Sample records for achelia bituberculata pycnogonida
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Directory of Open Access Journals (Sweden)
Lee Yong-Seok
2007-10-01
Full Text Available Abstract Background The phylogenetic position of pycnogonids is a long-standing and controversial issue in arthropod phylogeny. This controversy has recently been rekindled by differences in the conclusions based on neuroanatomical data concerning the chelifore and the patterns of Hox expression. The mitochondrial genome of a sea spider, Nymphon gracile (Pycnogonida, Nymphonidae, was recently reported in an attempt to address this issue. However, N. gracile appears to be a long-branch taxon on the phylogenetic tree and exhibits a number of peculiar features, such as 10 tRNA translocations and even an inversion of several protein-coding genes. Sequences of other pycnogonid mitochondrial genomes are needed if the position of pycnogonids is to be elucidated on this basis. Results The complete mitochondrial genome (15,474 bp of a sea spider (Achelia bituberculata belonging to the family Ammotheidae, which combines a number of anatomical features considered plesiomorphic with respect to other pycnogonids, was sequenced and characterized. The genome organization shows the features typical of most metazoan animal genomes (37 tightly-packed genes. The overall gene arrangement is completely identical to the arthropod ground pattern, with one exception: the position of the trnQ gene between the rrnS gene and the control region. Maximum likelihood and Bayesian inference trees inferred from the amino acid sequences of mitochondrial protein-coding genes consistently indicate that the pycnogonids (A. bituberculata and N. gracile may be closely related to the clade of Acari and Araneae. Conclusion The complete mitochondrial genome sequence of A. bituberculata (Family Ammotheidae and the previously-reported partial sequence of Endeis spinosa show the gene arrangement patterns typical of arthropods (Limulus-like, but they differ markedly from that of N. gracile. Phylogenetic analyses based on mitochondrial protein-coding genes showed that Pycnogonida may be
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Achelia shepherdi n. sp. and other Pycnogonida from Australia
Stock, Jan H.
1973-01-01
Records of 10 species of shallow water Pycnogonida from Western Australia, Victoria, Tasmania, and New South Wales, including Achelia shepherdi n. sp., Parapallene avida Stock, 1973 (♀ new to science), and Anoplodactylus pulcher Carpenter, 1907 (new to Australia).
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Indo-West Pacific Pycnogonida collected by some major oceanographic expeditions
Stock, Jan H.
1994-01-01
Seventy-six species of Pycnogonida, and some unidentifiable forms, belonging to 25 genera in all 8 families, of which 13 species are new to science, are recorded from the Indo-West Pacific region. New species are described in the genera Ascorhynchus, Ammothella, Achelia, Pantopipetta, Nymphon,
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The Littoral Pycnogonida of the Swansea Area of the United Kingdom
African Journals Online (AJOL)
Results indicate that the oil spills have no effect on the presence or absence of these organisms. Questions are raised as to how the sea spiders are able to evade the negative effects of an oil spill. Journal of Aquatic Sciences Volume 15, April 2000, pp. 63-65. KEY WORDS: Pycnogonida, Nymphon gracile, Achelia echinata ...
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Directory of Open Access Journals (Sweden)
S. Satheesh
2012-06-01
Full Text Available Sea spiders (Pycnogonids are exclusively marine arthropods with worldwide distribution. Pycnogonida remains one of the poorly investigated groups encountered in fouling communities. In the present study, distribution pycnogonid species Endeis mollis associated with the fouling community developed on test panels submerged at Kudankulam coast, Gulf of Mannar was studied for a period of two years. Throughout the period of investigation, Endeis mollis was observed on the test panels. A maximum of 55 individuals per square dm was observed during pre-monsoon season and a minimum of 9 individuals per square dm during monsoon season. Results of this study on seasonal distribution are of considerable interest because so little has been documented on the ecology of Pycnogonids in India.
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Scholtz, Gerhard; Brenneis, Georg
2016-02-01
A malformed adult female specimen of Pycnogonum litorale (Pycnogonida) with a supernumerary leg in the right body half is described concerning external and internal structures. The specimen was maintained in our laboratory culture after an injury in the right trunk region during a late postembryonic stage. The supernumerary leg is located between the second and third walking legs. The lateral processes connecting to these walking legs are fused to one large structure. Likewise, the coxae 1 of the second and third walking legs and of the supernumerary leg are fused to different degrees. The supernumerary leg is a complete walking leg with mirror image symmetry as evidenced by the position of joints and muscles. It is slightly smaller than the normal legs, but internally, it contains a branch of the ovary and a gut diverticulum as the other legs. The causes for this malformation pattern found in the Pycnogonum individual are reconstructed in the light of extirpation experiments in insects, which led to supernumerary mirror image legs, and the "boundary model" for appendage differentiation.
