Lycopodina nikitawimandi Ekins & Erpenbeck & Hooper 2020, sp. nov.

Lycopodina nikitawimandi sp. nov. Figures 27 & 28, Tables 14 & 16 urn:lsid:zoobank.org:act: F5AAEA15-DBAF-4A21-A2B9-E336733E613D Material examined : Holotype QM G337534 off Freycinet Peninsular, Tasman Sea, Station 11, Tasmania, Australia, 41° 43’ 14.5”S, 149° 7’ 30.7” E, 2793 m, Box Corer,...

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Main Authors:	Ekins, Merrick, Erpenbeck, Dirk, Hooper, John N. A.
Format:	Text
Language:	unknown
Published:	Zenodo 2020
Subjects:	Biodiversity Taxonomy Plantae Porifera Demospongiae Poecilosclerida Cladorhizidae Lycopodina Lycopodina nikitawimandi Southern Ocean Drake Passage McMurdo Sound Canada Pacific Indian Goodwin Merrick Holdfast Nikita Antarc* Antarctica
Online Access:	https://dx.doi.org/10.5281/zenodo.3846429 https://zenodo.org/record/3846429

id	ftdatacite:10.5281/zenodo.3846429
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 Plantae Porifera Demospongiae Poecilosclerida Cladorhizidae Lycopodina Lycopodina nikitawimandi
spellingShingle	Biodiversity Taxonomy Plantae Porifera Demospongiae Poecilosclerida Cladorhizidae Lycopodina Lycopodina nikitawimandi Ekins, Merrick Erpenbeck, Dirk Hooper, John N. A. Lycopodina nikitawimandi Ekins & Erpenbeck & Hooper 2020, sp. nov.
topic_facet	Biodiversity Taxonomy Plantae Porifera Demospongiae Poecilosclerida Cladorhizidae Lycopodina Lycopodina nikitawimandi
description	Lycopodina nikitawimandi sp. nov. Figures 27 & 28, Tables 14 & 16 urn:lsid:zoobank.org:act: F5AAEA15-DBAF-4A21-A2B9-E336733E613D Material examined : Holotype QM G337534 off Freycinet Peninsular, Tasman Sea, Station 11, Tasmania, Australia, 41° 43’ 14.5”S, 149° 7’ 30.7” E, 2793 m, Box Corer, Coll. Merrick Ekins on RV Investigator , Cruise IN2017_ V03, Sample 11-110.2, 19/v/2017, growing on a skeleton of a hexactinellid. Paratypes: QM G337510 same collection details and hexactinellid skeleton as for holotype, Sample 11-110.1; QM G337537 same collection details and hexactinellid skeleton as holotype, Sample 11-110.3; QM G337549 same collection details and hexactinellid skeleton as holotype, Sample 11-110.4; QM G337197 same collection details as holotype but on a different hexactinellid skeleton, Sample 11-120.1; QM G337514 off Central New South Wales, Tasman Sea, Station 89, New South Wales, Australia, 30° 15’ 47.9”– 30° 17’ 21.5” S, 153° 51’ 31.3”– 153° 50’ 37.7” E, 4436– 4414 m, Brenke Epibenthic Sledge, Coll. Merrick Ekins on RV Investigator , Cruise IN2017_ V03, Sample 89-129, 6/vi/2017, growing on worm tubes. Etymology : Named for the son of the first author, Nikita Wimandi Ekins. Distribution . Central East coast and central Tasmania, Tasman Sea, Australia, at bathyal to abyssal depths. Description: Growth form : This sponge is an erect stipitate sponge with filaments radiating in all directions projecting from the cylindrical stalk (Figures 27 A, 28 C). The body is 28 mm in length and 1–2 mm in width. The filaments are 2–3 mm in length and between 50–250 µm in width, and cover approximately 80% of the upper stem. The sponge has a spherical basal region of 3 mm diameter, with protruding smaller mycalostyles (Figure 28 F). This basal holdfast region grows within a hard or consolidated substrate. Many specimens appear to be a 2 dimensional feather due to damage sustained during collection. Colour : Pale cream on deck and in ethanol. Ectosomal skeleton : The ectosomal skeleton is thin and membranous and contains the anisochelae (Figure 28 E). Endosomal skeleton : The axis of the peduncle and the filaments consist of bundles of mycalostyles longitudinally arranged (Figure 28 D). Megascleres: Large mycalostyles only occurring in the main axis (1040–1910 x 12–37 µm, n=132) (Figure 27 C–D). Smaller mycalostyles consistent