Paraustrosimulium

The relationships of Paraustrosimulium and biogeographic considerations Evidence presented here and in accordance with most previous studies is that Paraustrosimulium , Cnesiamima , Austrosimulium and “ Cnephia ” pilfreyi all share an immediate common ancestry ( e.g ., Wygodzinsky & Coscarón, 19...

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Main Authors: Craig, Douglas A., Moulton, John K., Currie, Douglas C.
Format: Text
Language:unknown
Published: Zenodo 2017
Subjects:
Biodiversity
Taxonomy
Animalia
Arthropoda
Insecta
Diptera
Simuliidae
Paraustrosimulium
Antarctic
The Antarctic
Austral
Drake Passage
New Zealand
Currie
Antarc*
Antarctica
Online Access:https://dx.doi.org/10.5281/zenodo.6052673
https://zenodo.org/record/6052673
id ftdatacite:10.5281/zenodo.6052673
record_format openpolar
institution Open Polar
collection DataCite Metadata Store (German National Library of Science and Technology)
op_collection_id ftdatacite
language unknown
topic Biodiversity
Taxonomy
Animalia
Arthropoda
Insecta
Diptera
Simuliidae
Paraustrosimulium
spellingShingle Biodiversity
Taxonomy
Animalia
Arthropoda
Insecta
Diptera
Simuliidae
Paraustrosimulium
Craig, Douglas A.
Moulton, John K.
Currie, Douglas C.
Paraustrosimulium
topic_facet Biodiversity
Taxonomy
Animalia
Arthropoda
Insecta
Diptera
Simuliidae
Paraustrosimulium
description The relationships of Paraustrosimulium and biogeographic considerations Evidence presented here and in accordance with most previous studies is that Paraustrosimulium , Cnesiamima , Austrosimulium and “ Cnephia ” pilfreyi all share an immediate common ancestry ( e.g ., Wygodzinsky & Coscarón, 1972, Gil-Azevedo & Maia-Herzog 2007, Craig et al . 2012). This is somewhat at odds with Moulton’s (2003) comprehensive analysis of molecular data, in which Austrosimulium was placed as the sister group of all other simuliine genera analyzed—distantly removed from a strongly supported monophyletic lineage including “ Cnephia ” pilfreyi , Paraustrosimulium and “ Austrosimulium colboi ” (note that Cnesiamima was not among the taxa sampled in Moulton’s analysis). Whether the unexpected position of Austrosimulium was a product of long- branch attraction—as suggested by Gil-Azevedo & Maia-Herzog (2007), remains an open question. Monophyly of this clade of austral simuliids is supported by up to 4 synamporphies: viz . reduced abdominal armature in the pupa, hypostoma with ventral wall extended anteriorly to obscure teeth, larval antenna with distal antennomere markedly longer than the two proximal antennomeres combined (condition reversed in members of A. Novaustrosimulium ) and presence of interarm struts in anal sclerite (yet to be definitely confirmed in “ Cnephia ” pilfreyi. Monophyly of Paraustrosimulium , as currently defined, is supported by just one synapomorphy: namely, presence of markedly expressed cervical sclerites in the adults. Wygodzinsky & Coscarón (1973) established the monotypic genus Cnesiamima based solely on adults, but acknowledged the overall similarity of that segregate with Paraustrosimulium . Had the immature stages of Cnesiamima been known to those authors, as they are now, we wonder whether they would have described it as a separate genus. Nonetheless, the phylogenetic analysis of Gil-Azevedo & Maia-Herzog (2007) has Cnesiamima as the sister group of Paraustrosimulium + Austrosimulium —a reasonable placement based on available evidence. “ Cnephia ” pilfreyi wasn’t included in Gil- Azevedo & Maia-Herzog’s (2007) analysis, but Moulton’s (2003) molecular analysis placed that species in a trichotomy with