Caulophacus palmeri Goodwin, Berman, Janussen, Göcke & Hendry, 2016, sp. nov.

Caulophacus palmeri sp. nov. Note: We have followed Boury-Esnault et al. 2014 who, due to molecular phylogenetic evidence, transferred the genus Caulophacus from Rossellinae to Languinellinae. They emend Tabachnick’s (2002) definition of Languninellinae as ‘ Rossellidae with strobiloplumicomes or if...

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Main Authors: Goodwin, Claire E., Berman, Jade, Janussen, Dorte, Göcke, Christian, Hendry, Katharine R.
Format: Text
Language:unknown
Published: Zenodo 2016
Subjects:
Online Access:https://dx.doi.org/10.5281/zenodo.6055950
https://zenodo.org/record/6055950
id ftdatacite:10.5281/zenodo.6055950
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
Porifera
Hexactinellida
Lyssacinosida
Rossellidae
Caulophacus
Caulophacus palmeri
spellingShingle Biodiversity
Taxonomy
Animalia
Porifera
Hexactinellida
Lyssacinosida
Rossellidae
Caulophacus
Caulophacus palmeri
Goodwin, Claire E.
Berman, Jade
Janussen, Dorte
Göcke, Christian
Hendry, Katharine R.
Caulophacus palmeri Goodwin, Berman, Janussen, Göcke & Hendry, 2016, sp. nov.
topic_facet Biodiversity
Taxonomy
Animalia
Porifera
Hexactinellida
Lyssacinosida
Rossellidae
Caulophacus
Caulophacus palmeri
description Caulophacus palmeri sp. nov. Note: We have followed Boury-Esnault et al. 2014 who, due to molecular phylogenetic evidence, transferred the genus Caulophacus from Rossellinae to Languinellinae. They emend Tabachnick’s (2002) definition of Languninellinae as ‘ Rossellidae with strobiloplumicomes or if these are absent the concerned group(s) share so many morphological characters with a group bearing strobiloplumicomes that their common ancestry with loss of that spicule is most parsimonious…’. Type material. MNHNCL POR_ 15001. Dried sample, small sub-sample rehydrated with Decon– 90, tissue section and spicule preparation on slides. Sub-sample of above deposited as BELUM.Mc 2015.176 (spicule slide only). Cruise sample number NBP 1103 –DH 59 –sponge03. 20 th May 2011 Shackleton Fracture Zone, 60 ° 32.25 ’S, 56 ° 49.07 ’W, 1810–1820m, Hein Dredge. Etymology. Named after the research vessel Nathaniel B Palmer which in turn is named after the merchant mariner and ship builder Nathaniel Brown Palmer (8 th August 1799 – 21 st June 1877) who was amongst the first people to discover Antarctica. External appearance (Figure 5 A). Hispid cream-coloured sponge with bulbous mushroom-like top and narrow stalk. The width of the top is 25mm and height 14mm, the stalk is 4mm maximum diameter. Preserved appearance: Delicately hispid pale peach lump with firm texture and distinct but not detachable, slightly hispid, dermal surface. Skeleton. The specimen has been poorly preserved (dried then rehydrated) and skeletal structure is hard to see clearly. Confused choanosomal skeleton of diactines and non-pinnular hexactines. Hypodermal layer of pentactines and pinular hexactines with pinular ray facing outwards. Atrial layer of pinular hexactines. Microscleres are present throughout tissue. Spicules. Choanosomal diactins with rounded, slightly tylote, spined ends and a small central swelling. 903 – (1517)– 3502 by 9.3 –(18.4)– 33.8 µm (Figure 5 B). Some larger examples were also present but as these broke in both the section and spicule preparations it was not possible to measure them. Choanosomal hexactins:Tangential ray 304 –(614)– 851 µm, proximal ray 310 –(724)– 988 µm, distal ray 304 – (592)– 892 µm. Hypodermal spicules are pentactins (Figure 5 C) and hexactins (Figure 5 D) with spined tips. Proximal ray 476 – (761)– 1541 µm, tangential ray 241 –(310)– 421 µm. Pinular hexactins (Figure 5 E). Dermal pinular hexactin: Pinular ray 167 –(187)– 203 by 15.9 –(28.6)– 40.1 µm, proximal ray 69 –(77)– 87 by 7.4 –(8.5)– 11.5 µm, tangential ray 61.8 –(74.1)– 88.2 by 6.3 –(8.3)– 12 µm. Atrial pinular hexactin: Pinular ray 118 –(164)– 193 by 20.1 –(28.3)– 47.4 µm, proximal ray 33 –(73)– 98 by 5.4 –(8.6)– 12.6 µm, tangential ray 55.2 –(68.3)– 81.6 by 6.4 –(8.1)– 