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Brenneis, Georg; Scholtz, Gerhard
2014-01-01
Early neurogenesis in arthropods has been in the focus of numerous studies, its cellular basis, spatio-temporal dynamics and underlying genetic network being by now comparably well characterized for representatives of chelicerates, myriapods, hexapods and crustaceans. By contrast, neurogenesis during late embryonic and/or post-embryonic development has received less attention, especially in myriapods and chelicerates. Here, we apply (i) immunolabeling, (ii) histology and (iii) scanning electron microscopy to study post-embryonic ventral nerve cord development in Pseudopallene sp., a representative of the sea spiders (Pycnogonida), the presumable sister group of the remaining chelicerates. During early post-embryonic development, large neural stem cells give rise to additional ganglion cell material in segmentally paired invaginations in the ventral ectoderm. These ectodermal cell regions - traditionally designated as 'ventral organs' - detach from the surface into the interior and persist as apical cell clusters on the ventral ganglion side. Each cluster is a post-embryonic neurogenic niche that features a tiny central cavity and initially still houses larger neural stem cells. The cluster stays connected to the underlying ganglionic somata cortex via an anterior and a posterior cell stream. Cell proliferation remains restricted to the cluster and streams, and migration of newly produced cells along the streams seems to account for increasing ganglion cell numbers in the cortex. The pycnogonid cluster-stream-systems show striking similarities to the life-long neurogenic system of decapod crustaceans, and due to their close vicinity to glomerulus-like neuropils, we consider their possible involvement in post-embryonic (perhaps even adult) replenishment of olfactory neurons - as in decapods. An instance of a potentially similar post-embryonic/adult neurogenic system in the arthropod outgroup Onychophora is discussed. Additionally, we document two transient posterior
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Directory of Open Access Journals (Sweden)
Georg Brenneis
Full Text Available Early neurogenesis in arthropods has been in the focus of numerous studies, its cellular basis, spatio-temporal dynamics and underlying genetic network being by now comparably well characterized for representatives of chelicerates, myriapods, hexapods and crustaceans. By contrast, neurogenesis during late embryonic and/or post-embryonic development has received less attention, especially in myriapods and chelicerates. Here, we apply (i immunolabeling, (ii histology and (iii scanning electron microscopy to study post-embryonic ventral nerve cord development in Pseudopallene sp., a representative of the sea spiders (Pycnogonida, the presumable sister group of the remaining chelicerates. During early post-embryonic development, large neural stem cells give rise to additional ganglion cell material in segmentally paired invaginations in the ventral ectoderm. These ectodermal cell regions - traditionally designated as 'ventral organs' - detach from the surface into the interior and persist as apical cell clusters on the ventral ganglion side. Each cluster is a post-embryonic neurogenic niche that features a tiny central cavity and initially still houses larger neural stem cells. The cluster stays connected to the underlying ganglionic somata cortex via an anterior and a posterior cell stream. Cell proliferation remains restricted to the cluster and streams, and migration of newly produced cells along the streams seems to account for increasing ganglion cell numbers in the cortex. The pycnogonid cluster-stream-systems show striking similarities to the life-long neurogenic system of decapod crustaceans, and due to their close vicinity to glomerulus-like neuropils, we consider their possible involvement in post-embryonic (perhaps even adult replenishment of olfactory neurons - as in decapods. An instance of a potentially similar post-embryonic/adult neurogenic system in the arthropod outgroup Onychophora is discussed. Additionally, we document two
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Brenneis, Georg; Scholtz, Gerhard
2014-01-01
Early neurogenesis in arthropods has been in the focus of numerous studies, its cellular basis, spatio-temporal dynamics and underlying genetic network being by now comparably well characterized for representatives of chelicerates, myriapods, hexapods and crustaceans. By contrast, neurogenesis during late embryonic and/or post-embryonic development has received less attention, especially in myriapods and chelicerates. Here, we apply (i) immunolabeling, (ii) histology and (iii) scanning electron microscopy to study post-embryonic ventral nerve cord development in Pseudopallene sp., a representative of the sea spiders (Pycnogonida), the presumable sister group of the remaining chelicerates. During early post-embryonic development, large neural stem cells give rise to additional ganglion cell material in segmentally paired invaginations in the ventral ectoderm. These ectodermal cell regions – traditionally designated as ‘ventral organs’ – detach from the surface into the interior and persist as apical cell clusters on the ventral ganglion side. Each cluster is a post-embryonic neurogenic niche that features a tiny central cavity and initially still houses larger neural stem cells. The cluster stays connected to the underlying ganglionic somata cortex via an anterior and a posterior cell stream. Cell proliferation remains restricted to the cluster and streams, and migration of newly produced cells along the streams seems to account for increasing ganglion cell numbers in the cortex. The pycnogonid cluster-stream-systems show striking similarities to the life-long neurogenic system of decapod crustaceans, and due to their close vicinity to glomerulus-like neuropils, we consider their possible involvement in post-embryonic (perhaps even adult) replenishment of olfactory neurons – as in decapods. An instance of a potentially similar post-embryonic/adult neurogenic system in the arthropod outgroup Onychophora is discussed. Additionally, we document two transient
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A new species of to the genus Eritrachys Ruckes, E. brailovskyi, collected in Ecuador, is described and illustrated. The male of E. bituberculata Ruckes is described and illustrated, with new records from Panama and Ecuador. A key to the species of the genus is provided....