throughout the sponge including the filaments and basal holdfast (209–992 x 3–19 µm, n=250) (Figure 27 E–F) (see Table 16) * Most of the specimen disappeared off the SEM stub before the measurements of the large styles, which were present, could be made. Microscleres : Palmate anisochelae with the frontal upper alae nearly fully detached from the two lateral alae, and the three lower alae nearly completely fused to each other and the fimbria, with the frontal lower alae bearing three terminal spines and each of the lateral alae with two terminal spines (9–18 µm (length) x 2–6 µm (large alae width), 3–4 µm (small alae width), n=258) (Figure 27 B) (see Table 16). Molecular data: The 28 S sequences of QM G 337197 and QM G 337534 are provided in the Sponge Barcoding Database under accession numbers SBD#2304, SBD#2305 respectively and the molecular difference to other congenerics displayed in Figure 3. Remarks : Of the 29 described species of Lycopodina six have stipitate growth form, numerous large filaments along most of the stem, an enlarged basal attachment (where known), and only simple spiculation of styles or mycalostyles as structural megascleres, and palmate anisochelae as microscleres (Table 14). Lycopodina drakensis Goodwin, Berman, Downey & Hendry, 2017, also has forceps microscleres, and the shorter mycalostyles occur in the stem and the longest ones in the filaments, the opposite of those in L. nikitawimandi sp. nov . Lycopodina lycopodium (Levinsen, 1887) and L. occidentalis (Lambe, 1893) have a similar distribution of short and long styles in the stem, body, filaments and basal attachment, but these are generally smaller than those of the new species, and both species also have forceps microscleres. Lycopodina robusta (Levinsen, 1887) has significantly smaller styles and also possesses forceps, L. tendali Hestetun et al. , 2017 has larger styles that are uniformly distributed and forceps, and L. vaceleti (Van Soest & Baker, 2011) has similar mycalostyles in the stem as L. nikitawimandi sp. nov ., but also has a second category of smaller styles in the filaments and body, two categories of anisochelae, one of which has a unique sigma-like shape, and forceps microscleres (Table 14). : Published as part of Ekins, Merrick, Erpenbeck, Dirk & Hooper, John N. A., 2020, Carnivorous sponges from the Australian Bathyal and Abyssal zones collected during the RV Investigator 2017 Expedition, pp. 1-159 in Zootaxa 4774 (1) on pages 141-144, DOI: 10.11646/zootaxa.4774.1.1, http://zenodo.org/record/3825140 : {"references": ["Goodwin, C. E., Berman, J., Downey, R. V. & Hendry, K. R. (2017) Carnivorous sponges (Porifera: Demospongiae: Poecilosclerida: Cladorhizidae) from the Drake Passage (Southern Ocean) with a description of eight new species and a review of the family Cladorhizidae in the Southern Ocean. Invertebrate Systematics, 31 (1), 37 - 64. https: // doi. org / 10.1071 / IS 16020", "Levinsen, G. M. R. (1887) Kara-Havets Svampe (Porifera). Dijmphna-Togtets zoologisk-botaniske Udbytte, 1, 339 - 372, pls. XXIX-XXXI.", "Lambe, L. M. (1893 [1894]) Sponges from the Pacific coast of Canada. Proceedings and Transactions of the Royal Society of Canada, 11 (4), 25 - 43, pls. II-IV.", "Hestetun, J. T., Rapp, H. T. & Xavier, J. (2017 a) Carnivorous sponges (Porifera, Cladorhizidae) from the Southwest Indian Ocean Ridge seamounts. Deep Sea Research Part II: Topical Studies in Oceanography, 137, 166 - 189. https: // doi. org / 10.1016 / j. dsr 2.2016.03.004", "Van Soest, R. W. M. & Baker, B. J. (2011), A new carnivorous shallow-water sponge from McMurdo Sound, Antarctica (Porifera, Poecilosclerida). Marine Biodiversity, 41 (4), 495 - 501. https: // doi. org / 10.1007 / s 12526 - 010 - 0076 - 6"]}
format	Text
author	Ekins, Merrick Erpenbeck, Dirk Hooper, John N. A.
