraise the findings. (Author/CP)

  12. Applying the "Congruence" Principle of Bloom's Taxonomy to Designing Online Instruction.

    Science.gov (United States)

    Chyung, Seung-Youn; Stepich, Donald

    2003-01-01

    Provides an overview of Bloom's taxonomy of educational objectives. A case study is then presented that explains how the use of the taxonomy was instrumental in the development of graduate-level online instruction and how the taxonomy helped to maintain the congruence among the components of online instruction. (MES)

  13. Encouraging the Cognitive Development of Supervisees: Using Bloom's Taxonomy in Supervision.

    Science.gov (United States)

    Granello, Darcy Haag

    2000-01-01

    Applies Bloom's Taxonomy of Educational Objectives to the process of counseling supervision. Uses taxonomy as a means to help supervisors encourage the growth of cognitive complexity in supervisees. Provides examples of supervision questions for each level of the taxonomy. (Author/JDM)

  14. A Practitioner's Perspective on Taxonomy, Ontology and Findability

    Science.gov (United States)

    Berndt, Sarah

    2011-01-01

    This slide presentation reviews the presenters perspective on developing a taxonomy for JSC to capitalize on the accomplishments of yesterday, while maintaining the flexibility needed for the evolving information of today. A clear vision and scope for the semantic system is integral to its success. The vision for the JSC Taxonomy is to connect information stovepipes to present a unified view for information and knowledge across the Center, across organizations, and across decades. Semantic search at JSC means seamless integration of disparate information sets into a single interface. Ever increasing use, interest, and organizational participation mark successful integration and provide the framework for future application.

  15. Taxonomy, Ontology and Semantics at Johnson Space Center

    Science.gov (United States)

    Berndt, Sarah Ann

    2011-01-01

    At NASA Johnson Space Center (JSC), the Chief Knowledge Officer has been developing the JSC Taxonomy to capitalize on the accomplishments of yesterday while maintaining the flexibility needed for the evolving information environment of today. A clear vision and scope for the semantic system is integral to its success. The vision for the JSC Taxonomy is to connect information stovepipes to present a unified view for information and knowledge across the Center, across organizations, and across decades. Semantic search at JSC means seemless integration of disparate information sets into a single interface. Ever increasing use, interest, and organizational participation mark successful integration and provide the framework for future application.

  16. The cognitive context of examinations in psychiatry using Bloom's taxonomy.

    Science.gov (United States)

    Miller, D A; Sadler, J Z; Mohl, P C; Melchiode, G A

    1991-11-01

    Psychiatric practice involves complex thinking patterns. In addition to commanding a huge number of facts, the student must learn to manipulate factual knowledge to solve diagnostic problems, develop treatment plans, and critically evaluate those plans. This study demonstrates an empirical method for evaluating the level of cognitive processes tested in multiple choice examinations. Use of Bloom's taxonomy in evaluating test items demonstrated the majority of test items on a psychiatry clerkship examination and a resident in-training examination fell into the most basic cognitive level, that of simple recall. The utility of Bloom's taxonomy is discussed along with implications for medical education.

  17. Current status of the genetics and molecular taxonomy of Echinococcus species.

    Science.gov (United States)

    McManus, D P

    2013-11-01

    The taxonomy of Echinococcus has long been controversial. Based mainly on differences in morphology and host-parasite specificity characteristics, 16 species and 13 subspecies were originally described. Subsequently, most of these taxa were regarded as synonyms for Echinococcus granulosus and only 4 valid species were recognised: E. granulosus; E. multilocularis; E. oligarthrus and E. vogeli. But, over the past 50 years, laboratory and field observations have revealed considerable phenotypic variability between isolates of Echinococcus, particularly those of E. granulosus, which include differences in: morphology in both larval and adult stages, development in vitro and in vivo, host infectivity and specificity, chemical composition, metabolism, proteins and enzymes, pathogenicity and antigenicity. The application of molecular tools has revealed differences in nucleic acid sequences that reflect this phenotypic variation and the genetic and phenotypic characteristics complement the previous observations made by the descriptive parasitologists many years ago. The fact that some of these variants or strains are poorly or not infective to humans has resulted in a reappraisal of the public health significance of Echinococcus in areas where such variants occur. A revised taxonomy for species in the Echinococcus genus has been proposed that is generally accepted, and is based on the new molecular data and the biological and epidemiological characteristics of host-adapted species and strains.

  18. Modern Grid Initiative Distribution Taxonomy Final Report

    Energy Technology Data Exchange (ETDEWEB)

    Schneider, Kevin P.; Chen, Yousu; Chassin, David P.; Pratt, Robert G.; Engel, David W.; Thompson, Sandra E.

    2008-11-01

    This is the final report for the development of a toxonomy of prototypical electrical distribution feeders. Two of the primary goals of the Department of Energy's (DOE) Modern Grid Initiative (MGI) are 'to accelerate the modernization of our nation's electricity grid' and to 'support demonstrations of systems of key technologies that can serve as the foundation for an integrated, modern power grid'. A key component to the realization of these goals is the effective implementation of new, as well as existing, 'smart grid technologies'. Possibly the largest barrier that has been identified in the deployment of smart grid technologies is the inability to evaluate how their deployment will affect the electricity infrastructure, both locally and on a regional scale. The inability to evaluate the impacts of these technologies is primarily due to the lack of detailed electrical distribution feeder information. While detailed distribution feeder information does reside with the various distribution utilities, there is no central repository of information that can be openly accessed. The role of Pacific Northwest National Laboratory (PNNL) in the MGI for FY08 was to collect distribution feeder models, in the SynerGEE{reg_sign} format, from electric utilities around the nation so that they could be analyzed to identify regional differences in feeder design and operation. Based on this analysis PNNL developed a taxonomy of 24 prototypical feeder models in the GridLAB-D simulations environment that contain the fundamental characteristics of non-urban core, radial distribution feeders from the various regions of the U.S. Weighting factors for these feeders are also presented so that they can be used to generate a representative sample for various regions within the United States. The final product presented in this report is a toolset that enables the evaluation of new smart grid technologies, with the ability to aggregate their effects

  19. A Taxonomy of Difficulties in Career Decision Making.

    Science.gov (United States)

    Gati, Itamar; And Others

    1996-01-01

    Examines a taxonomy of career decision-making difficulties. A questionnaire was administered to 563 young adults at the beginning of their career decision-making process. The relations among the 10 scales, which represent 10 theoretical categories of difficulties, and those among the items within 2 selected categories, were similar in the 2…

  20. Applying a Knowledge Management Taxonomy to Secondary Schools

    Science.gov (United States)

    Thambi, Melinda; O'Toole, Paddy

    2012-01-01

    The purpose of this article is to examine the relevance of a corporate-based taxonomy of knowledge management to secondary schooling. Do the principles of knowledge management from the corporate world translate to the world of education; specifically, secondary schooling? This article examines categories of knowledge management articulated in…

  1. Improving Access to and Understanding of Regulations through Taxonomies

    Science.gov (United States)

    Cheng, Chin Pang; Lau. Gloria T.; Law, Kincho H.; Pan, Jiayi; Jones, Albert

    2009-01-01

    Industrial taxonomies have the potential to automate information retrieval, facilitate interoperability and, most importantly, improve decision making - decisions that must comply with existing government regulations and codes of practice. However, it is difficult to find those regulations and codes most relevant to a particular decision, even…

  2. Taxonomies of Educational Objectives and Theories of Classification.

    Science.gov (United States)

    Travers, Robert M. W.

    1980-01-01

    Classification is the taxonomic science in which a system of categories is established and in which the categories have some logical structure. Scientific classifications have included those by Aristotle, Linnaeus, and Lavoisier. Educational taxonomies include those developed by Bloom, Herbart, Dewey, and Piaget. The problems of taxonomy…

  3. Developing Learning Objectives for Accounting Ethics Using Bloom's Taxonomy

    Science.gov (United States)

    Kidwell, Linda A.; Fisher, Dann G.; Braun, Robert L.; Swanson, Diane L.

    2013-01-01

    The purpose of our article is to offer a set of core knowledge learning objectives for accounting ethics education. Using Bloom's taxonomy of educational objectives, we develop learning objectives in six content areas: codes of ethical conduct, corporate governance, the accounting profession, moral development, classical ethics theories, and…

  4. An Empirical Foundation for a Taxonomy of Humor.

    Science.gov (United States)

    Froman, Richard L., Jr.

    The reliability of a taxonomy of humor was tested in two studies. The first study involved rater identification of nine categories for humorous incidents excerpted from television comedy programs (wordplay, exaggeration/understatement, contrast, audience knowledge, aggression, emotion, taboo, pratfall/slapstick, and repetition). The second study,…

  5. From Genome Sequence to Taxonomy - A Skeptic’s View

    DEFF Research Database (Denmark)

    Özen, Asli Ismihan; Vesth, Tammi Camilla; Ussery, David

    2012-01-01

    many commonly used methods and also describes potential pitfalls if used inappropriately, as well as which questions are best addressed by particular methods. After a brief introduction to the classical methods of taxonomy, a description of the bacterial genomes currently available is given...

  6. A Taxonomy of Human-Agent Team Collaborations

    NARCIS (Netherlands)

    Neef, R.M.

    2006-01-01

    Future command teams will be heavily supported by artificial actors. This paper introduces a taxonomy of collaboration types in human – agent teams. Using two classifying dimensions, coordination type and collaboration type, eight different classes of human – agent collaborations transpire. These cl

  7. Taxonomy of Lecture Note-Taking Skills and Subskills

    Science.gov (United States)

    Al-Musalli, Alaa M.