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Brenneis, Georg; Scholtz, Gerhard
2015-07-10
The arthropod ventral nerve cord features a comparably low number of serotonin-immunoreactive neurons, occurring in segmentally repeated arrays. In different crustaceans and hexapods, these neurons have been individually identified and even inter-specifically homologized, based on their soma positions and neurite morphologies. Stereotypic sets of serotonin-immunoreactive neurons are also present in myriapods, whereas in the investigated chelicerates segmental neuron clusters with higher and variable cell numbers have been reported. This led to the suggestion that individually identifiable serotonin-immunoreactive neurons are an apomorphic feature of the Mandibulata. To test the validity of this neurophylogenetic hypothesis, we studied serotonin-immunoreactivity in three species of Pycnogonida (sea spiders). This group of marine arthropods is nowadays most plausibly resolved as sister group to all other extant chelicerates, rendering its investigation crucial for a reliable reconstruction of arthropod nervous system evolution. In all three investigated pycnogonids, the ventral walking leg ganglia contain different types of serotonin-immunoreactive neurons, the somata of which occurring mostly singly or in pairs within the ganglionic cortex. Several of these neurons are readily and consistently identifiable due to their stereotypic soma position and characteristic neurite morphology. They can be clearly homologized across different ganglia and different specimens as well as across the three species. Based on these homologous neurons, we reconstruct for their last common ancestor (presumably the pycnogonid stem species) a minimal repertoire of at least seven identified serotonin-immunoreactive neurons per hemiganglion. Beyond that, each studied species features specific pattern variations, which include also some neurons that were not reliably labeled in all specimens. Our results unequivocally demonstrate the presence of individually identifiable serotonin
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The Pycnogonid family Austrodecidae
Stock, J.H.
1957-01-01
DE PYCNOGONIDEN- FAMILIE AUSTRODECIDAE Toen mij, in 1954, uit Oslo een verzameling Pycnogonida van de „Norwegian Scientific Expedition to Tristan da Cunda 1937—1938“ ter bewerking werd opgezonden, kon ik niet vermoeden dat deze kleine collectie aanleiding zou geven tot een uitgebreide revisie van
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Wiring a Periscope ? Ocelli, Retinula Axons, Visual Neuropils and the Ancestrality of Sea Spiders
Lehmann, Tobias; He?, Martin; Melzer, Roland R.
2012-01-01
The Pycnogonida or sea spiders are cryptic, eight-legged arthropods with four median ocelli in a 'periscope' or eye tubercle. In older attempts at reconstructing phylogeny they were Arthropoda incertae sedis, but recent molecular trees placed them as the sister group either to all other euchelicerates or even to all euarthropods. Thus, pycnogonids are among the oldest extant arthropods and hold a key position for the understanding of arthropod evolution. This has stimulated studies of new set...
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An electrophoretical and immunological study of Pycnogonida, with phylogenetic considerations
Munilla, Tomás; Haro, de Andrés
1981-01-01
An electrophoretical and immunological study is made of nine species of pycnogonids, representing seven families, from the Catalan coast. An electrophoretogram of each species is given and the antigenic properties of its protein bands are determined. Taking as comparative basis the serological
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Directory of Open Access Journals (Sweden)
Alexandre Somavilla
2012-12-01
Full Text Available Vespidae sociais utilizam principalmente material vegetal para a elaboração de seus ninhos. Embora existam alguns estudos referentes à fauna de vespas na região Amazônica, nenhum trabalho trata exclusivamente dos ninhos. Além disso, nas coleções biológicas poucos são os ninhos tombados, devido principalmente à fragilidade e difícil conservação dos mesmos. O objetivo desse trabalho foi o conhecimento de alguns ninhos encontrados na Reserva Ducke, apresentando informações a respeito dos mesmos e uma chave de identificação dos gêneros. Os ninhos foram coletados através da busca direta, percorrendo os transectos da grade do Programa de Pesquisa em Biodiversidade; locais como margens de igarapés, bordas de acampamentos e construções na sede da reserva também foram explorados. Para todos os ninhos obteve-se o registro fotográfico e a localização exata por GPS. Foram registrados 39 ninhos de vespas sociais alocados em 17 espécies de Polistinae: Agelaia constructor, A. pallipes, Angiopolybia pallens, Apoica pallens, Metapolybia unilineata, Mischocyttarus lecointei, M. saturatus, Polybia bistriata, P. dimidiata, P. jurinei, P. liliacea, P. occidentalis, P. procellosa, P. rejecta, Protopolybia bituberculata, P. chartergoides e Synoeca virginea. Cinco ninhos desabitados de Mischocyttarus, Polybia e Polistes também foram coletados.Nests of social wasps are composed mainly out of plant material. Although there are some studies about the social wasp fauna in the Amazon region, there is no work exclusively about these wasps' nests. Also, there are few catalogued nests in biological collections, because of their fragility and difficult conservation. The purpose of this study was to evaluate the kinds of nests found at "Reserva Ducke", compiling information about them and developing a key to identify the nests of each genera. The nests were actively collected in tracks of the "Programa de Pesquisa em Biodiversidade" plot; areas such
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Identification of a Flavivirus Sequence in a Marine Arthropod.