11.3 µm. Discohexactins (Figure 5 F). Ray length: 55 –(63)– 79 µm, total diameter 116 –(135)– 169 µm, centrum diameter 5.0–(8.3)– 11.2 µm. Diagnosis. Caulophacus is defined as a stalked fungus or cup–like Rossellidae with pinular hexactine dermalia and atrialia (Tabachnick 2002). The four sub-genera which are included in the genus are defined by the type of microscleres present: Caulophacus (Caulodiscus) Ijima, 1927 has microscleres with various terminations (discoidal, onychoidal, oxyoidal); Caulophacus (Caulophacus) Schulze, 1885 has mainly discoidal microscleres; Caulophacus (Oxydiscus) Janussen, Tabachnick & Tendal, 2004 has numerous oxyhexasters, discohexasters may also be present and Caulophacus (Caulophacella) Lendenfeld, 1915 has microscleres with exclusively oxyoidal endings. (Janussen et al. 2004). This specimen possesses only discoidal microscleres and consequently is assigned to Caulophacus (Caulophacus) . There are 20 currently valid species of Caulophacus (Caulophacus) of which ten species have been recorded from the Southern Ocean and surrounding areas (Table 4). The majority of these possess discohexaster as well as discohexactin microscleres; the only species which do not are C. basispinosus Levi 1964 and C. galatheae Levi 1964. However, both of these species have oxy-tipped microscleres which are not present in our specimen. : Published as part of Goodwin, Claire E., Berman, Jade, Janussen, Dorte, Göcke, Christian & Hendry, Katharine R., 2016, Hexactinellida (Porifera) from the Drake Passage (Southern Ocean) with a description of three new species, pp. 207-220 in Zootaxa 4126 (2) on pages 215-216, DOI: 10.11646/zootaxa.4126.2.2, http://zenodo.org/record/267371 : {"references": ["Boury-Esnault, N., Vacelet, J., Reiswig, H. M., Fourt, M., Aguilar, R. & Chevaldonne, P. (2014) Mediterranean hexactinellid sponges, with the description of a new Sympagella species (Porifera, Hexactinellida). Journal of the Marine Biological Association of the United Kingdom, 1 - 12. http: // dx. doi. org / 10.1017 / S 0025315414001891", "Tabachnick, K. R. (2002) Family Rossellidae Schulze, 1885. In: Hooper, J. N. A. & Van Soest, R. W. M. (Eds.), Systema Porifera. A guide to the classification of sponges. Kluwer Academic / Plenum Publishers, New York, Boston, Dordrecht, London, Moscow, pp. 1441 - 1505. http: // dx. doi. org / 10.1007 / 978 - 1 - 4615 - 0747 - 5 _ 148", "Janussen, D., Tabachnick, K. R. & Tendal, O. S. (2004) Deep - sea Hexactinellida (Porifera) of the Weddell Sea. Deep Sea Research Part II: Topical Studies in Oceanography, 51, 1857 - 1882. http: // dx. doi. org / 10.1016 / j. dsr 2.2004.07.018", "Lendenfeld, R. Von (1915) The Sponges. 3. Hexactinellida Reports on the Scientific Results of the Expedition to the Eastern Tropical Pacific, in charge of Alexander Agassiz, by the U. S. Fish Commission Steamer ' Albatross', from October, 1904, to March, 1905, Lieut. Commander L. M. Garrett, U. S. N., Commanding, and of other expeditions of the ' Albatross', 1891 - 1899 (29). Memoirs of the Museum of Comparative Zoology at Harvard College, 42, 1 - 396.", "Levi, C. 1964. Spongiaires des zones bathyale, abyssale et hadale. Galathea Report. Scientific Results of The Danish Deep - Sea Expedition Round the World, 1950 - 52, 7, 63 - 112."]}
format Text
author Goodwin, Claire E.
Berman, Jade
Janussen, Dorte
Göcke, Christian
Hendry, Katharine R.
author_facet Goodwin, Claire E.
Berman, Jade
Janussen, Dorte
Göcke, Christian
Hendry, Katharine R.
author_sort Goodwin, Claire E.
title Caulophacus palmeri Goodwin, Berman, Janussen, Göcke & Hendry, 2016, sp. nov.
title_short Caulophacus palmeri Goodwin, Berman, Janussen, Göcke & Hendry, 2016, sp. nov.
title_full Caulophacus palmeri Goodwin, Berman, Janussen, Göcke & Hendry, 2016, sp. nov.
title_fullStr Caulophacus palmeri Goodwin, Berman, Janussen, Göcke & Hendry, 2016, sp. nov.
title_full_unstemmed Caulophacus palmeri Goodwin, Berman, Janussen, Göcke & Hendry, 2016, sp. nov.
title_sort caulophacus palmeri goodwin, berman, janussen, göcke & hendry, 2016, sp. nov.