    2015-01-01

    Note taking (NT) in lectures is as active a skill as listening, which stimulates it, and as challenging as writing, which is the end product. Literature on lecture NT misses an integration of the processes involved in listening with those in NT. In this article, a taxonomy is proposed of lecture NT skills and subskills based on a similar list…

  8. Taxonomies of situations from a trait psychological perspective. A review

    NARCIS (Netherlands)

    Ten Berge, MA; De Raad, B

    1999-01-01

    In this article we review studies of situations and situation taxonomies from the perspective of trait psychology. Objections to trait psychology are discussed and several refutations are recapitulated The relation between traits and situations is analysed, as well as the affinity that both concepts

  9. Norms for environmentally responsible behaviour: An extended taxonomy

    DEFF Research Database (Denmark)

    Thøgersen, John

    2006-01-01

    and shopping. Also the frequency of the four behaviours was measured. The revised taxonomy has content, discriminant, predictive, and nomological validity and satisfactory test-retest reliability. The most internalized of the new norm constructs, integrated norms, is most strongly correlated with conventional...

  10. Pollen morphology of the Euphorbiaceae with special reference to taxonomy

    NARCIS (Netherlands)

    Punt, W.

    1962-01-01

    In the present study pollen morphology of the Euphorbeaceae is treated as an additional character in taxonomy. Besides the greater part of the genera occurring in the system of PAX and K. HOFFMANN (1931), most of the genera published after 1931 are studied. The pollen grains have been described with

  11. Learning Assessment in Tertiary Business Education with Revised Taxonomy

    Science.gov (United States)

    Hossain, Md. Shajjad

    2017-01-01

    The goal of this study was to evaluate the assessment criteria of learning in tertiary education of Bangladesh. The study was aimed at identifying percentage of questions during learning assessment of business graduates following cognitive levels of Bloom's in revised Taxonomy and to test whether there was any significant difference in the…

  12. Taxonomy of the Ropalidia flavopicta-complex (Hymenoptera: Vespidae: Polistinae)

    NARCIS (Netherlands)

    Kojima, J.

    1996-01-01

    The taxonomy of the "species" treated as subspecies of Ropalidia flavopicta (= R. flavopicta-complex) by van der Vecht (1962) were reexamined. Four forms in the complex other than the species in the Philippine Islands are concluded to be valid species: R. flavopicta (Smith), R. javanica van der Vech

  13. A Taxonomy of Virtual Worlds Usage in Education

    Science.gov (United States)

    Duncan, Ishbel; Miller, Alan; Jiang, Shangyi

    2012-01-01

    Virtual worlds are an important tool in modern education practices as well as providing socialisation, entertainment and a laboratory for collaborative work. This paper focuses on the uses of virtual worlds for education and synthesises over 100 published academic papers, reports and educational websites from around the world. A taxonomy is then…

  14. The construction of a joint taxonomy of traits and situations

    NARCIS (Netherlands)

    van den Berge, Maarten; De Raad, B.

    2001-01-01

    This study implements the first steps to be taken in the Construction of a taxonomy of situations front a trait psychological perspective. Taking the AB(5)C model of personality characteristics (De Raad et al., 1992) as a point of departure, a collection of situations that is linked to the personali

  15. Development of a Taxonomy of Keywords for Engineering Education Research

    Science.gov (United States)

    Finelli, Cynthia J.; Borrego, Maura; Rasoulifar, Golnoosh

    2016-01-01

    The diversity of engineering education research provides an opportunity for cross-fertilisation of ideas and creativity, but it also can result in fragmentation of the field and duplication of effort. One solution is to establish a standardised taxonomy of engineering education terms to map the field and communicate and connect research…

  16. Applying a Knowledge Management Taxonomy to Secondary Schools

    Science.gov (United States)

    Thambi, Melinda; O'Toole, Paddy

    2012-01-01

    The purpose of this article is to examine the relevance of a corporate-based taxonomy of knowledge management to secondary schooling. Do the principles of knowledge management from the corporate world translate to the world of education; specifically, secondary schooling? This article examines categories of knowledge management articulated in…

  17. Some misapplied nomina nova in reef coral taxonomy (Scleractinia)

    NARCIS (Netherlands)

    Hoeksema, B.W.

    1993-01-01

    Nomina nova should be used only to denote replacement names for preoccupied names, i.e. in the case of homonymy. Three examples of incorrect applications of nomina nova in scleractinian taxonomy are given. Coincidentally, in the cases discussed each wrongly proposed nomen novum concerns a new specie

  18. An alternative to soil taxonomy for describing key soil characteristics

    Science.gov (United States)

    Duniway, Michael C.; Miller, Mark E.; Brown, Joel R.; Toevs, Gordon

    2013-01-01

    We are pleased to see the letter by Schimel and Chadwick (Front Ecol Environ 2013; 11[8]: 405–06), highlighting the importance of soil characterization in ecological and biogeochemical research and explaining the value of soil taxonomy, and we agree with the authors that reporting soil

  19. Taxonomy of Lecture Note-Taking Skills and Subskills

    Science.gov (United States)

    Al-Musalli, Alaa M.

    2015-01-01

    Note taking (NT) in lectures is as active a skill as listening, which stimulates it, and as challenging as writing, which is the end product. Literature on lecture NT misses an integration of the processes involved in listening with those in NT. In this article, a taxonomy is proposed of lecture NT skills and subskills based on a similar list…

  20. Fail Better: Toward a Taxonomy of E-Learning Error

    Science.gov (United States)

    Priem, Jason

    2010-01-01

    The study of student error, important across many fields of educational research, has begun to attract interest in the field of e-learning, particularly in relation to usability. However, it remains unclear when errors should be avoided (as usability failures) or embraced (as learning opportunities). Many domains have benefited from taxonomies of…

  1. Merlin C. Wittrock and the Revision of Bloom's Taxonomy

    Science.gov (United States)

    Krathwohl, David R.; Anderson, Lorin W.

    2010-01-01

    Merl Wittrock, a cognitive psychologist who had proposed a generative model of learning, was an essential member of the group that over a period of 5 years revised the "Taxonomy of Educational Objectives," originally published in 1956. This article describes the development of that 2001 revision (Anderson and Krathwohl, Editors) and Merl's…

  2. Computer-assisted tree taxonomy by automated image recognition

    NARCIS (Netherlands)

    Pauwels, E.J.; Zeeuw, P.M.de; Ranguelova, E.B.

    2009-01-01

    We present an algorithm that performs image-based queries within the domain of tree taxonomy. As such, it serves as an example relevant to many other potential applications within the field of biodiversity and photo-identification. Unsupervised matching results are produced through a chain of comput

  3. Taxonomies, Folksonomies, and Semantics: Establishing Functional Meaning in Navigational Structures

    Science.gov (United States)

    Bacha, Jeffrey A.

    2012-01-01

    This article argues for the establishment of a usability process that incorporates the study of "words" and "word phrases." It demonstrates how semantically mapping a navigational taxonomy can help the developers of digital environments establish a more focused sense of functional meaning for the users of their digital designs.

  4. Expanding the taxonomy of the diagnostic criteria for temporomandibular disorders

    DEFF Research Database (Denmark)

    Peck, C C; Goulet, J-P; Lobbezoo, F

    2014-01-01

    criteria and the ability to operationalise and study the criteria. The disorders were derived from the literature when possible and based on expert opinion as necessary. The expanded TMDs taxonomy was presented for feedback at international meetings. Of 56 disorders considered, 37 were included...

  5. Modern taxonomy of biotechnologically important Aspergillus and Penicillium species

    NARCIS (Netherlands)

    Houbraken, Jos; de Vries, Ronald P; Samson, Robert A

    2014-01-01

    Taxonomy is a dynamic discipline and name changes of fungi with biotechnological, industrial, or medical importance are often difficult to understand for researchers in the applied field. Species belonging to the genera Aspergillus and Penicillium are commonly used or isolated, and inadequate taxono

  6. Use of Bloom's Taxonomy in Developing Reading Comprehension Specifications

    Science.gov (United States)

    Luebke, Stephen; Lorie, James

    2013-01-01

    This article is a brief account of the use of Bloom's Taxonomy of Educational Objectives (Bloom, Engelhart, Furst, Hill, & Krathwohl, 1956) by staff of the Law School Admission Council in the 1990 development of redesigned specifications for the Reading Comprehension section of the Law School Admission Test. Summary item statistics for the…

  7. The Use of the Taxonomy of Educational Objectives in Turkey.

    Science.gov (United States)

    Oczelik, Durmus Ali; And Others

    1993-01-01

    Use of Bloom's Taxonomy of Educational Objectives (TEO) (B. S. Bloom, 1956) in Turkey is reviewed, highlighting curriculum development, teaching and teacher education, and measurement and evaluation of learning. Developments in TEO use in the United States are followed in Turkey with a gap of 5 to 10 years. (SLD)

  8. Developing Learning Objectives for Accounting Ethics Using Bloom's Taxonomy

    Science.gov (United States)

    Kidwell, Linda A.; Fisher, Dann G.; Braun, Robert L.; Swanson, Diane L.

    2013-01-01

    The purpose of our article is to offer a set of core knowledge learning objectives for accounting ethics education. Using Bloom's taxonomy of educational objectives, we develop learning objectives in six content areas: codes of ethical conduct, corporate governance, the accounting profession, moral development, classical ethics theories, and…

  9. The Unfortunate Consequences of Bloom's Taxonomy

    Science.gov (United States)

    Case, Roland

    2013-01-01

    The sequenced levels of thinking articulated in Bloom's original taxonomy (or in the multitude of subsequent variations) is the most widely known list in education. In addition to enduring popularity, it is arguably one of the most destructive theories in education. In this article, the author explains what makes it so damaging and how…

  10. Was Bloom's Taxonomy Pointed in the Wrong Direction?

    Science.gov (United States)

    Wineburg, Sam; Schneider, Jack

    2010-01-01

    Bloom's Taxonomy usually is depicted as a pyramid with knowledge at the lowest level and evaluation at the top. For the history classroom, however, that arrangement might be upside down. In history, evaluation is often necessary before new knowledge can be learned. (Contains 1 figure.)

  11. Using Bloom's Taxonomy to Teach Students about Plagiarism

    Science.gov (United States)

    Vosen, Melissa A.