Directory of Open Access Journals (Sweden)
Michael J Conway
Full Text Available Phylogenetic analysis has yet to uncover the early origins of flaviviruses. In this study, I mined a database of expressed sequence tags in order to discover novel flavivirus sequences. Flavivirus sequences were identified in a pool of mRNA extracted from the sea spider Endeis spinosa (Pycnogonida, Pantopoda. Reconstruction of the translated sequences and BLAST analysis matched the sequence to the flavivirus NS5 gene. Additional sequences corresponding to envelope and the NS5 MTase domain were also identified. Phylogenetic analysis of homologous NS5 sequences revealed that Endeis spinosa NS5 (ESNS5 is likely related to classical insect-specific flaviviruses. It is unclear if ESNS5 represents genetic material from an active viral infection or an integrated viral genome. These data raise the possibility that classical insect-specific flaviviruses and perhaps medically relevant flaviviruses, evolved from progenitors that infected marine arthropods.
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Digital Repository Service at National Institute of Oceanography (India)
Jayasree, V.; Sreepada, R.A.; Parulekar, A.H.
Five specimens of benthic pycnogonids collected from the Southern Ocean are described. Of these, two are identified as Nymphon australis (Hodgson) and two as Ecleipsotherma spinosa (Hodgson). One specimen under the class Colossendeidae, is described...
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The Sponge Zygomycale parishii(Bowerbank) and its Endobiotic Fauna
Duarte, Luiz; Nalesso, Rosebel
1996-02-01
The endobiotic fauna of the sponge Zygomycale parishii(Bowerbank) was studied for 2·5 years at two sites, Ubatuba and São Sebastião, on the northern coast of the State of São Paulo, Brazil. Ninety-two macrofaunal species (over 1 mm long) were identified among which Cnidaria, Turbellaria, Nemertinea, Sipuncula, Polychaeta, Mollusca, Crustacea, Pycnogonida, Echinodermata, Ascidiacea and Pisces were represented. The results obtained on the number of species (species richness), the abundances of different species and faunal composition were related to the physico-biotic characteristics of the study sites. The influence of sample volume and other methodological artifacts on sample characteristics were also examined. The ophiuroid Ophiactis savignyi(Müller & Troschell) was the dominant endobiotic species, comprising 64% of all individuals collected. The São Sebastião endobiotic fauna was more diversified than the Ubatuba endobiotic fauna, possibly due to higher larval recruitment, and to the closeness of Z. parishiito the sea-floor providing a greater possibility for inhabitants of this microhabitat to find and to live inside the sponge.
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Directory of Open Access Journals (Sweden)
Alexandre Somavilla
2012-12-01
Full Text Available Vespidae sociais utilizam principalmente material vegetal para a elaboração de seus ninhos. Embora existam alguns estudos referentes à fauna de vespas na região Amazônica, nenhum trabalho trata exclusivamente dos ninhos. Além disso, nas coleções biológicas poucos são os ninhos tombados, devido principalmente à fragilidade e difícil conservação dos mesmos. O objetivo desse trabalho foi o conhecimento de alguns ninhos encontrados na Reserva Ducke, apresentando informações a respeito dos mesmos e uma chave de identificação dos gêneros. Os ninhos foram coletados através da busca direta, percorrendo os transectos da grade do Programa de Pesquisa em Biodiversidade; locais como margens de igarapés, bordas de acampamentos e construções na sede da reserva também foram explorados. Para todos os ninhos obteve-se o registro fotográfico e a localização exata por GPS. Foram registrados 39 ninhos de vespas sociais alocados em 17 espécies de Polistinae: Agelaia constructor, A. pallipes, Angiopolybia pallens, Apoica pallens, Metapolybia unilineata, Mischocyttarus lecointei, M. saturatus, Polybia bistriata, P. dimidiata, P. jurinei, P. liliacea, P. occidentalis, P. procellosa, P. rejecta, Protopolybia bituberculata, P. chartergoides e Synoeca virginea. Cinco ninhos desabitados de Mischocyttarus, Polybia e Polistes também foram coletados.