author_facet	Ekins, Merrick Erpenbeck, Dirk Hooper, John N. A.
author_sort	Ekins, Merrick
title	Lycopodina nikitawimandi Ekins & Erpenbeck & Hooper 2020, sp. nov.
title_short	Lycopodina nikitawimandi Ekins & Erpenbeck & Hooper 2020, sp. nov.
title_full	Lycopodina nikitawimandi Ekins & Erpenbeck & Hooper 2020, sp. nov.
title_fullStr	Lycopodina nikitawimandi Ekins & Erpenbeck & Hooper 2020, sp. nov.
title_full_unstemmed	Lycopodina nikitawimandi Ekins & Erpenbeck & Hooper 2020, sp. nov.
title_sort	lycopodina nikitawimandi ekins & erpenbeck & hooper 2020, sp. nov.
publisher	Zenodo
publishDate	2020
url	https://dx.doi.org/10.5281/zenodo.3846429 https://zenodo.org/record/3846429
long_lat	ENVELOPE(-62.833,-62.833,-65.100,-65.100) ENVELOPE(49.300,49.300,-67.700,-67.700) ENVELOPE(-66.590,-66.590,-66.803,-66.803) ENVELOPE(63.783,63.783,67.050,67.050)
geographic	Southern Ocean Drake Passage McMurdo Sound Canada Pacific Indian Goodwin Merrick Holdfast Nikita
geographic_facet	Southern Ocean Drake Passage McMurdo Sound Canada Pacific Indian Goodwin Merrick Holdfast Nikita
genre	Antarc* Antarctica Drake Passage McMurdo Sound Southern Ocean
genre_facet	Antarc* Antarctica Drake Passage McMurdo Sound Southern Ocean
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op_rights	Open Access info:eu-repo/semantics/openAccess
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spelling	ftdatacite:10.5281/zenodo.3846429 2023-05-15T14:00:05+02:00 Lycopodina nikitawimandi Ekins & Erpenbeck & Hooper 2020, sp. nov. Ekins, Merrick Erpenbeck, Dirk Hooper, John N. A. 2020 https://dx.doi.org/10.5281/zenodo.3846429 https://zenodo.org/record/3846429 unknown Zenodo http://zenodo.org/record/3825140 http://publication.plazi.org/id/FFEBFFCE914E3B18FFE9FFBBFFF8FF9D http://zoobank.org/B0C4A2F8-F2AB-4147-BB12-63720EEF2516 https://zenodo.org/communities/biosyslit https://dx.doi.org/10.11646/zootaxa.4774.1.1 http://zenodo.org/record/3825140 http://publication.plazi.org/id/FFEBFFCE914E3B18FFE9FFBBFFF8FF9D https://dx.doi.org/10.5281/zenodo.3825198 https://dx.doi.org/10.5281/zenodo.3825200 https://dx.doi.org/10.5281/zenodo.3825146 http://zoobank.org/B0C4A2F8-F2AB-4147-BB12-63720EEF2516 https://dx.doi.org/10.5281/zenodo.3846428 https://zenodo.org/communities/biosyslit Open Access info:eu-repo/semantics/openAccess Biodiversity Taxonomy Plantae Porifera Demospongiae Poecilosclerida Cladorhizidae Lycopodina Lycopodina nikitawimandi Text Taxonomic treatment article-journal ScholarlyArticle 2020 ftdatacite https://doi.org/10.5281/zenodo.3846429 https://doi.org/10.11646/zootaxa.4774.1.1 https://doi.org/10.5281/zenodo.3825198 https://doi.org/10.5281/zenodo.3825200 https://doi.org/10.5281/zenodo.3825146 https://doi.org/10.5281/zenodo.3846428 2021-11-05T12:55:41Z Lycopodina nikitawimandi sp. nov. Figures 27 & 28, Tables 14 & 16 urn:lsid:zoobank.org:act: F5AAEA15-DBAF-4A21-A2B9-E336733E613D Material examined : Holotype QM G337534 off Freycinet Peninsular, Tasman Sea, Station 11, Tasmania, Australia, 41° 43’ 14.5”S, 149° 7’ 30.7” E, 2793 m, Box Corer, Coll. Merrick Ekins on RV Investigator , Cruise IN2017_ V03, Sample 11-110.2, 