Lycopodina hystrix Ekins & Erpenbeck & Goudie & Hooper 2020, sp. nov.

Lycopodina hystrix sp. nov. urn:lsid:zoobank.org:act: 0D895565-2580-4D22-9916-22BA8FD4BECE Lycopodina sp. 1, Ekins, Erpenbeck & Hooper, 2020: Table 14. Material Examined: Holotype: SAMA S2599, Yatala Canyon, Commonwealth Marine Reserve, Great Australian Bight, South Australia, VSM 02, 34 o 47’ 5...

Full description

Bibliographic Details
Main Authors: Ekins, Merrick, Erpenbeck, Dirk, Goudie, Lisa, Hooper, John N. A.
Format: Text
Language:unknown
Published: Zenodo 2020
Subjects:
Biodiversity
Taxonomy
Animalia
Porifera
Demospongiae
Poecilosclerida
Cladorhizidae
Lycopodina
Lycopodina hystrix
Southern Ocean
Drake Passage
Canada
Pacific
Goodwin
Merrick
Helios
Antarc*
Antarctica
Online Access:https://dx.doi.org/10.5281/zenodo.4570956
https://zenodo.org/record/4570956
id ftdatacite:10.5281/zenodo.4570956
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
Demospongiae
Poecilosclerida
Cladorhizidae
Lycopodina
Lycopodina hystrix
spellingShingle Biodiversity
Taxonomy
Animalia
Porifera
Demospongiae
Poecilosclerida
Cladorhizidae
Lycopodina
Lycopodina hystrix
Ekins, Merrick
Erpenbeck, Dirk
Goudie, Lisa
Hooper, John N. A.
Lycopodina hystrix Ekins & Erpenbeck & Goudie & Hooper 2020, sp. nov.
topic_facet Biodiversity
Taxonomy
Animalia
Porifera
Demospongiae
Poecilosclerida
Cladorhizidae
Lycopodina
Lycopodina hystrix
description Lycopodina hystrix sp. nov. urn:lsid:zoobank.org:act: 0D895565-2580-4D22-9916-22BA8FD4BECE Lycopodina sp. 1, Ekins, Erpenbeck & Hooper, 2020: Table 14. Material Examined: Holotype: SAMA S2599, Yatala Canyon, Commonwealth Marine Reserve, Great Australian Bight, South Australia, VSM 02, 34 o 47’ 57” S 131 o 45’ 20” E, 1393 m, Remotely Operated Vehicle (ROV), Coll. CSIRO on RV Rem Etive, Cruise RE2017 _ CO1, Sample VSM02 _014_105, 17 March 2017. Paratype: SAMA S2600 same collection data as SAMA S2599, Sample VSM02 _014_106, 17 March 2017. Paratype: SAMA S3559 same collection data as SAMA S2599, Sample VSM02 _014_105.1, 17 March 2017. Distribution : Endemic to the Great Australian Bight, South Australia, bathyal depth. Etymology : L. hystrix, porcupine, named for its spiky appearance. Description. Growth form : Erect, clavate-shaped body, with a very hispid array of filaments arising at all angles from the body, supported by a short stem and disc-shaped basal attachment (Fig. 7 A). The holotype, SAMA S2599, measures 18 mm in total length, with the sponge body 6 mm diameter, 9 mm long, and 3.4 mm in depth. The filaments extend for at least 4.5 mm from the body. Paratype SAMA S3559 is attached to a piece of Madrepora oculata Linnaeus, 1758, and has a total length of 7 mm, with the remains of the body only 2 mm in length, and the filaments extend 2 mm away from the body. Paratype SAMA S2600 has a total length of 10 mm, body 2 mm wide, 6 mm long and external filaments of almost 3 mm. Colour : On-deck the body, stem, basal disc and base of the filaments were white, with the tips of the filaments appearing to have red and orange colouring, mostly due to detritus. After preservation in ethanol the sponges were cream in colour. Ectosomal skeleton : A thin membranous ectosome covers all of the sponge, with anisochelae found only in the ectosome of the main body. Endosomal skeleton : The skeleton consists of several bundles of longitudinal styles forming the central axis. These extend from the base of the stem to the top of the sponge body (Fig. 7 N–O). At right angles to the core bundles are very long filaments several times longer than the width of the body. These consist of styles not only at right angles to the body but also buttressed by styles at an acute angle to the filaments (Fig. 7 O). The basal attachment has echinating styles extending through the ectosome (Figure 7 P). Megascleres: Megascleres consist of five categories of styles-tylostyles. Mycalostyles 1 of the body, filaments and stem have long tapering points and gradually tapering bases, with the thickest part of the spicule approximately one third towards the basal end. Oxeote styles 2 are nearly anisoxeote, with the basal end rapidly tapering to nearly a point. Styles echinating the base of the stem and basal disc range from small tylostyles 3, small styles 4, large, thin styles 5, and in one specimen only strongyles (see Table 3). Microscleres : The microscleres consist of a