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Directory of Open Access Journals (Sweden)
Daphne Cuvelier
Full Text Available The NEPTUNE cabled observatory network hosts an ecological module called TEMPO-mini that focuses on hydrothermal vent ecology and time series, granting us real-time access to data originating from the deep sea. In 2011-2012, during TEMPO-mini's first deployment on the NEPTUNE network, the module recorded high-resolution imagery, temperature, iron (Fe and oxygen on a hydrothermal assemblage at 2186 m depth at Main Endeavour Field (North East Pacific. 23 days of continuous imagery were analysed with an hourly frequency. Community dynamics were analysed in detail for Ridgeia piscesae tubeworms, Polynoidae, Pycnogonida and Buccinidae, documenting faunal variations, natural change and biotic interactions in the filmed tubeworm assemblage as well as links with the local environment. Semi-diurnal and diurnal periods were identified both in fauna and environment, revealing the influence of tidal cycles. Species interactions were described and distribution patterns were indicative of possible microhabitat preference. The importance of high-resolution frequencies (<1 h to fully comprehend rhythms in fauna and environment was emphasised, as well as the need for the development of automated or semi-automated imagery analysis tools.
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Gabriel N. Genzano
2002-03-01
Full Text Available Abundance and seasonality of Tanystylum orbiculare Wilson, 1878 populations (Pycnogonida; Ammotheidae associated with Sarsia sarsii (Loven, 1836 and Tubularia crocea (Agassiz, 1862 (Hydrozoa; Anthomedusae are analysed and the semi-parasitic life cycle of this species is described. In the analysed population, the first larval stages were found exclusively as parasites of S. sarsii. During the attachment to the hydranths, protonymphon larvae of T. orbiculare feed by sucking the hydranths of the cnidarian. Change of host is not obligatory; juveniles and adults were found both on S. sarsii as on T. crocea, and adults were also observed on other invertebrates. In the Mar del Plata intertidal, Tanystylum orbiculare was the most common pycnogonid species on colonies of T. crocea and S. sarsii. Anoplodactylus petiolatus was less abundant on both species and A. assimilis was found only on T. crocea. Endeis spinosa is absent on hydroids from the Mar del Plata intertidal zone but ectoparasitic larvae and adults were found on Obelia longissima colonies from Mar del Plata harbour together with adults of T. orbiculare and A. petiolatus. Endoparasitic larvae of A. petiolatus were found associated with colonies of Bougainvillidae.
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The sejugal furrow in camel spiders and acariform mites
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Dunlop, Jason A.
2012-07-01
Full Text Available Camel spiders (Arachnida: Solifugae are one of the arachnid groups characterised by a prosomal dorsal shield composed of three distinct elements: the pro-, meso- and metapeltidium. These are associated respectively with prosomal appendages one to four, five, and six. What is less well known, although noted in the historical literature, is that the coxae of the 4th and 5th prosomal segments (i.e. walking legs 2 and 3 of camel spiders are also separated ventrally by a distinct membranous region, which is absent between the coxae of the other legs. We suggest that this essentially ventral division of the prosoma specifically between coxae 2 and 3 is homologous with the so-called sejugal furrow (the sejugal interval sensu van der Hammen. This division constitutes a fundamental part of the body plan in acariform mites (Arachnida: Acariformes. If homologous, this sejugal furrow could represent a further potential synapomorphy for (Solifugae + Acariformes; a relationship with increasing morphological and molecular support. Alternatively, outgroup comparison with sea spiders (Pycnogonida and certain early Palaeozoic fossils could imply that the sejugal furrow defines an older tagma, derived from a more basal grade of organisation. In this scenario the (still divided prosoma of acariform mites and camel spiders would be plesiomorphic. This interpretation challenges the textbook arachnid character of a peltidium (or ‘carapace’ covering an undivided prosoma.
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Nakamura, Koichiro; Akiyama, Tadashi
2015-08-05
A new species of pycnogonid recorded from the shallow waters of Ogasawara (Bonin) Island, Japan, Cheilopallene ogasawarensis n. sp. is described, illustrated and compared with similar species. Cheilopallene ogasawarensis is only the third pycnogonid species recorded from these islands. Morphological characters clearly distinguish the new species from its geographically closest congener C. nodulosa Hong and Kim, 1987, also recorded from Japanese waters.
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Wiring a periscope--ocelli, retinula axons, visual neuropils and the ancestrality of sea spiders.