publisher Zenodo
publishDate 2016
url https://dx.doi.org/10.5281/zenodo.6055950
https://zenodo.org/record/6055950
long_lat ENVELOPE(-62.833,-62.833,-65.100,-65.100)
ENVELOPE(-60.000,-60.000,-60.000,-60.000)
geographic Drake Passage
Goodwin
Pacific
Shackleton
Shackleton Fracture Zone
Southern Ocean
Weddell
Weddell Sea
geographic_facet Drake Passage
Goodwin
Pacific
Shackleton
Shackleton Fracture Zone
Southern Ocean
Weddell
Weddell Sea
genre Antarc*
Antarctica
Drake Passage
Southern Ocean
Weddell Sea
genre_facet Antarc*
Antarctica
Drake Passage
Southern Ocean
Weddell Sea
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spelling ftdatacite:10.5281/zenodo.6055950 2023-05-15T14:04:05+02:00 Caulophacus palmeri Goodwin, Berman, Janussen, Göcke & Hendry, 2016, sp. nov. Goodwin, Claire E. Berman, Jade Janussen, Dorte Göcke, Christian Hendry, Katharine R. 2016 https://dx.doi.org/10.5281/zenodo.6055950 https://zenodo.org/record/6055950 unknown Zenodo http://zenodo.org/record/267371 http://publication.plazi.org/id/FFECFFBDF73DFFD2FFB3FFAA0C199A18 http://zoobank.org/98FA0737-A117-487E-920F-BB03BC89D376 https://zenodo.org/communities/biosyslit https://dx.doi.org/10.11646/zootaxa.4126.2.2 http://zenodo.org/record/267371 http://publication.plazi.org/id/FFECFFBDF73DFFD2FFB3FFAA0C199A18 https://dx.doi.org/10.5281/zenodo.267376 http://zoobank.org/98FA0737-A117-487E-920F-BB03BC89D376 https://dx.doi.org/10.5281/zenodo.6055949 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 Porifera Hexactinellida Lyssacinosida Rossellidae Caulophacus Caulophacus palmeri article-journal ScholarlyArticle Taxonomic treatment Text 2016 ftdatacite https://doi.org/10.5281/zenodo.6055950 https://doi.org/10.11646/zootaxa.4126.2.2 https://doi.org/10.5281/zenodo.267376 https://doi.org/10.5281/zenodo.6055949 2022-04-01T10:01:03Z Caulophacus palmeri sp. nov. Note: We have followed Boury-Esnault et al. 2014 who, due to molecular phylogenetic evidence, transferred the genus Caulophacus from Rossellinae to Languinellinae. They emend Tabachnick’s (2002) definition of Languninellinae as ‘ Rossellidae with strobiloplumicomes or if these are absent the concerned group(s) share so many morphological characters with a group bearing strobiloplumicomes that their common ancestry with loss of that spicule is most parsimonious…’. Type material. MNHNCL POR_ 15001. Dried sample, small sub-sample rehydrated with Decon– 90, tissue section and spicule preparation on slides. Sub-sample of above deposited as BELUM.Mc 2015.176 (spicule slide only). Cruise sample number NBP 1103 –DH 59 –sponge03. 20 th May 2011 Shackleton Fracture Zone, 60 ° 32.25 ’S, 56 ° 49.07 ’W, 1810–1820m, Hein Dredge. Etymology. Named after the research vessel Nathaniel B Palmer which in turn is named after the merchant mariner and ship builder Nathaniel Brown Palmer (8 th August 1799 – 21 st June 1877) who was amongst the first people to discover Antarctica. External appearance (Figure 5 A). Hispid cream-coloured sponge with bulbous mushroom-like top and narrow stalk. The width of the top is 25mm and height 14mm, the stalk is 4mm maximum diameter. Preserved appearance: Delicately hispid pale peach lump with firm texture and distinct but not detachable, slightly hispid, dermal surface. Skeleton. The specimen has been poorly preserved (dried then rehydrated) and skeletal structure is hard to see clearly. Confused choanosomal skeleton of diactines and non-pinnular hexactines. Hypodermal layer of pentactines and pinular hexactines with pinular ray facing outwards. Atrial layer of pinular hexactines. Microscleres are present throughout tissue. Spicules. Choanosomal diactins with rounded, slightly tylote, spined ends and a small central swelling. 