Paraustrosimulium (as here defined) plus a cluster of northern Holarctic genera. More freshly collected material of “ C ” pilfreyi is needed to better understand its relationships with other members of this austral clade. In terms of relationships within Paraustrosimulium , it seems likely that P. anthracinum is the sister of P. obcidens and P. colboi together, supported, in part, by geography and shared pupal gill structure in the latter two species ( cf . Figs 26, 70, 112). Paraustrosimulium , Cnesiamima , Austrosimulium and “ Cnephia ” pilfreyi exhibit marked structural heterogeneity, and the relictual distribution of their members bespeaks a relatively early origin for their common ancestor. Separation of southern Western Australia and Antarctica was complete ca . 95 Mya (Rix et al . 2015). Given the morphological similarities between P. anthracinum and P. obcidens , plus a predilection for cooler water, a reasonable assumption is that that tectonic movement was the vicariant event separating their precursor. The last connection between South America and Antarctica was at 41–35 Mya, with formation of the Drake Passage. Final separation of Australia and Antarctica was ca . 32 Mya, well to the east, when Tasmania separated and the Antarctic Circum–Polar Current was established. A secondary vicariant event that probably separated the precursor of P. obcidens and P. colboi was the inundation of the Nullarbor Plain region by the Eromanga Sea at ca. 25 Mya. The Nullabor marine incursion did not end until ca . 14 Mya (Toussaint et al . 2016), followed by a mid–Miocene climatic optimum. We consider P. colboi to be the more derived taxon of the two Australian species. : Published as part of Craig, Douglas A., Moulton, John K. & Currie, Douglas C., 2017, Taxonomic revision of Paraustrosimulium Wygodzinsky & Coscarón: reassignment of Austrosimulium colboi and description of P. obcidens n. sp. from Western Australia, pp. 451-492 in Zootaxa 4337 (4) on pages 489-490, DOI: 10.11646/zootaxa.4337.4.1, http://zenodo.org/record/1051836 : {"references": ["Gil-Azevedo, L. H. & Maia-Herzog, M. (2007) Preliminary considerations on phylogeny of Simuliidae genera from Southern Hemisphere (Insecta, Diptera). Zootaxa, 1643, 39 - 68. Available from: http: // www. mapress. com / j / zt / article / view / 4215 (accessed 5 September 2017)", "Craig, D. A., Craig, R. E. G. & Crosby, T. K. (2012) Simuliidae (Insecta: Diptera). Fauna of New Zealand, 68, 1 - 336. Available from: https: // biotaxa. org / fnz / article / view / 1840 / 3116 (accessed 5 September 2017)", "Wygodzinsky, P. & Coscaron, S. (1973) A review of the Mesoamerican and South American black flies of the Tribe Prosimuliini (Simuliinae, Simuliidae). Bulletin of the American Museum of Natural History, 151, 129 - 200. Available from: http: // hdl. handle. net / 2246 / 598 (accessed 5 September 2017)", "Rix, M. G., Edwards, D. L., Byrne, M. & Harvey, M. S. (2015) Biogeography and speciation of terrestrial fauna in the south - western Australian biodiversity hotspot. Biological Reviews, 90, 762 - 793. https: // doi. org / 10.1111 / brv. 12132", "Toussaint, E. A., Hendrich, L., Escalona, H., Porch, N. & Balk, M. (2016) Evolutionary history of a secondary terrestrial Australian diving beetle (Coleoptera, Dytiscidae) reveals a lineage of high morphological and ecological plasticity. Systematic Entomology, 41, 650 - 657. https: // doi. org / 10.1111 / syen. 12182"]}
format Text
author Craig, Douglas A.
Moulton, John K.
Currie, Douglas C.
author_facet Craig, Douglas A.
Moulton, John K.
Currie, Douglas C.
author_sort Craig, Douglas A.