    2008-01-01

    Melissa A. Vosen outlines a unit she has designed to help students comprehend the often unclear boundaries and issues surrounding plagiarism. Using Bloom's taxonomy of the cognitive domain, students complete increasingly complex tasks, learning to construct a works cited page and assess scholarly opinions. They also research the consequences of…

  12. Conception of Learning Outcomes in the Bloom's Taxonomy Affective Domain

    Science.gov (United States)

    Savickiene, Izabela

    2010-01-01

    The article raises a problematic issue regarding an insufficient base of the conception of learning outcomes in the Bloom's taxonomy affective domain. The search for solutions introduces the conception of teaching and learning in the affective domain as well as presents validity criteria of learning outcomes in the affective domain. The…

  13. A philosophical taxonomy of ethically significant moral distress.

    Science.gov (United States)

    Thomas, Tessy A; McCullough, Laurence B

    2015-02-01

    Moral distress is one of the core topics of clinical ethics. Although there is a large and growing empirical literature on the psychological aspects of moral distress, scholars, and empirical investigators of moral distress have recently called for greater conceptual clarity. To meet this recognized need, we provide a philosophical taxonomy of the categories of what we call ethically significant moral distress: the judgment that one is not able, to differing degrees, to act on one's moral knowledge about what one ought to do. We begin by unpacking the philosophical components of Andrew Jameton's original formulation from his landmark 1984 work and identify two key respects in which that formulation remains unclear: the origins of moral knowledge and impediments to acting on that moral knowledge. We then selectively review subsequent literature that shows that there is more than one concept of moral distress and that explores the origin of the values implicated in moral distress and impediments to acting on those values. This review sets the stage for identifying the elements of a philosophical taxonomy of ethically significant moral distress. The taxonomy uses these elements to create six categories of ethically significant moral distress: challenges to, threats to, and violations of professional integrity; and challenges to, threats to, and violations of individual integrity. We close with suggestions about how the proposed philosophical taxonomy of ethically significant moral distress sheds light on the concepts of moral residue and crescendo effect of moral distress and how the proposed taxonomy might usefully guide prevention of and future qualitative and quantitative empirical research on ethically significant moral distress. © The Author 2014. Published by Oxford University Press, on behalf of the Journal of Medicine and Philosophy Inc. All rights reserved. For permissions, please e-mail: journals.permissions@oup.com.

  14. When taxonomy meets genomics: lessons from a common songbird.

    Science.gov (United States)

    Lifjeld, Jan T

    2015-06-01

    Taxonomy is being increasingly informed by genomics. Traditionally, taxonomy has relied extensively on phenotypic traits for the identification and delimitation of species, though with a growing influence from molecular phylogenetics in recent decades. Now, genomics opens up new and more powerful tools for analysing the evolutionary history and relatedness among species, as well as understanding the genetic basis for phenotypic traits and their role in reproductive isolation. New insights gained from genomics will therefore have major effects on taxonomic classifications and species delimitation. How a genomics approach can inform a flawed taxonomy is nicely exemplified by Mason & Taylor () in this issue of Molecular Ecology. They studied redpolls, which comprise a genus (Acanthis) of fringillid finches with a wide distribution in the Holarctic region, and whose species taxonomy has been a matter of much controversy for decades (Fig. ). Current authoritative checklists classify them into one, two or three species, and five or six subspecies, based largely on geographical differences in phenotypic traits. Previous studies, including a recent one of the subspecies on Iceland (Amouret et al. ), have found no evidence of differentiation between these taxa in conventional molecular markers. The lack of genetic structure has been interpreted as incomplete lineage sorting among rapidly evolving lineages. Now Mason & Taylor (), using a large data set of genomewide SNPs, verify that they all belong to a single gene pool with a common evolutionary history, and with little or no geographical structuring. They also show that phenotypic traits used in taxonomic classifications (plumage and bill morphology) are closely associated with polygenic patterns of gene expression, presumably driven by ecological selection on a few regulatory genes. Several lessons can be learned from this study. Perhaps the most important one for taxonomy is the risk of taxonomic inflation resulting

  15. Contribution of molecular cladistics to the taxonomy of Rutaceae in China

    Institute of Scientific and Technical Information of China (English)

    Paul Pui-Hay BUT; Alice Wing-Sem POON; Pang-Chui SHAW; Mark P. SIMMONS; Harald GREGER

    2009-01-01

    The treatment of Rutaceae in the Chinese flora chose to follow Engler in recognizing Rutoideae and Toddalioideae as two separate subfamilies. Morphological and chemical comparisons, however, suggested group-ing those two subfamilies in one subfamily, Rutoideae. This move has received support from molecular phyloge-netic analyses, which also showed that the Chinese taxa in Euodia should be placed in Tetradium and Melicope following Hartley. Investigations into the chemistry and molecular phylogeny of Murraya also indicated that the species in the section Bergera without yuehchukene should be removed from Murraya. These findings clearly show the value of molecular cladistics to the taxonomy of Rutaceae in China and also directions for further inves-tigations.

  16. A Taxonomy of Representation Strategies in Iconic Communication.

    Science.gov (United States)

    Nakamura, Carlos; Zeng-Treitler, Qing

    2012-08-01

    Predicting whether the intended audience will be able to recognize the meaning of an icon or pictograph is not an easy task. Many icon recognition studies have been conducted in the past. However, their findings cannot be generalized to other icons that were not included in the study, which, we argue, is their main limitation. In this paper, we propose a comprehensive taxonomy of icons that is intended to enable the generalization of the findings of recognition studies. To accomplish this, we analyzed a sample of more than eight hundred icons according to three axes: lexical category, semantic category, and representation strategy. Three basic representation strategies were identified: visual similarity; semantic association; and arbitrary convention. These representation strategies are in agreement with the strategies identified in previous taxonomies. However, a greater number of subcategories of these strategies were identified. Our results also indicate that the lexical and semantic attributes of a concept influence the choice of representation strategy.

  17. Taxonomy development and knowledge representation of nurses' personal cognitive artifacts.

    Science.gov (United States)

    McLane, Sharon; Turley, James P

    2009-11-14

    Nurses prepare knowledge representations, or summaries of patient clinical data, each shift. These knowledge representations serve multiple purposes, including support of working memory, workload organization and prioritization, critical thinking, and reflection. This summary is integral to internal knowledge representations, working memory, and decision-making. Study of this nurse knowledge representation resulted in development of a taxonomy of knowledge representations necessary to nursing practice.This paper describes the methods used to elicit the knowledge representations and structures necessary for the work of clinical nurses, described the development of a taxonomy of this knowledge representation, and discusses translation of this methodology to the cognitive artifacts of other disciplines. Understanding the development and purpose of practitioner's knowledge representations provides important direction to informaticists seeking to create information technology alternatives. The outcome of this paper is to suggest a process template for transition of cognitive artifacts to an information system.

  18. Local distance functions: a taxonomy, new algorithms, and an evaluation.

    Science.gov (United States)

    Ramanan, Deva; Baker, Simon

    2011-04-01

    We present a taxonomy for local distance functions where most existing algorithms can be regarded as approximations of the geodesic distance defined by a metric tensor. We categorize existing algorithms by how, where, and when they estimate the metric tensor. We also extend the taxonomy along each axis. How: We introduce hybrid algorithms that use a combination of techniques to ameliorate overfitting. Where: We present an exact polynomial-time algorithm to integrate the metric tensor along the lines between the test and training points under the assumption that the metric tensor is piecewise constant. When: We propose an interpolation algorithm where the metric tensor is sampled at a number of references points during the offline phase. The reference points are then interpolated during the online classification phase. We also present a comprehensive evaluation on tasks in face recognition, object recognition, and digit recognition.

  19. Capturing the Meaning of Internet Search Queries by Taxonomy Mapping

    Science.gov (United States)

    Tikk, Domonkos; Kardkovács, Zsolt T.; Bánsághi, Zoltán

    Capturing the meaning of internet search queries can significantly improve the effectiveness of search retrieval. Users often have problem to find relevant answer to their queries, particularly, when the posted query is ambiguous. The orientation of the user can be greatly facilitated, if answers are grouped into topics of a fixed subject taxonomy. In this manner, the original problem can be transformed to the labelling of queries — and consequently, the answers — with the topic names. Thus the original problem is transformed into a classification set-up. This paper introduces our Ferrety algorithm that performs topic assignment, which also works when there is no directly available training data that describes the semantics of the subject taxonomy. The approach is presented via the example of ACM KDD Cup 2005 problem, where Ferrety was awarded for precision and creativity.

  20. Multiplex versus multiple taxonomy of paraphilia: case example.

    Science.gov (United States)

    Lehne, Gregory K; Money, John

    2003-01-01

    Several different paraphilias are presently diagnosed in some individuals whereas a more parsimonious taxonomy would be that of one multiplex paraphilia. A multiplex paraphilia may be expressed by variations of content at different times in an individual's life or in different situations. The present case example shows the unfolding of a multiplex paraphilia over a lifetime. At age 7 the subject was dressed in public as a girl wearing a diaper as a humiliation for bed-wetting. This experience had 3 paraphilic components that were separately manifested at different times in his life: fetishistic transvestism, pedophilic incest, and infantilism. A multiplex paraphilia taxonomy may lead to improved identification of etiology, prognosis, and treatment of paraphilia.

  1. NASA Taxonomies for Searching Problem Reports and FMEAs

    Science.gov (United States)

    Malin, Jane T.; Throop, David R.