903 – (1517)– 3502 by 9.3 –(18.4)– 33.8 µm (Figure 5 B). Some larger examples were also present but as these broke in both the section and spicule preparations it was not possible to measure them. Choanosomal hexactins:Tangential ray 304 –(614)– 851 µm, proximal ray 310 –(724)– 988 µm, distal ray 304 – (592)– 892 µm. Hypodermal spicules are pentactins (Figure 5 C) and hexactins (Figure 5 D) with spined tips. Proximal ray 476 – (761)– 1541 µm, tangential ray 241 –(310)– 421 µm. Pinular hexactins (Figure 5 E). Dermal pinular hexactin: Pinular ray 167 –(187)– 203 by 15.9 –(28.6)– 40.1 µm, proximal ray 69 –(77)– 87 by 7.4 –(8.5)– 11.5 µm, tangential ray 61.8 –(74.1)– 88.2 by 6.3 –(8.3)– 12 µm. Atrial pinular hexactin: Pinular ray 118 –(164)– 193 by 20.1 –(28.3)– 47.4 µm, proximal ray 33 –(73)– 98 by 5.4 –(8.6)– 12.6 µm, tangential ray 55.2 –(68.3)– 81.6 by 6.4 –(8.1)– 11.3 µm. Discohexactins (Figure 5 F). Ray length: 55 –(63)– 79 µm, total diameter 116 –(135)– 169 µm, centrum diameter 5.0–(8.3)– 11.2 µm. Diagnosis. Caulophacus is defined as a stalked fungus or cup–like Rossellidae with pinular hexactine dermalia and atrialia (Tabachnick 2002). The four sub-genera which are included in the genus are defined by the type of microscleres present: Caulophacus (Caulodiscus) Ijima, 1927 has microscleres with various terminations (discoidal, onychoidal, oxyoidal); Caulophacus (Caulophacus) Schulze, 1885 has mainly discoidal microscleres; Caulophacus (Oxydiscus) Janussen, Tabachnick & Tendal, 2004 has numerous oxyhexasters, discohexasters may also be present and Caulophacus (Caulophacella) Lendenfeld, 1915 has microscleres with exclusively oxyoidal endings. (Janussen et al. 2004). This specimen possesses only discoidal microscleres and consequently is assigned to Caulophacus (Caulophacus) . There are 20 currently valid species of Caulophacus (Caulophacus) of which ten species have been recorded from the Southern Ocean and surrounding areas (Table 4). The majority of these possess discohexaster as well as discohexactin microscleres; the only species which do not are C. basispinosus Levi 1964 and C. galatheae Levi 1964. However, both of these species have oxy-tipped microscleres which are not present in our specimen. : Published as part of Goodwin, Claire E., Berman, Jade, Janussen, Dorte, Göcke, Christian & Hendry, Katharine R., 2016, Hexactinellida (Porifera) from the Drake Passage (Southern Ocean) with a description of three new species, pp. 207-220 in Zootaxa 4126 (2) on pages 215-216, DOI: 10.11646/zootaxa.4126.2.2, http://zenodo.org/record/267371 : {"references": ["Boury-Esnault, N., Vacelet, J., Reiswig, H. M., Fourt, M., Aguilar, R. & Chevaldonne, P. (2014) Mediterranean hexactinellid sponges, with the description of a new Sympagella species (Porifera, Hexactinellida). Journal of the Marine Biological Association of the United Kingdom, 1 - 12. http: // dx. doi. org / 10.1017 / S 0025315414001891", "Tabachnick, K. R. (2002) Family Rossellidae Schulze, 1885. In: Hooper, J. N. A. & Van Soest, R. W. M. (Eds.), Systema Porifera. A guide to the classification of sponges. Kluwer Academic / Plenum Publishers, New York, Boston, Dordrecht, London, Moscow, pp. 1441 - 1505. http: // dx. doi. org / 10.1007 / 978 - 1 - 4615 - 0747 - 5 _ 148", "Janussen, D., Tabachnick, K. R. & Tendal, O. S. (2004) Deep - sea Hexactinellida (Porifera) of the Weddell Sea. Deep Sea Research Part II: Topical Studies in Oceanography, 51, 1857 - 1882. http: // dx. doi. org / 10.1016 / j. dsr 2.2004.07.018", "Lendenfeld, R. Von (1915) The Sponges. 3. Hexactinellida Reports on the Scientific Results of the Expedition to the Eastern Tropical Pacific, in charge of Alexander Agassiz, by the U. S. Fish Commission Steamer ' Albatross', from October, 1904, to March, 1905, Lieut. Commander L. M. Garrett, U. S. N., Commanding, and of other expeditions of the ' Albatross', 1891 - 1899 (29). Memoirs of the Museum of Comparative Zoology at Harvard College, 42, 1 - 396.", "Levi, C. 1964. Spongiaires des zones bathyale, abyssale et hadale. Galathea Report. Scientific Results of The Danish Deep - Sea Expedition Round the World, 1950 - 52, 7, 63 - 112."]} Text Antarc* Antarctica Drake Passage Southern Ocean Weddell Sea DataCite Metadata Store (German National Library of Science and Technology) Drake Passage Goodwin ENVELOPE(-62.833,-62.833,-65.100,-65.100) Pacific Shackleton Shackleton Fracture Zone ENVELOPE(-60.000,-60.000,-60.000,-60.000) Southern Ocean Weddell Weddell Sea