title Paraustrosimulium
title_short Paraustrosimulium
title_full Paraustrosimulium
title_fullStr Paraustrosimulium
title_full_unstemmed Paraustrosimulium
title_sort paraustrosimulium
publisher Zenodo
publishDate 2017
url https://dx.doi.org/10.5281/zenodo.6052673
https://zenodo.org/record/6052673
long_lat ENVELOPE(49.200,49.200,-67.700,-67.700)
geographic Antarctic
The Antarctic
Austral
Drake Passage
New Zealand
Currie
geographic_facet Antarctic
The Antarctic
Austral
Drake Passage
New Zealand
Currie
genre Antarc*
Antarctic
Antarctica
Drake Passage
genre_facet Antarc*
Antarctic
Antarctica
Drake Passage
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spelling ftdatacite:10.5281/zenodo.6052673 2023-05-15T13:47:13+02:00 Paraustrosimulium Craig, Douglas A. Moulton, John K. Currie, Douglas C. 2017 https://dx.doi.org/10.5281/zenodo.6052673 https://zenodo.org/record/6052673 unknown Zenodo http://zenodo.org/record/1051836 http://publication.plazi.org/id/6178FFB2FFF2FFEBAD615768FFCDB719 http://www.mapress.com/j/zt/article/view/4215 https://biotaxa.org/fnz/article/view/1840/3116 http://zoobank.org/BA7E7DE5-25C2-41BA-8642-9B429FDC5294 https://zenodo.org/communities/biosyslit https://dx.doi.org/10.11646/zootaxa.4337.4.1 http://zenodo.org/record/1051836 http://publication.plazi.org/id/6178FFB2FFF2FFEBAD615768FFCDB719 http://www.mapress.com/j/zt/article/view/4215 https://biotaxa.org/fnz/article/view/1840/3116 https://dx.doi.org/10.1111/brv.12132 https://dx.doi.org/10.1111/syen.12182 http://zoobank.org/BA7E7DE5-25C2-41BA-8642-9B429FDC5294 https://dx.doi.org/10.5281/zenodo.6052672 https://zenodo.org/communities/biosyslit Open Access Creative Commons Zero v1.0 Universal https://creativecommons.org/publicdomain/zero/1.0/legalcode cc0-1.0 info:eu-repo/semantics/openAccess CC0 Biodiversity Taxonomy Animalia Arthropoda Insecta Diptera Simuliidae Paraustrosimulium article-journal ScholarlyArticle Taxonomic treatment Text 2017 ftdatacite https://doi.org/10.5281/zenodo.6052673 https://doi.org/10.11646/zootaxa.4337.4.1 https://doi.org/10.1111/brv.12132 https://doi.org/10.1111/syen.12182 https://doi.org/10.5281/zenodo.6052672 2022-04-01T09:59:05Z The relationships of Paraustrosimulium and biogeographic considerations Evidence presented here and in accordance with most previous studies is that Paraustrosimulium , Cnesiamima , Austrosimulium and “ Cnephia ” pilfreyi all share an immediate common ancestry ( e.g ., Wygodzinsky & Coscarón, 1972, Gil-Azevedo & Maia-Herzog 2007, Craig et al . 2012). This is somewhat at odds with Moulton’s (2003) comprehensive analysis of molecular data, in which Austrosimulium was placed as the sister group of all other simuliine genera analyzed—distantly removed from a strongly supported monophyletic lineage including “ Cnephia ” pilfreyi , Paraustrosimulium and “ Austrosimulium colboi ” (note that Cnesiamima was not among the taxa sampled in Moulton’s analysis). Whether the unexpected position of Austrosimulium was a product of long- branch attraction—as suggested by Gil-Azevedo & Maia-Herzog (2007), remains an open question. Monophyly of this clade of austral simuliids is supported by up to 4 synamporphies: viz . reduced abdominal armature in the pupa, hypostoma with ventral wall extended anteriorly to obscure teeth, larval antenna with distal antennomere markedly longer than the two proximal antennomeres combined (condition reversed in members of A. Novaustrosimulium ) and presence of interarm struts in anal sclerite (yet to be definitely confirmed in “ Cnephia ” pilfreyi. Monophyly of Paraustrosimulium , as currently defined, is supported by just one synapomorphy: namely, presence of markedly expressed cervical sclerites in the adults. Wygodzinsky & Coscarón (1973) established the monotypic genus Cnesiamima based solely on adults, but acknowledged the overall similarity of that segregate with Paraustrosimulium . Had the immature stages of Cnesiamima been known to those authors, as they are now, we wonder whether they would have described it as a separate genus. Nonetheless, the phylogenetic