Lehmann, Tobias; Hess, Martin; Melzer, Roland R
2012-01-01
The Pycnogonida or sea spiders are cryptic, eight-legged arthropods with four median ocelli in a 'periscope' or eye tubercle. In older attempts at reconstructing phylogeny they were Arthropoda incertae sedis, but recent molecular trees placed them as the sister group either to all other euchelicerates or even to all euarthropods. Thus, pycnogonids are among the oldest extant arthropods and hold a key position for the understanding of arthropod evolution. This has stimulated studies of new sets of characters conductive to cladistic analyses, e.g. of the chelifores and of the hox gene expression pattern. In contrast knowledge of the architecture of the visual system is cursory. A few studies have analysed the ocelli and the uncommon "pseudoinverted" retinula cells. Moreover, analyses of visual neuropils are still at the stage of Hanström's early comprehensive works. We have therefore used various techniques to analyse the visual fibre pathways and the structure of their interrelated neuropils in several species. We found that pycnogonid ocelli are innervated to first and second visual neuropils in close vicinity to an unpaired midline neuropil, i.e. possibly the arcuate body, in a way very similar to ancestral euarthropods like Euperipatoides rowelli (Onychophora) and Limulus polyphemus (Xiphosura). This supports the ancestrality of pycnogonids and sheds light on what eyes in the pycnogonid ground plan might have 'looked' like. Recently it was suggested that arthropod eyes originated from simple ocelli similar to larval eyes. Hence, pycnogonid eyes would be one of the early offshoots among the wealth of more sophisticated arthropod eyes.
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Wiring a periscope--ocelli, retinula axons, visual neuropils and the ancestrality of sea spiders.
Directory of Open Access Journals (Sweden)
Tobias Lehmann
Full Text Available The Pycnogonida or sea spiders are cryptic, eight-legged arthropods with four median ocelli in a 'periscope' or eye tubercle. In older attempts at reconstructing phylogeny they were Arthropoda incertae sedis, but recent molecular trees placed them as the sister group either to all other euchelicerates or even to all euarthropods. Thus, pycnogonids are among the oldest extant arthropods and hold a key position for the understanding of arthropod evolution. This has stimulated studies of new sets of characters conductive to cladistic analyses, e.g. of the chelifores and of the hox gene expression pattern. In contrast knowledge of the architecture of the visual system is cursory. A few studies have analysed the ocelli and the uncommon "pseudoinverted" retinula cells. Moreover, analyses of visual neuropils are still at the stage of Hanström's early comprehensive works. We have therefore used various techniques to analyse the visual fibre pathways and the structure of their interrelated neuropils in several species. We found that pycnogonid ocelli are innervated to first and second visual neuropils in close vicinity to an unpaired midline neuropil, i.e. possibly the arcuate body, in a way very similar to ancestral euarthropods like Euperipatoides rowelli (Onychophora and Limulus polyphemus (Xiphosura. This supports the ancestrality of pycnogonids and sheds light on what eyes in the pycnogonid ground plan might have 'looked' like. Recently it was suggested that arthropod eyes originated from simple ocelli similar to larval eyes. Hence, pycnogonid eyes would be one of the early offshoots among the wealth of more sophisticated arthropod eyes.
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Wiring a Periscope – Ocelli, Retinula Axons, Visual Neuropils and the Ancestrality of Sea Spiders
Lehmann, Tobias; Heß, Martin; Melzer, Roland R.
2012-01-01
The Pycnogonida or sea spiders are cryptic, eight-legged arthropods with four median ocelli in a ‘periscope’ or eye tubercle. In older attempts at reconstructing phylogeny they were Arthropoda incertae sedis, but recent molecular trees placed them as the sister group either to all other euchelicerates or even to all euarthropods. Thus, pycnogonids are among the oldest extant arthropods and hold a key position for the understanding of arthropod evolution. This has stimulated studies of new sets of characters conductive to cladistic analyses, e.g. of the chelifores and of the hox gene expression pattern. In contrast knowledge of the architecture of the visual system is cursory. A few studies have analysed the ocelli and the uncommon “pseudoinverted” retinula cells. Moreover, analyses of visual neuropils are still at the stage of Hanström's early comprehensive works. We have therefore used various techniques to analyse the visual fibre pathways and the structure of their interrelated neuropils in several species. We found that pycnogonid ocelli are innervated to first and second visual neuropils in close vicinity to an unpaired midline neuropil, i.e. possibly the arcuate body, in a way very similar to ancestral euarthropods like Euperipatoides rowelli (Onychophora) and Limulus polyphemus (Xiphosura). This supports the ancestrality of pycnogonids and sheds light on what eyes in the pycnogonid ground plan might have ‘looked’ like. Recently it was suggested that arthropod eyes originated from simple ocelli similar to larval eyes. Hence, pycnogonid eyes would be one of the early offshoots among the wealth of more sophisticated arthropod eyes. PMID:22279594