    2006-01-01

    Many types of hazard and risk analyses are used during the life cycle of complex systems, including Failure Modes and Effects Analysis (FMEA), Hazard Analysis, Fault Tree and Event Tree Analysis, Probabilistic Risk Assessment, Reliability Analysis and analysis of Problem Reporting and Corrective Action (PRACA) databases. The success of these methods depends on the availability of input data and the analysts knowledge. Standard nomenclature can increase the reusability of hazard, risk and problem data. When nomenclature in the source texts is not standard, taxonomies with mapping words (sets of rough synonyms) can be combined with semantic search to identify items and tag them with metadata based on a rich standard nomenclature. Semantic search uses word meanings in the context of parsed phrases to find matches. The NASA taxonomies provide the word meanings. Spacecraft taxonomies and ontologies (generalization hierarchies with attributes and relationships, based on terms meanings) are being developed for types of subsystems, functions, entities, hazards and failures. The ontologies are broad and general, covering hardware, software and human systems. Semantic search of Space Station texts was used to validate and extend the taxonomies. The taxonomies have also been used to extract system connectivity (interaction) models and functions from requirements text. Now the Reconciler semantic search tool and the taxonomies are being applied to improve search in the Space Shuttle PRACA database, to discover recurring patterns of failure. Usual methods of string search and keyword search fall short because the entries are terse and have numerous shortcuts (irregular abbreviations, nonstandard acronyms, cryptic codes) and modifier words cannot be used in sentence context to refine the search. The limited and fixed FMEA categories associated with the entries do not make the fine distinctions needed in the search. The approach assigns PRACA report titles to problem classes in

  2. Current taxonomy of phages infecting lactic acid bacteria

    Directory of Open Access Journals (Sweden)

    Jennifer eMahony

    2014-01-01

    Full Text Available Phages infecting lactic acid bacteria have been the focus of significant research attention over the past three decades. Through the isolation and characterization of hundreds of phage isolates, it has been possible to classify phages of the dairy starter and adjunct bacteria Lactococus lactis, Streptococcus thermophilus, Leuconostoc spp. and Lactobacillus spp. Among these, phages of L. lactis have been most thoroughly scrutinized and serve as an excellent model system to address issues that arise when attempting taxonomic classification of phages infecting other LAB species. Here, we present an overview of the current taxonomy of phages infecting LAB genera of industrial significance, the methods employed in these taxonomic efforts and how these may be employed for the taxonomy of phages of currently underrepresented and emerging phage species.

  3. Web analytics as tool for improvement of website taxonomies

    DEFF Research Database (Denmark)

    Jonasen, Tanja Svarre; Ådland, Marit Kristine; Lykke, Marianne

    The poster examines how web analytics can be used to provide information about users and inform design and redesign of taxonomies. It uses a case study of the website Cancer.dk by the Danish Cancer Society. The society is a private organization with an overall goal to prevent the development...... of cancer, improve patients’ chances of recovery, and limit the physical, psychological and social side-effects of cancer. The website is the main channel for communication and knowledge sharing with patients, their relatives and professionals. The present study consists of two independent analyses, one...... provides information about e.g. subjects of interest, searching behaviour, browsing patterns in website structure as well as tag clouds, page views. The poster discusses benefits and challenges of the two web metrics, with a model of how to use search and tag data for the design of taxonomies, e.g. choice...

  4. Urban versus conventional agriculture, taxonomy of resource profiles: a review

    DEFF Research Database (Denmark)

    Goldstein, Benjamin Paul; Hauschild, Michael Zwicky; Fernandez, John;

    2016-01-01

    Urban agriculture appears to be a means to combat the environmental pressure of increasing urbanization and food demand. However, there is hitherto limited knowledge of the efficiency and scaling up of practices of urban farming. Here, we review the claims on urban agriculture’s comparative...... footprint reduction require further exploration. (3) Urban agriculture benefits to both food supply chains and urban ecosystems vary considerably with system type. To facilitate the comparison of urban agriculture systems we propose a classification based on (1) conditioning of the growing space and (2......) the level of integration with buildings. Lastly, we compare the predicted environmental performance of the four main types of urban agriculture that arise through the application of the taxonomy. The findings show how taxonomy can aid future research on the intersection of urban food production...

  5. Web analytics as tool for improvement of website taxonomies

    DEFF Research Database (Denmark)

    Jonasen, Tanja Svarre; Ådland, Marit Kristine; Lykke, Marianne

    using Google analytics focusing on searching and browsing activities, another using a home-grown transaction log developed to collect data about tagging, searching and browsing by tags. The log is set up to distinguish between tags added by editors and end-users respectively. Altogether, the study......The poster examines how web analytics can be used to provide information about users and inform design and redesign of taxonomies. It uses a case study of the website Cancer.dk by the Danish Cancer Society. The society is a private organization with an overall goal to prevent the development...... provides information about e.g. subjects of interest, searching behaviour, browsing patterns in website structure as well as tag clouds, page views. The poster discusses benefits and challenges of the two web metrics, with a model of how to use search and tag data for the design of taxonomies, e.g. choice...

  6. Numerical taxonomy of maize landraces: comparison between experimental designs

    OpenAIRE

    1989-01-01

    [EN] Seventy three maize (Zea mays L.) landraces from Northwestern Spain were grown according to two different experimental design.The first one (design A) was a randomized complete blocks design with two replications per trial at two locations for two years. The second design (desing B) is simpler than the first one: the populations were grown at one location without replications for three years. Numerical taxonomy of these landraces was made according to results of the field trials u...

  7. Research into the development of a knowledge acquisition taxonomy

    Science.gov (United States)

    Fink, Pamela K.; Herren, L. Tandy

    1991-01-01

    The focus of the research was on the development of a problem solving taxonomy that can support and direct the knowledge engineering process during the development of an intelligent tutoring system. The results of the research are necessarily general. Being only a small initial attempt at a fundamental problem in artificial intelligence and cognitive psychology, the process has had to be bootstrapped and the results can only provide pointers to further, more formal research designs.

  8. Considerations on the taxonomy of the Phylum Tardigrada.

    Science.gov (United States)

    Vicente, Filipe; Bertolani, Roberto

    2013-01-01

    An analysis of the taxonomy of the Tardigrada is offered, based on the latest checklist version. A total of 1167 species from 113 genera were counted, but marine species are misrepresented on account of being understudied. Moreover, many poor descriptions and synonyms remain in this constantly growing list. We advocate more accurate future taxonomic work, aiming for an official list of species that better represents true values of biodiversity.

  9. Botany, Taxonomy and Cytology of Crocus sativus series

    OpenAIRE

    Saxena, R. B.

    2010-01-01

    Saffron is produced from the dried styles of Crocus sativus L. (Iridaceae) which is unknown as wild plant, representing a sterile triploid. These belong to subgenus Crocus series Crocus sativus – series are closely related species; and are difficult to be separated taxonomically and have a complex cytology. Botany of C. sativus – series, taxonomy of their species and their infraspecific taxa are presented, and their distribution, ecology and phenology; full description and chromosome counts a...

  10. Learning Taxonomy for Text Segmentation by Formal Concept Analysis

    CERN Document Server

    Lupea, Mihaiela; Marian, Zsuzsana

    2010-01-01

    In this paper the problems of deriving a taxonomy from a text and concept-oriented text segmentation are approached. Formal Concept Analysis (FCA) method is applied to solve both of these linguistic problems. The proposed segmentation method offers a conceptual view for text segmentation, using a context-driven clustering of sentences. The Concept-oriented Clustering Segmentation algorithm (COCS) is based on k-means linear clustering of the sentences. Experimental results obtained using COCS algorithm are presented.

  11. A Taxonomy of Injuries for Public Health Monitoring and Reporting

    Science.gov (United States)

    2017-07-25

    of Injuries for Public Health Monitoring and Reporting 15 codes are required to make this distinction. Because surveillance data and field...overall burden of care required for these injuries. PHIP No. 12-01-0717, A Taxonomy of Injuries for Public Health Monitoring and Reporting...is no mandatory reporting requirement in the military health system or the civilian sector for providers and coders to use cause codes. Many medical

  12. Ethnoflora a taxonomie rodu Croton L. (Euphorbiaceae)

    OpenAIRE

    Karas, Lukáš

    2014-01-01

    This bachelor thesis focuses on genus Croton, especially C. socotranus, C. sulcifructus and C. sarcocarpus in particular. It describes the historical context of taxonomical approaches, botanical description of the genus Croton, taxonomy of the genus and its system classification. Another topic the work deals with is description of ethnobotanical usage of Croton species. The main goal of this thesis is distinguishing the chosen problematical taxa Croton socotranus and evaluating the degree/lev...

  13. Using Information Content to Evaluate Semantic Similarity in a Taxonomy

    CERN Document Server

    Resnik, P

    1995-01-01

    This paper presents a new measure of semantic similarity in an IS-A taxonomy, based on the notion of information content. Experimental evaluation suggests that the measure performs encouragingly well (a correlation of r = 0.79 with a benchmark set of human similarity judgments, with an upper bound of r = 0.90 for human subjects performing the same task), and significantly better than the traditional edge counting approach (r = 0.66).

  14. A Taxonomy of Workflow Management Systems for Grid Computing

    OpenAIRE

    Yu, Jia; Buyya, Rajkumar

    2005-01-01

    With the advent of Grid and application technologies, scientists and engineers are building more and more complex applications to manage and process large data sets, and execute scientific experiments on distributed resources. Such application scenarios require means for composing and executing complex workflows. Therefore, many efforts have been made towards the development of workflow management systems for Grid computing. In this paper, we propose a taxonomy that characterizes and classifi...

  15. Science education II: Scientific literacy and the Karplus taxonomy

    Science.gov (United States)

    Pollak, Victor L.

    1994-06-01

    In this essay we explore the role played by the conceptual structure of science in scientific literacy. It is shown that the taxonomy of scientific concepts elucidated by Karplus is a basic structural characteristic of science, and provides a natural means for engaging, as distinct from merely "learning," scientific content. Special attention is given to the idea "scientific model" as being fundamental to the discipline and therefore essential to scientific literacy. The relationship between scientific models and common misconceptions is developed.