analysis of Gil-Azevedo & Maia-Herzog (2007) has Cnesiamima as the sister group of Paraustrosimulium + Austrosimulium —a reasonable placement based on available evidence. “ Cnephia ” pilfreyi wasn’t included in Gil- Azevedo & Maia-Herzog’s (2007) analysis, but Moulton’s (2003) molecular analysis placed that species in a trichotomy with Paraustrosimulium (as here defined) plus a cluster of northern Holarctic genera. More freshly collected material of “ C ” pilfreyi is needed to better understand its relationships with other members of this austral clade. In terms of relationships within Paraustrosimulium , it seems likely that P. anthracinum is the sister of P. obcidens and P. colboi together, supported, in part, by geography and shared pupal gill structure in the latter two species ( cf . Figs 26, 70, 112). Paraustrosimulium , Cnesiamima , Austrosimulium and “ Cnephia ” pilfreyi exhibit marked structural heterogeneity, and the relictual distribution of their members bespeaks a relatively early origin for their common ancestor. Separation of southern Western Australia and Antarctica was complete ca . 95 Mya (Rix et al . 2015). Given the morphological similarities between P. anthracinum and P. obcidens , plus a predilection for cooler water, a reasonable assumption is that that tectonic movement was the vicariant event separating their precursor. The last connection between South America and Antarctica was at 41–35 Mya, with formation of the Drake Passage. Final separation of Australia and Antarctica was ca . 32 Mya, well to the east, when Tasmania separated and the Antarctic Circum–Polar Current was established. A secondary vicariant event that probably separated the precursor of P. obcidens and P. colboi was the inundation of the Nullarbor Plain region by the Eromanga Sea at ca. 25 Mya. The Nullabor marine incursion did not end until ca . 14 Mya (Toussaint et al . 2016), followed by a mid–Miocene climatic optimum. We consider P. colboi to be the more derived taxon of the two Australian species. : Published as part of Craig, Douglas A., Moulton, John K. & Currie, Douglas C., 2017, Taxonomic revision of Paraustrosimulium Wygodzinsky & Coscarón: reassignment of Austrosimulium colboi and description of P. obcidens n. sp. from Western Australia, pp. 451-492 in Zootaxa 4337 (4) on pages 489-490, DOI: 10.11646/zootaxa.4337.4.1, http://zenodo.org/record/1051836 : {"references": ["Gil-Azevedo, L. H. & Maia-Herzog, M. (2007) Preliminary considerations on phylogeny of Simuliidae genera from Southern Hemisphere (Insecta, Diptera). Zootaxa, 1643, 39 - 68. Available from: http: // www. mapress. com / j / zt / article / view / 4215 (accessed 5 September 2017)", "Craig, D. A., Craig, R. E. G. & Crosby, T. K. (2012) Simuliidae (Insecta: Diptera). Fauna of New Zealand, 68, 1 - 336. Available from: https: // biotaxa. org / fnz / article / view / 1840 / 3116 (accessed 5 September 2017)", "Wygodzinsky, P. & Coscaron, S. (1973) A review of the Mesoamerican and South American black flies of the Tribe Prosimuliini (Simuliinae, Simuliidae). Bulletin of the American Museum of Natural History, 151, 129 - 200. Available from: http: // hdl. handle. net / 2246 / 598 (accessed 5 September 2017)", "Rix, M. G., Edwards, D. L., Byrne, M. & Harvey, M. S. (2015) Biogeography and speciation of terrestrial fauna in the south - western Australian biodiversity hotspot. Biological Reviews, 90, 762 - 793. https: // doi. org / 10.1111 / brv. 12132", "Toussaint, E. A., Hendrich, L., Escalona, H., Porch, N. & Balk, M. (2016) Evolutionary history of a secondary terrestrial Australian diving beetle (Coleoptera, Dytiscidae) reveals a lineage of high morphological and ecological plasticity. Systematic Entomology, 41, 650 - 657. https: // doi. org / 10.1111 / syen. 12182"]} Text Antarc* Antarctic Antarctica Drake Passage DataCite Metadata Store (German National Library of Science and Technology) Antarctic The Antarctic Austral Drake Passage New Zealand Currie ENVELOPE(49.200,49.200,-67.700,-67.700)

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