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The diversity and evolution of chelicerate hemocyanins
Directory of Open Access Journals (Sweden)
Rehm Peter
2012-02-01
Full Text Available Abstract Background Oxygen transport in the hemolymph of many arthropod species is facilitated by large copper-proteins referred to as hemocyanins. Arthropod hemocyanins are hexamers or oligomers of hexamers, which are characterized by a high O2 transport capacity and a high cooperativity, thereby enhancing O2 supply. Hemocyanin subunit sequences had been available from horseshoe crabs (Xiphosura and various spiders (Araneae, but not from any other chelicerate taxon. To trace the evolution of hemocyanins and the emergence of the large hemocyanin oligomers, hemocyanin cDNA sequences were obtained from representatives of selected chelicerate classes. Results Hemocyanin subunits from a sea spider, a scorpion, a whip scorpion and a whip spider were sequenced. Hemocyanin has been lost in Opiliones, Pseudoscorpiones, Solifugae and Acari, which may be explained by the evolution of trachea (i.e., taxon Apulmonata. Bayesian phylogenetic analysis was used to reconstruct the evolution of hemocyanin subunits and a relaxed molecular clock approach was applied to date the major events. While the sea spider has a simple hexameric hemocyanin, four distinct subunit types evolved before Xiphosura and Arachnida diverged around 470 Ma ago, suggesting the existence of a 4 × 6mer at that time. Subsequently, independent gene duplication events gave rise to the other distinct subunits in each of the 8 × 6mer hemocyanin of Xiphosura and the 4 × 6mer of Arachnida. The hemocyanin sequences were used to infer the evolutionary history of chelicerates. The phylogenetic trees support a basal position of Pycnogonida, a sister group relationship of Xiphosura and Arachnida, and a sister group relationship of the whip scorpions and the whip spiders. Conclusion Formation of a complex hemocyanin oligomer commenced early in the evolution of euchelicerates. A 4 × 6mer hemocyanin consisting of seven subunit types is conserved in most arachnids since more than 400 Ma, although some
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A massive update of non-indigenous species records in Mediterranean marinas
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Aylin Ulman
2017-10-01
Full Text Available The Mediterranean Sea is home to over 2/3 of the world’s charter boat traffic and hosts an estimated 1.5 million recreational boats. Studies elsewhere have demonstrated marinas as important hubs for the stepping-stone transfer of non-indigenous species (NIS, but these unique anthropogenic, and typically artificial habitats have largely gone overlooked in the Mediterranean as sources of NIS hot-spots. From April 2015 to November 2016, 34 marinas were sampled across the following Mediterranean countries: Spain, France, Italy, Malta, Greece, Turkey and Cyprus to investigate the NIS presence and richness in the specialized hard substrate material of these marina habitats. All macroinvertebrate taxa were collected and identified. Additionally, fouling samples were collected from approximately 600 boat-hulls from 25 of these marinas to determine if boats host diverse NIS not present in the marina. Here, we present data revealing that Mediterranean marinas indeed act as major hubs for the transfer of marine NIS, and we also provide evidence that recreational boats act as effective vectors of spread. From this wide-ranging geographical study, we report here numerous new NIS records at the basin, subregional, country and locality level. At the basin level, we report three NIS new to the Mediterranean Sea (Achelia sawayai sensu lato, Aorides longimerus, Cymodoce aff. fuscina, and the re-appearance of two NIS previously known but currently considered extinct in the Mediterranean (Bemlos leptocheirus, Saccostrea glomerata. We also compellingly update the distributions of many NIS in the Mediterranean Sea showing some recent spreading; we provide details for 11 new subregional records for NIS (Watersipora arcuata, Hydroides brachyacantha sensu lato and Saccostrea glomerata now present in the Western Mediterranean; Symplegma brakenhielmi, Stenothoe georgiana, Spirobranchus tertaceros sensu lato, Dendostrea folium sensu lato and Parasmittina egyptiaca now
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A massive update of non-indigenous species records in Mediterranean marinas.