  16. A hierarchical causal taxonomy of psychopathology across the life span.

    Science.gov (United States)

    Lahey, Benjamin B; Krueger, Robert F; Rathouz, Paul J; Waldman, Irwin D; Zald, David H

    2017-02-01

    We propose a taxonomy of psychopathology based on patterns of shared causal influences identified in a review of multivariate behavior genetic studies that distinguish genetic and environmental influences that are either common to multiple dimensions of psychopathology or unique to each dimension. At the phenotypic level, first-order dimensions are defined by correlations among symptoms; correlations among first-order dimensions similarly define higher-order domains (e.g., internalizing or externalizing psychopathology). We hypothesize that the robust phenotypic correlations among first-order dimensions reflect a hierarchy of increasingly specific etiologic influences. Some nonspecific etiologic factors increase risk for all first-order dimensions of psychopathology to varying degrees through a general factor of psychopathology. Other nonspecific etiologic factors increase risk only for all first-order dimensions within a more specific higher-order domain. Furthermore, each first-order dimension has its own unique causal influences. Genetic and environmental influences common to family members tend to be nonspecific, whereas environmental influences unique to each individual are more dimension-specific. We posit that these causal influences on psychopathology are moderated by sex and developmental processes. This causal taxonomy also provides a novel framework for understanding the heterogeneity of each first-order dimension: Different persons exhibiting similar symptoms may be influenced by different combinations of etiologic influences from each of the 3 levels of the etiologic hierarchy. Furthermore, we relate the proposed causal taxonomy to transdimensional psychobiological processes, which also impact the heterogeneity of each psychopathology dimension. This causal taxonomy implies the need for changes in strategies for studying the etiology, psychobiology, prevention, and treatment of psychopathology. (PsycINFO Database Record

  17. A taxonomy of dignity: a grounded theory study

    Directory of Open Access Journals (Sweden)

    Jacobson Nora

    2009-02-01

    Full Text Available Abstract Background This paper has its origins in Jonathan Mann's insight that the experience of dignity may explain the reciprocal relationships between health and human rights. It follows his call for a taxonomy of dignity: "a coherent vocabulary and framework to characterize dignity." Methods Grounded theory procedures were use to analyze literature pertaining to dignity and to conduct and analyze 64 semi-structured interviews with persons marginalized by their health or social status, individuals who provide health or social services to these populations, and people working in the field of health and human rights. Results The taxonomy presented identifies two main forms of dignity–human dignity and social dignity–and describes several elements of these forms, including the social processes that violate or promote them, the conditions under which such violations and promotions occur, the objects of violation and promotion, and the consequences of dignity violation. Together, these forms and elements point to a theory of dignity as a quality of individuals and collectives that is constituted through interaction and interpretation and structured by conditions pertaining to actors, relationships, settings, and the broader social order. Conclusion The taxonomy has several implications for work in health and human rights. It suggests a map to possible points of intervention and provides a language in which to talk about dignity.

  18. Eliciting the Functional Taxonomy from protein annotations and taxa.

    Science.gov (United States)

    Falda, Marco; Lavezzo, Enrico; Fontana, Paolo; Bianco, Luca; Berselli, Michele; Formentin, Elide; Toppo, Stefano

    2016-08-18

    The advances of omics technologies have triggered the production of an enormous volume of data coming from thousands of species. Meanwhile, joint international efforts like the Gene Ontology (GO) consortium have worked to provide functional information for a vast amount of proteins. With these data available, we have developed FunTaxIS, a tool that is the first attempt to infer functional taxonomy (i.e. how functions are distributed over taxa) combining functional and taxonomic information. FunTaxIS is able to define a taxon specific functional space by exploiting annotation frequencies in order to establish if a function can or cannot be used to annotate a certain species. The tool generates constraints between GO terms and taxa and then propagates these relations over the taxonomic tree and the GO graph. Since these constraints nearly cover the whole taxonomy, it is possible to obtain the mapping of a function over the taxonomy. FunTaxIS can be used to make functional comparative analyses among taxa, to detect improper associations between taxa and functions, and to discover how functional knowledge is either distributed or missing. A benchmark test set based on six different model species has been devised to get useful insights on the generated taxonomic rules.

  19. A Taxonomy of Vision Systems for Ground Mobile Robots

    Directory of Open Access Journals (Sweden)

    Jesus Martínez-Gómez

    2014-07-01

    Full Text Available This paper introduces a taxonomy of vision systems for ground mobile robots. In the last five years, a significant number of relevant papers have contributed to this subject. Firstly, a thorough review of the papers is proposed to discuss and classify both past and the most current approaches in the field. As a result, a global picture of the state of the art of the last five years is obtained. Moreover, the study of the articles is used to put forward a comprehensive taxonomy based on the most up-to-date research in ground mobile robotics. In this sense, the paper aims at being especially helpful to both budding and experienced researchers in the areas of vision systems and mobile ground robots. The taxonomy described is devised from a novel perspective, namely in order to respond to the main questions posed when designing robotic vision systems: why?, what for?, what with?, how?, and where? The answers are derived from the most relevant techniques described in the recent literature, leading in a natural way to a series of classifications that are discussed and contextualized. The article offers a global picture of the state of the art in the area and discovers some promising research lines.

  20. Taxonomy and conservation of Vietnam's primates: a review.

    Science.gov (United States)

    Blair, Mary E; Sterling, Eleanor J; Hurley, Martha M

    2011-11-01

    Vietnam has the highest number of primate taxa overall (24-27) and the highest number of globally threatened primate taxa (minimum 20) in Mainland Southeast Asia. Conservation management of these species depends in part on resolving taxonomic uncertainties, which remain numerous among the Asian primates. Recent research on genetic, morphological, and acoustic diversity in Vietnam's primates has clarified some of these uncertainties, although a number of significant classification issues still remain. Herein, we summarize and compare the major current taxonomic classifications of Vietnam's primates, discuss recent advances in the context of these taxonomies, and suggest key areas for additional research to best inform conservation efforts in a region crucial to global primate diversity. Among the most important next steps for the conservation of Vietnam's primates is a new consensus list of Asian primates that resolves current differences between major taxonomies, incorporates recent research advances, and recognizes units of diversity at scales below the species-level, whether termed populations, morphs, or subspecies. Priority should be placed on recognizing distinct populations, regardless of the species concept in use, in order to foster the evolutionary processes necessary for primate populations to cope with inevitable environmental changes. The long-term conservation of Vietnam's primates depends not only on an accepted and accurate taxonomy but also on funding for on-the-ground conservation activities, including training, and the continued dedication and leadership of Vietnamese researchers and managers.

  1. TOWARDS A FACETED TAXONOMY TO STRUCTURE WEBGENRE CORPORA

    Directory of Open Access Journals (Sweden)

    Joseba Ezeiza Ramos

    2011-10-01

    Full Text Available The purpose of this paper is to contribute to the analysis of cyberjournalistic documents by proposing a taxonomy to structure web-genre corpora. It takes into account the peculiarities of this field, the new genres, their hybridization and complexness. In this sense, the taxonomy presented in this paper does not match a single theoretical framework, but it tries to gather the guidelines of various works intended to study online journalism and its genres. This theoretical flexibility is needed to set up a proposal good enough to suit the current needs of the area. The paper also describes the main axes of the taxonomy, defines its communication unit and remarks the values and limitations of such a work. Its result is a highly structured and document-oriented database, a tool that will enable users to understand the current trends, to create new hybrids, and to detect the changes that happen within this field that is widening the horizons of the usage of language.

  2. A taxonomy for mechanical ventilation: 10 fundamental maxims.

    Science.gov (United States)

    Chatburn, Robert L; El-Khatib, Mohamad; Mireles-Cabodevila, Eduardo

    2014-11-01

    The American Association for Respiratory Care has declared a benchmark for competency in mechanical ventilation that includes the ability to "apply to practice all ventilation modes currently available on all invasive and noninvasive mechanical ventilators." This level of competency presupposes the ability to identify, classify, compare, and contrast all modes of ventilation. Unfortunately, current educational paradigms do not supply the tools to achieve such goals. To fill this gap, we expand and refine a previously described taxonomy for classifying modes of ventilation and explain how it can be understood in terms of 10 fundamental constructs of ventilator technology: (1) defining a breath, (2) defining an assisted breath, (3) specifying the means of assisting breaths based on control variables specified by the equation of motion, (4) classifying breaths in terms of how inspiration is started and stopped, (5) identifying ventilator-initiated versus patient-initiated start and stop events, (6) defining spontaneous and mandatory breaths, (7) defining breath sequences (8), combining control variables and breath sequences into ventilatory patterns, (9) describing targeting schemes, and (10) constructing a formal taxonomy for modes of ventilation composed of control variable, breath sequence, and targeting schemes. Having established the theoretical basis of the taxonomy, we demonstrate a step-by-step procedure to classify any mode on any mechanical ventilator.

  3. Classification of Ferrallitic Soils in Chinese Soil Taxonomy

    Institute of Scientific and Technical Information of China (English)

    2000-01-01

    The development of the classification of ferrallitic soils in China is reviewed and the classification of Ferralisols and Ferrisols in Chinese Soil Taxonomy is introduced in order to discuss the correlation between the ferrallitic soil classification in the Chinese Soil Taxonomy and those of the other soil classification systems. In the former soil classification systems of China, the ferrallitic soils were classified into the soil groups of Latosols, Latosolic red soils, Red soils, Yellow soils and Dry red soils, according to the combination of soil forming conditions, soil-forming processes, soil features and soil properties. In the Chinese Soil Taxonomy, most of ferrallitic soils are classified into the soil orders of Ferralisols and Ferrisols based on the diagnostic horizons and/or diagnostic characteristics with quantitatively defined properties. Ferralisols are the soils that have ferralic horizon, and they are merely subdivided into one suborder and two soil groups. Ferrisols are the soils that have LAC-ferric horizon but do not have ferralic horizon, and they are subdivided into three suborders and eleven soil groups. Ferralisols may correspond to part of Latosols and Latosolic red soils. Ferrisols may either correspond to part of Red soils, Yellow soils and Dry red soils, or correspond to part of Latosols and Latosolic red soils.