19/v/2017, growing on a skeleton of a hexactinellid. Paratypes: QM G337510 same collection details and hexactinellid skeleton as for holotype, Sample 11-110.1; QM G337537 same collection details and hexactinellid skeleton as holotype, Sample 11-110.3; QM G337549 same collection details and hexactinellid skeleton as holotype, Sample 11-110.4; QM G337197 same collection details as holotype but on a different hexactinellid skeleton, Sample 11-120.1; QM G337514 off Central New South Wales, Tasman Sea, Station 89, New South Wales, Australia, 30° 15’ 47.9”– 30° 17’ 21.5” S, 153° 51’ 31.3”– 153° 50’ 37.7” E, 4436– 4414 m, Brenke Epibenthic Sledge, Coll. Merrick Ekins on RV Investigator , Cruise IN2017_ V03, Sample 89-129, 6/vi/2017, growing on worm tubes. Etymology : Named for the son of the first author, Nikita Wimandi Ekins. Distribution . Central East coast and central Tasmania, Tasman Sea, Australia, at bathyal to abyssal depths. Description: Growth form : This sponge is an erect stipitate sponge with filaments radiating in all directions projecting from the cylindrical stalk (Figures 27 A, 28 C). The body is 28 mm in length and 1–2 mm in width. The filaments are 2–3 mm in length and between 50–250 µm in width, and cover approximately 80% of the upper stem. The sponge has a spherical basal region of 3 mm diameter, with protruding smaller mycalostyles (Figure 28 F). This basal holdfast region grows within a hard or consolidated substrate. Many specimens appear to be a 2 dimensional feather due to damage sustained during collection. Colour : Pale cream on deck and in ethanol. Ectosomal skeleton : The ectosomal skeleton is thin and membranous and contains the anisochelae (Figure 28 E). Endosomal skeleton : The axis of the peduncle and the filaments consist of bundles of mycalostyles longitudinally arranged (Figure 28 D). Megascleres: Large mycalostyles only occurring in the main axis (1040–1910 x 12–37 µm, n=132) (Figure 27 C–D). Smaller mycalostyles consistent throughout the sponge including the filaments and basal holdfast (209–992 x 3–19 µm, n=250) (Figure 27 E–F) (see Table 16) * Most of the specimen disappeared off the SEM stub before the measurements of the large styles, which were present, could be made. Microscleres : Palmate anisochelae with the frontal upper alae nearly fully detached from the two lateral alae, and the three lower alae nearly completely fused to each other and the fimbria, with the frontal lower alae bearing three terminal spines and each of the lateral alae with two terminal spines (9–18 µm (length) x 2–6 µm (large alae width), 3–4 µm (small alae width), n=258) (Figure 27 B) (see Table 16). Molecular data: The 28 S sequences of QM G 337197 and QM G 337534 are provided in the Sponge Barcoding Database under accession numbers SBD#2304, SBD#2305 respectively and the molecular difference to other congenerics displayed in Figure 3. Remarks : Of the 29 described species of Lycopodina six have stipitate growth form, numerous large filaments along most of the stem, an enlarged basal attachment (where known), and only simple spiculation of styles or mycalostyles as