Ulman, Aylin; Ferrario, Jasmine; Occhpinti-Ambrogi, Anna; Arvanitidis, Christos; Bandi, Ada; Bertolino, Marco; Bogi, Cesare; Chatzigeorgiou, Giorgos; Çiçek, Burak Ali; Deidun, Alan; Ramos-Esplá, Alfonso; Koçak, Cengiz; Lorenti, Maurizio; Martinez-Laiz, Gemma; Merlo, Guenda; Princisgh, Elisa; Scribano, Giovanni; Marchini, Agnese
2017-01-01
The Mediterranean Sea is home to over 2/3 of the world's charter boat traffic and hosts an estimated 1.5 million recreational boats. Studies elsewhere have demonstrated marinas as important hubs for the stepping-stone transfer of non-indigenous species (NIS), but these unique anthropogenic, and typically artificial habitats have largely gone overlooked in the Mediterranean as sources of NIS hot-spots. From April 2015 to November 2016, 34 marinas were sampled across the following Mediterranean countries: Spain, France, Italy, Malta, Greece, Turkey and Cyprus to investigate the NIS presence and richness in the specialized hard substrate material of these marina habitats. All macroinvertebrate taxa were collected and identified. Additionally, fouling samples were collected from approximately 600 boat-hulls from 25 of these marinas to determine if boats host diverse NIS not present in the marina. Here, we present data revealing that Mediterranean marinas indeed act as major hubs for the transfer of marine NIS, and we also provide evidence that recreational boats act as effective vectors of spread. From this wide-ranging geographical study, we report here numerous new NIS records at the basin, subregional, country and locality level. At the basin level, we report three NIS new to the Mediterranean Sea ( Achelia sawayai sensu lato , Aorides longimerus , Cymodoce aff. fuscina ), and the re-appearance of two NIS previously known but currently considered extinct in the Mediterranean ( Bemlos leptocheirus, Saccostrea glomerata ). We also compellingly update the distributions of many NIS in the Mediterranean Sea showing some recent spreading; we provide details for 11 new subregional records for NIS ( Watersipora arcuata , Hydroides brachyacantha sensu lato and Saccostrea glomerata now present in the Western Mediterranean; Symplegma brakenhielmi , Stenothoe georgiana , Spirobranchus tertaceros sensu lato , Dendostrea folium sensu lato and Parasmittina egyptiaca now present in
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Douglas Vera
2016-04-01
Full Text Available En el litoral centro-sur peruano, los bancos naturales de recursos bentónicos de fondos dudros presentan una amplia biodiversidad, que incluyen un importante numero de especies de invertebrados y macroalgas de interes comercial. Estos son extraidos y recolectados por las comunidades de pescadores artesanales localizados en toda la costa de las regiones de Ica, Arequipa, Moquegua y Tacna. La sobrexplotacion del recurso Lessonia trabeculata pone en riesgo dos aspecto muy importantes: 1 se esta permitiendo que no haya una renovacion apropiada de las praderas naturales y 2se estaria afecntando a las comunidades del macrobentos. En este sentido se realizó un muestreo para determinar la diversidad de macrobentos que se encuentran asociada a esta macroalga. Se escogieron como zonas de muestreo 02 sectores (Lobo Fino y Brasural, en cada uno de los cuales se ubicaron 03 transectos con 03 estaciones (replicas, distribuidos en iontervalos de profundidad de: 5-10m, 10-15m y 15-20 m, obteniendo en total 18 muestras intradisco y 9 interdisco, en el mes de febrero del 2012. Se registraron un total de 5399 organismo agrupados en 71 especies distintas, identificandose 5369, correspondiendo 31 especies al Phylum Annelida con 1010 organismo, 17 a Mollusca con 2836 organismo, 15 a Crustácea con 869 organismo, 4 a Equinodermata con 596 organismo, 1 a Tunicata, 1 a Nemertea, 1 a Pycnogonida y 1 a la Ictofauna del sector. En la zona de Lobo Fino el 44,4% de los rizoides tuvieron una medida por debajo de los 20cm. como establece la normativa pasra permitir su extraccion, mientras que en la zona del Basural solo se registró el 11,1% que correspondia a un solo rizoide. La Riqueza de especies (S en las muestras intradisco vario entre 13 y 37 siendo las subestaciones P.3.2 Y P.3.3 en Lobo Fino con valores mas altos y la diversidad segun el indice de Shanoon - Wiener(H reflejó en los mismos puntos 2,68 y 2,68 bits/ind respectivamente, mientras en la muestras interdisco
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Douglas Vera
2015-10-01
it is allowing no proper renewal of natural pastures and 2 be affecting macrobenthic communities. The aim of this work was determined the effect of the removal Lessonia trabeculata on the richness and abundance of macrobenthos associated to algae in Marcona. Sampling in 02 sectors (Lobo Fino and Basural, in each 03 transects with 03 stations distributed in depth intervals were located was performed: 5-10 m, 10-15 m and 15-20 m, obtaining a total of 18 holdfasts as samples and 9 between disk. A total of 5399 organisms grouped in 71 different species were recorded, identifying 5369, corresponding to 31 species of Phylum Annelida, 17 to Mollusca, 15 to Crustacea, 4 to Equinodermata, 1 to Tunicata, 1 to Nemertea, 1 to the Pycnogonida and 1 to the ichthyofauna of the sector. The species richness (S on the discs varied between 13 and 37 being the P.3.2 and P.3.3 substations of Lobo Fino with higher values, while among the S evidenced between disks varies from 8 to 24, with higher registration of I.4 station of Basural. The cluster analysis performed with PRIMER 6.0 gives us the result that between the substations of Basural exists a similarity of 61% being B.4.3 substation which differs in one group the highest species richness of polychaetes and between substations of Lobo Fino to 62% L.1.1 and L.1.2 substations are separated by differences in diversity of molluscs and crustaceans.