  4. Quality control for terms and definitions in ontologies and taxonomies

    Directory of Open Access Journals (Sweden)

    Rüegg Alexander

    2006-04-01

    Full Text Available Abstract Background Ontologies and taxonomies are among the most important computational resources for molecular biology and bioinformatics. A series of recent papers has shown that the Gene Ontology (GO, the most prominent taxonomic resource in these fields, is marked by flaws of certain characteristic types, which flow from a failure to address basic ontological principles. As yet, no methods have been proposed which would allow ontology curators to pinpoint flawed terms or definitions in ontologies in a systematic way. Results We present computational methods that automatically identify terms and definitions which are defined in a circular or unintelligible way. We further demonstrate the potential of these methods by applying them to isolate a subset of 6001 problematic GO terms. By automatically aligning GO with other ontologies and taxonomies we were able to propose alternative synonyms and definitions for some of these problematic terms. This allows us to demonstrate that these other resources do not contain definitions superior to those supplied by GO. Conclusion Our methods provide reliable indications of the quality of terms and definitions in ontologies and taxonomies. Further, they are well suited to assist ontology curators in drawing their attention to those terms that are ill-defined. We have further shown the limitations of ontology mapping and alignment in assisting ontology curators in rectifying problems, thus pointing to the need for manual curation.

  5. A New Similarity measure for taxonomy based on edge counting

    Directory of Open Access Journals (Sweden)

    Manjula Shenoy.K

    2012-11-01

    Full Text Available This paper introduces a new similarity measure based on edge counting in a taxonomy like WorldNet orOntology. Measurement of similarity between text segments or concepts is very useful for manyapplications like information retrieval, ontology matching, text mining, and question answering and so on.Several measures have been developed for measuring similarity between two concepts: out of these we seethat the measure given by Wu and Palmer [1] is simple, and gives good performance. Our measure isbased on their measure but strengthens it. Wu and Palmer [1] measure has a disadvantage that it does notconsider how far the concepts are semantically. In our measure we include the shortest path between theconcepts and the depth of whole taxonomy together with the distances used in Wu and Palmer [1]. Also themeasure has following disadvantage i.e. in some situations, the similarity of two elements of an IS-Aontology contained in the neighbourhood exceeds the similarity value of two elements contained in thesame hierarchy. Our measure introduces a penalization factor for this case based upon shortest lengthbetween the concepts and depth of whole taxonomy.

  6. Scientific Teaching: Defining a Taxonomy of Observable Practices

    Science.gov (United States)

    Couch, Brian A.; Brown, Tanya L.; Schelpat, Tyler J.; Graham, Mark J.; Knight, Jennifer K.

    2015-01-01

    Over the past several decades, numerous reports have been published advocating for changes to undergraduate science education. These national calls inspired the formation of the National Academies Summer Institutes on Undergraduate Education in Biology (SI), a group of regional workshops to help faculty members learn and implement interactive teaching methods. The SI curriculum promotes a pedagogical framework called Scientific Teaching (ST), which aims to bring the vitality of modern research into the classroom by engaging students in the scientific discovery process and using student data to inform the ongoing development of teaching methods. With the spread of ST, the need emerges to systematically define its components in order to establish a common description for education researchers and practitioners. We describe the development of a taxonomy detailing ST’s core elements and provide data from classroom observations and faculty surveys in support of its applicability within undergraduate science courses. The final taxonomy consists of 15 pedagogical goals and 37 supporting practices, specifying observable behaviors, artifacts, and features associated with ST. This taxonomy will support future educational efforts by providing a framework for researchers studying the processes and outcomes of ST-based course transformations as well as a concise guide for faculty members developing classes. PMID:25713097

  7. A taxonomy characterizing complexity of consumer eHealth Literacy.

    Science.gov (United States)

    Chan, Connie V; Matthews, Lisa A; Kaufman, David R

    2009-11-14

    There are a range of barriers precluding patients from fully engaging in and benefiting from the spectrum of eHealth interventions developed to support patient access to health information, disease self-management efforts, and patient-provider communication. Consumers with low eHealth literacy skills often stand to gain the greatest benefit from the use of eHealth tools. eHealth skills are comprised of reading/writing/numeracy skills, health literacy, computer literacy, information literacy, media literacy, and scientific literacy [1]. We aim to develop an approach to characterize dimensions of complexity and to reveal knowledge and skill-related barriers to eHealth engagement. We use Bloom's Taxonomy to guide development of an eHealth literacy taxonomy that categorizes and describes each type of literacy by complexity level. Illustrative examples demonstrate the utility of the taxonomy in characterizing dimensions of complexity of eHealth skills used and associated with each step in completing an eHealth task.

  8. Taxonomy of trans-Neptunian objects and Centaurs as seen from spectroscopy

    Science.gov (United States)

    Merlin, F.; Hromakina, T.; Perna, D.; Hong, M. J.; Alvarez-Candal, A.

    2017-08-01

    Context. Taxonomy of trans-Neptunian objects (TNOs) and Centaurs has been made in previous works using broadband filters in the visible and near infrared ranges. This initial investigation led to the establishment of four groups with the aim to provide the mean colors of the different classes with possible links with any physical or chemical properties. However, this taxonomy was only made with the Johnson-Cousins filter system and the ESO J, H, Ks filters combination, and any association with other filter system is not yet available. Aims: We aim to edit complete visible to near infrared taxonomy and extend this work to any possible filters system. To do this, we generate mean spectra for each individual group, from a data set of 43 spectra. This work also presents new spectra of the TNO (38628) Huya, on which aqueous alteration has been suspected, and the Centaur 2007 VH305. Methods: To generate the mean spectra for each taxonomical group, we first averaged the data for each of the four taxonomical groups and checked that spectroscopic and photometric data were consistent according to their relative errors. Results: We obtained four complete spectra corresponding to the different classes from 0.45 to 2.40 microns. Our results based on spectroscopy are in good agreements with those obtained in photometry for the bluest (BB) and reddest (RR) objects. At the contrary, no clear patterns appear for the two intermediate groups (BR and IR). Both BR and IR mean-spectra are almost intermixed, probably due to the fact that part of these objects have not always clear affiliation to one particular taxonomical group. Conclusions: We provide mean spectra that could be used to edit colors in different filters system working in this wavelength range. This work clearly establish the mean spectra of the BB and RR group while the two other groups need probably further refinement. Part of the data presented here have been performed under ESO Programmes ID 178.C-0867 and ID 091.C

  9. Microbial taxonomy in the post-genomic era: Rebuilding from scratch?

    Energy Technology Data Exchange (ETDEWEB)

    Thompson, Cristiane C. [Univ. of Rio de Janeiro (UFRJ) (Brazil); Amaral, Gilda R. [Univ. of Rio de Janeiro (UFRJ) (Brazil); Campeão, Mariana [Univ. of Rio de Janeiro (UFRJ) (Brazil); Edwards, Robert A. [Univ. of Rio de Janeiro (UFRJ) (Brazil); San Diego State Univ., CA (United States); Argonne National Lab. (ANL), Argonne, IL (United States); Polz, Martin F. [Massachusetts Inst. of Technology (MIT), Cambridge, MA (United States); Dutilh, Bas E. [Univ. of Rio de Janeiro (UFRJ) (Brazil); Radbould Univ., Nijmegen (Netherlands); Ussery, David W. [Oak Ridge National Lab. (ORNL), Oak Ridge, TN (United States); Sawabe, Tomoo [Hokkaido Univ., Hakodate (Japan); Swings, Jean [Univ. of Rio de Janeiro (UFRJ) (Brazil); Ghent Univ. (Belgium); Thompson, Fabiano L. [Univ. of Rio de Janeiro (UFRJ) (Brazil); Advanced Systems Laboratory Production Management COPPE / UFRJ, Rio de Janeiro (Brazil)

    2014-12-23

    Microbial taxonomy should provide adequate descriptions of bacterial, archaeal, and eukaryotic microbial diversity in ecological, clinical, and industrial environments. We re-evaluated the prokaryote species twice. It is time to revisit polyphasic taxonomy, its principles, and its practice, including its underlying pragmatic species concept. We will be able to realize an old dream of our predecessor taxonomists and build a genomic-based microbial taxonomy, using standardized and automated curation of high-quality complete genome sequences as the new gold standard.

  10. Microwave spectral taxonomy: A semi-automated combination of chirped-pulse and cavity Fourier-transform microwave spectroscopy

    Science.gov (United States)

    Crabtree, Kyle N.; Martin-Drumel, Marie-Aline; Brown, Gordon G.; Gaster, Sydney A.; Hall, Taylor M.; McCarthy, Michael C.

    2016-03-01

    Because of its structural specificity, rotational spectroscopy has great potential as an analytical tool for characterizing the chemical composition of complex gas mixtures. However, disentangling the individual molecular constituents of a rotational spectrum, especially if many of the lines are entirely new or unknown, remains challenging. In this paper, we describe an empirical approach that combines the complementary strengths of two techniques, broadband chirped-pulse Fourier transform microwave spectroscopy and narrowband cavity Fourier transform microwave spectroscopy, to characterize and assign lines. This procedure, called microwave spectral taxonomy, involves acquiring a broadband rotational spectrum of a rich mixture, categorizing individual lines based on their relative intensities under series of assays, and finally, linking rotational transitions of individual chemical compounds within each category using double resonance techniques. The power of this procedure is demonstrated for two test cases: a stable molecule with a rich spectrum, 3,4-difluorobenzaldehyde, and products formed in an electrical discharge through a dilute mixture of C2H2 and CS2, in which spectral taxonomy has enabled the identification of propynethial, HC(S)CCH.