structural megascleres, and palmate anisochelae as microscleres (Table 14). Lycopodina drakensis Goodwin, Berman, Downey & Hendry, 2017, also has forceps microscleres, and the shorter mycalostyles occur in the stem and the longest ones in the filaments, the opposite of those in L. nikitawimandi sp. nov . Lycopodina lycopodium (Levinsen, 1887) and L. occidentalis (Lambe, 1893) have a similar distribution of short and long styles in the stem, body, filaments and basal attachment, but these are generally smaller than those of the new species, and both species also have forceps microscleres. Lycopodina robusta (Levinsen, 1887) has significantly smaller styles and also possesses forceps, L. tendali Hestetun et al. , 2017 has larger styles that are uniformly distributed and forceps, and L. vaceleti (Van Soest & Baker, 2011) has similar mycalostyles in the stem as L. nikitawimandi sp. nov ., but also has a second category of smaller styles in the filaments and body, two categories of anisochelae, one of which has a unique sigma-like shape, and forceps microscleres (Table 14). : Published as part of Ekins, Merrick, Erpenbeck, Dirk & Hooper, John N. A., 2020, Carnivorous sponges from the Australian Bathyal and Abyssal zones collected during the RV Investigator 2017 Expedition, pp. 1-159 in Zootaxa 4774 (1) on pages 141-144, DOI: 10.11646/zootaxa.4774.1.1, http://zenodo.org/record/3825140 : {"references": ["Goodwin, C. E., Berman, J., Downey, R. V. & Hendry, K. R. (2017) Carnivorous sponges (Porifera: Demospongiae: Poecilosclerida: Cladorhizidae) from the Drake Passage (Southern Ocean) with a description of eight new species and a review of the family Cladorhizidae in the Southern Ocean. Invertebrate Systematics, 31 (1), 37 - 64. https: // doi. org / 10.1071 / IS 16020", "Levinsen, G. M. R. (1887) Kara-Havets Svampe (Porifera). Dijmphna-Togtets zoologisk-botaniske Udbytte, 1, 339 - 372, pls. XXIX-XXXI.", "Lambe, L. M. (1893 [1894]) Sponges from the Pacific coast of Canada. Proceedings and Transactions of the Royal Society of Canada, 11 (4), 25 - 43, pls. II-IV.", "Hestetun, J. T., Rapp, H. T. & Xavier, J. (2017 a) Carnivorous sponges (Porifera, Cladorhizidae) from the Southwest Indian Ocean Ridge seamounts. Deep Sea Research Part II: Topical Studies in Oceanography, 137, 166 - 189. https: // doi. org / 10.1016 / j. dsr 2.2016.03.004", "Van Soest, R. W. M. & Baker, B. J. (2011), A new carnivorous shallow-water sponge from McMurdo Sound, Antarctica (Porifera, Poecilosclerida). Marine Biodiversity, 41 (4), 495 - 501. https: // doi. org / 10.1007 / s 12526 - 010 - 0076 - 6"]} Text Antarc* Antarctica Drake Passage McMurdo Sound Southern Ocean DataCite Metadata Store (German National Library of Science and Technology) Southern Ocean Drake Passage McMurdo Sound Canada Pacific Indian Goodwin ENVELOPE(-62.833,-62.833,-65.100,-65.100) Merrick ENVELOPE(49.300,49.300,-67.700,-67.700) Holdfast ENVELOPE(-66.590,-66.590,-66.803,-66.803) Nikita ENVELOPE(63.783,63.783,67.050,67.050)

Lycopodina nikitawimandi Ekins & Erpenbeck & Hooper 2020, sp. nov.

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