  11. Integrative taxonomy and molecular phylogeny of genus Aplysina (Demospongiae: Verongida from Mexican Pacific.

    Directory of Open Access Journals (Sweden)

    José Antonio Cruz-Barraza

    Full Text Available Integrative taxonomy provides a major approximation to species delimitation based on integration of different perspectives (e.g. morphology, biochemistry and DNA sequences. The aim of this study was to assess the relationships and boundaries among Eastern Pacific Aplysina species using morphological, biochemical and molecular data. For this, a collection of sponges of the genus Aplysina from the Mexican Pacific was studied on the basis of their morphological, chemical (chitin composition, and molecular markers (mitochondrial COI and nuclear ribosomal rDNA: ITS1-5.8-ITS2. Three morphological species were identified, two of which are new to science. A. clathrata sp. nov. is a yellow to yellow-reddish or -brownish sponge, characterized by external clathrate-like morphology; A. revillagigedi sp. nov. is a lemon yellow to green, cushion-shaped sometimes lobate sponge, characterized by conspicuous oscules, which are slightly elevated and usually linearly distributed on rims; and A. gerardogreeni a known species distributed along the Mexican Pacific coast. Chitin was identified as the main structural component within skeletons of the three species using FTIR, confirming that it is shared among Verongida sponges. Morphological differences were confirmed by DNA sequences from nuclear ITS1-5.8-ITS2. Mitochondrial COI sequences showed extremely low but diagnostic variability for Aplysina revillagigedi sp. nov., thus our results corroborate that COI has limited power for DNA-barcoding of sponges and should be complemented with other markers (e.g. rDNA. Phylogenetic analyses of Aplysina sequences from the Eastern Pacific and Caribbean, resolved two allopatric and reciprocally monophyletic groups for each region. Eastern Pacific species were grouped in general accordance with the taxonomic hypothesis based on morphological characters. An identification key of Eastern Pacific Aplysina species is presented. Our results constitute one of the first approximations

  12. Penetration Testing Professional Ethics: a conceptual model and taxonomy

    Directory of Open Access Journals (Sweden)

    Justin Pierce

    2006-05-01

    Full Text Available In an environment where commercial software is continually patched to correct security flaws, penetration testing can provide organisations with a realistic assessment of their security posture. Penetration testing uses the same principles as criminal hackers to penetrate corporate networks and thereby verify the presence of software vulnerabilities. Network administrators can use the results of a penetration test to correct flaws and improve overall security. The use of hacking techniques, however, raises several ethical questions that centre on the integrity of the tester to maintain professional distance and uphold the profession. This paper discusses the ethics of penetration testing and presents our conceptual model and revised taxonomy.

  13. A taxonomy for user-healthcare robot interaction.

    Science.gov (United States)

    Bzura, Conrad; Im, Hosung; Liu, Tammy; Malehorn, Kevin; Padir, Taskin; Tulu, Bengisu

    2012-01-01

    This paper evaluates existing taxonomies aimed at characterizing the interaction between robots and their users and modifies them for health care applications. The modifications are based on existing robot technologies and user acceptance of robotics. Characterization of the user, or in this case the patient, is a primary focus of the paper, as they present a unique new role as robot users. While therapeutic and monitoring-related applications for robots are still relatively uncommon, we believe they will begin to grow and thus it is important that the spurring relationship between robot and patient is well understood.

  14. Taxonomy for Common-Cause Failure Vulnerability and Mitigation

    Energy Technology Data Exchange (ETDEWEB)

    Wood, Richard Thomas [Oak Ridge National Lab. (ORNL), Oak Ridge, TN (United States); Korsah, Kofi [Oak Ridge National Lab. (ORNL), Oak Ridge, TN (United States); Mullens, James Allen [Oak Ridge National Lab. (ORNL), Oak Ridge, TN (United States); Pullum, Laura L. [Oak Ridge National Lab. (ORNL), Oak Ridge, TN (United States)

    2015-09-01

    Applying current guidance and practices for common-cause failure (CCF) mitigation to digital instrumentation and control (I&C) systems has proven problematic, and the regulatory environment has been unpredictable. The potential for CCF vulnerability inhibits I&C modernization, thereby challenging the long-term sustainability of existing plants. For new plants and advanced reactor concepts, concern about CCF vulnerability in highly integrated digital I&C systems imposes a design burden that results in higher costs and increased complexity. The regulatory uncertainty in determining which mitigation strategies will be acceptable (e.g., what diversity is needed and how much is sufficient) drives designers to adopt complicated, costly solutions devised for existing plants. To address the conditions that constrain the transition to digital I&C technology by the US nuclear industry, crosscutting research is needed to resolve uncertainty, demonstrate necessary characteristics, and establish an objective basis for qualification of digital technology for nuclear power plant (NPP) I&C applications. To fulfill this research need, Oak Ridge National Laboratory is investigating mitigation of CCF vulnerability for nuclear-qualified applications. The outcome of this research is expected to contribute to a fundamentally sound, comprehensive basis to qualify digital technology for nuclear power applications. This report documents the development of a CCF taxonomy. The basis for the CCF taxonomy was generated by determining consistent terminology and establishing a classification approach. The terminology is based on definitions from standards, guides, and relevant nuclear power industry technical reports. The classification approach is derived from identified classification schemes focused on I&C systems and key characteristics, including failure modes. The CCF taxonomy provides the basis for a systematic organization of key systems aspects relevant to analyzing the potential for

  15. Taxonomy of the nuclear plant operator's role

    Energy Technology Data Exchange (ETDEWEB)

    Kisner, R.A.; Fullerton, A.M.; Frey, P.R.; Dougherty, E.M.

    1981-01-01

    A program is presently under way at the Oak Ridge National Laboratory (ORNL) to define the functional design requirements of operational aids for nuclear power plant operators. A first and important step in defining these requirements is to develop an understanding of the operator's role or function. This paper describes a taxonomy of operator functions that applies during all operational modes and conditions of the plant. Other topics such as the influence of automation, role acceptance, and the operator's role during emergencies are also discussed. This systematic approach has revealed several areas which have potential for improving the operator's ability to perform his role.

  16. Problem Reporting Taxonomy and Data Preparation Tool Evaluation

    Science.gov (United States)

    Beil, Robert J.

    2010-01-01

    A member of the NASA Engineering and Safety Center (NESC) Systems Engineering Office (SEO) Technical Discipline Team (TDT) requested a SEO-managed activity to perform a gap analysis on the proposed NASA Standard 0006, "Common NASA Taxonomy for Problem Reporting, Analysis, and Resolution", and to create an input filter and set of instructions for using the data-mining/data-cleansing tool TechOasis1 with Space Shuttle Program (SSP) problem reporting data. The work that achieved these objectives and deployment of TechOasis are discussed in this report.

  17. Enterprise Architecture Management: Toward a Taxonomy of Applications

    DEFF Research Database (Denmark)

    Rahimi, Fatemeh; Gøtze, John; Møller, Charles

    2017-01-01

    Despite the growing interest in enterprise architecture management, researchers and practitioners lack a shared understanding of its applications in organizations. Building on findings from a literature review and eight case studies, we develop a taxonomy that categorizes applications of enterprise...... architecture management based on three classes of enterprise architecture scope. Organizations may adopt enterprise architecture management to support IT strategy formation, planning and implementation; facilitate business strategy planning and implementation; or further complement the business strategy...... formation process. The findings challenge the traditional IT-centric view of enterprise architecture management application and suggest enterprise architecture management as an approach that could support consistent design and evolution of an organization as a whole....

  18. A Taxonomy of Daemons in Self-stabilization

    CERN Document Server

    Dubois, Swan

    2011-01-01

    We survey existing scheduling hypotheses made in the literature in self-stabilization, commonly referred to under the notion of daemon. We show that four main characteristics (distribution, fairness, boundedness, and enabledness) are enough to encapsulate the various differences presented in existing work. Our naming scheme makes it easy to compare daemons of particular classes, and to extend existing possibility or impossibility results to new daemons. We further examine existing daemon transformer schemes and provide the exact transformed characteristics of those transformers in our taxonomy.

  19. Concept Stability for Constructing Taxonomies of Web-site Users

    OpenAIRE

    Kuznetsov, Sergei O.; Ignatov, Dmitry I.

    2009-01-01

    Owners of a web-site are often interested in analysis of groups of users of their site. Information on these groups can help optimizing the structure and contents of the site. In this paper we use an approach based on formal concepts for constructing taxonomies of user groups. For decreasing the huge amount of concepts that arise in applications, we employ stability index of a concept, which describes how a group given by a concept extent differs from other such groups. We analyze resulting t...

  20. Evaluating a case study using Bloom's Taxonomy of Education.

    Science.gov (United States)

    Larkin, Brenda G; Burton, Karen J

    2008-09-01

    The joint commission recognizes effective communication among caregivers as an important factor for ensuring patient safety, especially at times when the patient's care is handed off from one caregiver or service to another. This case study reviews the course of treatment for one patient throughout the perioperative continuum, including the postoperative unit where a pre-arrest situation developed. A workshop using Bloom's Taxonomy of Educational Objectives enabled staff members to more clearly understand the patient's situation. It also allowed the participants to gain an increased understanding of significant data and has been strategic in preventing patient complications.

  1. A Proposal for a Taxonomy for Vulnerabilities in Supervisory Control and Data Acquisition (SCADA) Systems

    Science.gov (United States)

    2014-09-01

    executable that is setuid root.4 fingerd The Morris worm exploited a buffer overflow in the fingerd program to gain unauthorized access to computer...in other taxonomies. There are still holes ; in fact, none of the vulnerabilities that Bishop discussed have a clear place in this taxonomy until a

  2. Developing a taxonomy of coordination behaviours in nuclear power plant control rooms during emergencies.

    Science.gov (United States)

    Wang, Dunxing; Gao, Qin; Li, Zhizhong; Song, Fei; Ma, Liang

    2017-05-19

    This study aims to develop a taxonomy of coordination behaviours during emergencies in nuclear power plants (NPPs). We summarised basic coordination behaviours from literature in aviation, health care and nuclear field and identified coordination behaviours specific to the nuclear domain by interviewing and surveying control crew operators. The established taxonomy includes 7 workflow stages and 24 basic coordination behaviours. To evaluate the reliability and feasibility of the taxonomy, we analysed 12 videos of operators' training sessions by coding coordination behaviours with the taxonomy and the inter-rater reliability was acceptable. Further analysis of the frequency, the duration and the direction of the coordination behaviours revealed four coordination problems. This taxonomy provides a foundation of systematic observation of coordination behaviours among NPP crews, advances researchers' understanding of the coordination mechanism during emergencies in NPPs and facilitate the possibility to deepen the understanding of the relationships between coordination behaviours and team performance. Practitioner Summary: A taxonomy of coordination behaviours during emergencies in nuclear power plants was developed. Reliability and feasibility of the taxonomy was verified through the analysis of 12 training sessions. The taxonomy can serve as an observation system for analysis of coordination behaviours and help to identify coordination problems of control crews.

  3. Using McREL's Knowledge Taxonomy for Ed Tech Professional Development

    Science.gov (United States)

    Hubbell, Elizabeth Ross

    2010-01-01

    In this article, the author discusses the Mid-continent Research for Education and Learning's (McREL's) Knowledge Taxonomy, which is a useful guide for any educational technology professional development plan. This taxonomy is based on the assertion that teachers need to know not only "what" to do to improve student achievement, but "why," "how,"…

  4. DNA Taxonomy - the Riddle of Oxychloë (Juncaceae)

    DEFF Research Database (Denmark)

    Kristiansen, Kim Anker; Cilieborg, Malene Skovsted; Drábková, Lenka

    2005-01-01

    Recently, advocates of DNA taxonomy have complained that there is inadequate control of the taxonomy in databases such as GenBank. This is correct, but the uncertainty may be extended to the sequences themselves. The present study shows that as long as vouchers are available neither problem is fa...

  5. Two independently constructed Italian trait taxonomies : Comparisons among Italian and between Italian and Germanic languages

    NARCIS (Netherlands)

    De Raad, Boele; Di Blas, L; Perugini, M

    1998-01-01

    Two existing selection procedures are distinguished, exemplified in the Dutch and German trait taxonomies. The characteristic features of the two approaches are identified in two independently constructed Italian taxonomies. We test the two approaches for their effects on the resulting trait

  6. Student Perceptions Regarding the Usefulness of Explicit Discussion of "Structure of the Observed Learning Outcome" Taxonomy

    Science.gov (United States)

    Prakash, E. S.; Narayan, K. A.; Sethuraman, K. R.

    2010-01-01

    One method of grading responses of the descriptive type is by using Structure of Observed Learning Outcomes (SOLO) taxonomy. The basis of this study was the expectation that if students were oriented to SOLO taxonomy, it would provide them an opportunity to understand some of the factors that teachers consider while grading descriptive responses…

  7. Task-Based Navigation of a Taxonomy Interface to a Digital Repository

    Science.gov (United States)

    Khoo, Christopher S. G.; Wang, Zhonghong; Chaudhry, Abdus Sattar

    2012-01-01

    Introduction: This is a study of hierarchical navigation; how users browse a taxonomy-based interface to an organizational repository to locate information resources. The study is part of a project to develop a taxonomy for an library and information science department to organize resources and support user browsing in a digital repository.…

  8. A Faceted Taxonomy for Rating Student Bibliographies in an Online Information Literacy Game

    Science.gov (United States)

    Leeder, Chris; Markey, Karen; Yakel, Elizabeth

    2012-01-01

    This study measured the quality of student bibliographies through creation of a faceted taxonomy flexible and fine-grained enough to encompass the variety of online sources cited by today's students. The taxonomy was developed via interviews with faculty, iterative refinement of categories and scoring, and testing on example student…

  9. Interpersonal lexicon : Structural evidence from two independently constructed verb-based taxonomies

    NARCIS (Netherlands)

    De Raad, B.

    1999-01-01

    In this study the structure of interpersonal behavior is investigated according to the principles of the so-called psycholexical approach. As bases for this study, we used the data from a taxonomy of interpersonal behavior verbs and a subset of data from a taxonomy of interpersonal tl-nir verbs. The

  10. Climbing Bloom's Taxonomy Pyramid: Lessons from a Graduate Histology Course

    Science.gov (United States)

    Zaidi, Nikki B.; Hwang, Charles; Scott, Sara; Stallard, Stefanie; Purkiss, Joel; Hortsch, Michael

    Bloom's taxonomy was adopted to create a subject-specific scoring tool for histology multiple-choice questions (MCQs). This Bloom's Taxonomy Histology Tool (BTHT) was used to analyze teacher- and student-generated quiz and examination questions from a graduate level histology course. Multiple-choice questions using histological images were…

  11. Taxonomy in biomedical resources of the Exclusive Economic Zone of India

    Digital Repository Service at National Institute of Oceanography (India)

    Parulekar, A.H.

    stream_size 9 stream_content_type text/plain stream_name Taxonomy_Environ_Biol_1990_49.pdf.txt stream_source_info Taxonomy_Environ_Biol_1990_49.pdf.txt Content-Encoding ISO-8859-1 Content-Type text/plain; charset=ISO-8859-1 ...

  12. A Taxonomy of Latent Structure Assumptions for Probability Matrix Decomposition Models.

    Science.gov (United States)

    Meulders, Michel; De Boeck, Paul; Van Mechelen, Iven

    2003-01-01

    Proposed a taxonomy of latent structure assumptions for probability matrix decomposition (PMD) that includes the original PMD model and a three-way extension of the multiple classification latent class model. Simulation study results show the usefulness of the taxonomy. (SLD)

  13. Construction of Cubic Dynamic and User-oriented Taxonomy forAutomatic Classification of Internet Information

    Institute of Scientific and Technical Information of China (English)

    2001-01-01

    Based on the requirements of the development of Internet, thenecessity of establishing cubic dynamic and user-oriented taxonomy for automatic classification is presented. Then the basic algorithm to construct such taxonomy is discussed. The view is up to date in current world.

  14. Development and validation of a taxonomy of adverse handover events in hospital settings

    DEFF Research Database (Denmark)

    Andersen, Henning Boje; Siemsen, Inger Margrete D.; Petersen, Lene Funck

    2015-01-01

    -rater reliability and distribution of types of handover failures and causal factors. The taxonomy contains five types of failures and seven types of main causal factors. The taxonomy was validated against 432 adverse handover event descriptions contained in incident reports (stratified random sample from the Danish...

  15. Correlation between Student Performance in Linear Algebra and Categories of a Taxonomy.

    Science.gov (United States)

    Wood, Leigh N.; Smith, Geoffrey H.; Petocz, Peter; Reid, Anna

    This paper concerns a study of the performance of students in a linear algebra examination. Differences in performance of tasks requiring understanding of concepts with those that required only the use of routine procedures and factual recall were investigated. Central to the study was the use of a taxonomy based on Bloom's Taxonomy for…

  16. Writing Reviews of Family Literature: Guiding Students Using Bloom's Taxonomy of Cognitive Objectives.

    Science.gov (United States)

    Benson, Mark J.; And Others

    1992-01-01

    Developed model, based on Bloom's taxonomy of educational objectives, for guiding students in writing reviews of family literature. Findings from survey of advisors addressing skills of their graduate students in writing literature reviews support hierarchical nature of taxonomy and demonstrate similarities across scientific disciplines.…

  17. An Initial Study of a Method for Instructing Educators about the Revised Taxonomy

    Science.gov (United States)

    Sultana, Farzana

    2010-01-01

    A taxonomy of learning objectives generally refers to a schema to classify the levels of learning. In 1956, Benjamin Bloom, with a group of educational psychologists, created a taxonomy for classifying educational objectives using six major categories of thinking skills: (a) knowledge (recalling information), (b) comprehension, (understanding the…

  18. Self-Awareness and Personal Growth: Theory and Application of Bloom's Taxonomy

    Science.gov (United States)

    Ugur, Hasan; Constantinescu, Petru-Madalin; Stevens, Michael J.

    2015-01-01

    Problem Statement: In this article, we summarize a group-based, self-development curriculum based on humanistic principles, framed by contemporary self-determination theory (SDT), and designed in accordance with Bloom's Taxonomy. The processes of awareness and integration are common to SDT and Bloom's Taxonomy, and to our knowledge, have not been…

  19. A Preliminary Bloom's Taxonomy Assessment of End-of-Chapter Problems in Business School Textbooks

    Science.gov (United States)

    Marshall, Jennings B.; Carson, Charles M.

    2008-01-01

    This article examines textbook problems used in a sampling of some of the most common core courses found in schools of business to ascertain what level of learning, as defined by Bloom's Taxonomy, is required to provide a correct answer. A set of working definitions based on Bloom's Taxonomy (Bloom & Krathwohl, 1956) was developed for the six…

  20. Toward A Unifying Taxonomy and Definition for Meditation

    Directory of Open Access Journals (Sweden)

    Jonathan David Nash

    2013-11-01

    Full Text Available One of the well-documented concerns confronting scholarly discourse about meditation is the plethora of semantic constructs and the lack of a unified definition and taxonomy. In recent years there have been several notable attempts to formulate new lexicons in order to define and categorize meditation methods. While these constructs have been useful and have encountered varying degrees of acceptance, they have also been subject to misinterpretation and debate, leaving the field devoid of a consensual paradigm. This paper attempts to influence this ongoing discussion by proposing two new models which hold the potential for enhanced scientific reliability and acceptance. Regarding the quest for a universally acceptable taxonomy, we suggest a paradigm shift away from the fabrication of categories based exclusively on first-person perspectives. As an alternative, we propose a new taxonomic system based on a third-person paradigm borrowed, in part, from the psychological and cognitive sciences. With regard to the elusive definitional problem, we propose a model of meditation as a dynamic process composed of several related but distinct stages. The overall goal is to provide researchers with a reliable nomenclature with which to categorize and classify diverse meditation methods, and a conceptual framework which can provide direction for their research and a theoretical basis for their findings.