single size class of palmate anisochelae and forceps. The anisochelae has a single upper large frontal alae nearly completely detached from the two lateral alae which are completely fused to the shaft, and two smaller lower alae nearly completely fused. The lower alae also has three blunt teeth with a central dominant tooth, and the other small alae directly behind it has four blunt teeth, arranged in pairs of unequal sizes. Chelae are 10.5–16 µm long. Forceps ribbon-shaped with tight central curvature expanding out to wider curvature approximately one third along the basal end, dimensions 30–51 x 3–11 µm (see Table 3). Rare sigmancistras 9–13 x 0.1–1.3 µm (see Table 3). Molecular data: We were unable to obtain sufficient material for DNA analysis. Remarks : Amongst the fifteen current species of Lycopodina that have forceps (see Ekins, Erpenbeck & Hoop- er 2020), this new species is closest to L. occidentalis (Lambe, 1893) from the Pacific coast of Canada in skeletal structure with multiple axial bundles, having different morphologies of styles localised to different regions of the sponge, and the size of anisochelae and forceps. However, L. hystrix sp. nov. has a very different clavate morphology than the stipitate L. occidentalis , and different megasclere geometries. With the exclusion of the forceps this species otherwise resembles the descriptions of L. callithrix (Hentschel, 1914) from Antarctica as redescribed by Goodwin et al . (2017), although this new species has a distinct ectosomal skeleton, differentiated spicule localisation, and lacks the very long 2–4 mm styles/subtylostyles that characterise L. callithrix. The new species also differs from L. helios Ekins, Erpenbeck & Hooper, 2020 by possession of forceps, being at least twice its size, having an elongated shaped body, and most obviously by the concentrated radial spikes, which in L. hystrix sp. nov. are easily the size of the body, whilst those of L. helios , only just emerge slightly from the ectosome of the body. : Published as part of Ekins, Merrick, Erpenbeck, Dirk, Goudie, Lisa & Hooper, John N. A., 2020, New carnivorous sponges and allied species from the Great Australian Bight, pp. 240-266 in Zootaxa 4878 (2) on page 252, DOI: 10.11646/zootaxa.4878.2.2, http://zenodo.org/record/4424977 : {"references": ["Ekins, M., Erpenbeck, D. & Hooper, J. N. A. (2020) Carnivorous sponges from the Australian Bathyal and Abyssal zones collected during the RV Investigator 2017 Expedition. Zootaxa, 4774 (1), 1 - 159. https: // doi. org / 10.11646 / zootaxa. 4774.1.1", "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.", "Hentschel, E. (1914) Monaxone Kieselschwamme und Hornschwamme der Deutschen Sudpolar-Expedition 1901 - 1903. Deutsche Sudpolar-Expedition, 15 (1), 35 - 141, pls. IV-VIII.", "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"]}
format Text
author Ekins, Merrick
Erpenbeck, Dirk
Goudie, Lisa
Hooper, John N. A.
author_facet Ekins, Merrick
Erpenbeck, Dirk
Goudie, Lisa
Hooper, John N. A.
author_sort Ekins, Merrick
title Lycopodina hystrix Ekins & Erpenbeck & Goudie & Hooper 2020, sp. nov.
title_short Lycopodina hystrix Ekins & Erpenbeck & Goudie & Hooper 2020, sp. nov.
title_full Lycopodina hystrix Ekins & Erpenbeck & Goudie & Hooper 2020, sp. nov.
title_fullStr Lycopodina hystrix Ekins & Erpenbeck & Goudie & Hooper 2020, sp. nov.
title_full_unstemmed Lycopodina hystrix Ekins & Erpenbeck & Goudie & Hooper 2020, sp. nov.
title_sort lycopodina hystrix ekins & erpenbeck & goudie & hooper 2020, sp. nov.
publisher Zenodo
publishDate 2020
url https://dx.doi.org/10.5281/zenodo.4570956
https://zenodo.org/record/4570956
long_lat ENVELOPE(-62.833,-62.833,-65.100,-65.100)
ENVELOPE(49.300,49.300,-67.700,-67.700)
ENVELOPE(162.317,162.317,-77.450,-77.450)
geographic Southern Ocean
Drake Passage
Canada
Pacific
Goodwin
Merrick
Helios
geographic_facet Southern Ocean
Drake Passage
Canada
Pacific
Goodwin
Merrick
Helios
genre Antarc*
Antarctica
Drake Passage
Southern Ocean
genre_facet Antarc*
Antarctica
Drake Passage
Southern Ocean
op_relation http://zenodo.org/record/4424977
http://publication.plazi.org/id/FFD39A38FF8EFF8C4309FF8CFFEC7122
http://zoobank.org/111A9D05-860F-4917-A466-A44847B2D650
https://zenodo.org/communities/biosyslit
https://dx.doi.org/10.11646/zootaxa.4878.2.2
http://zenodo.org/record/4424977
http://publication.plazi.org/id/FFD39A38FF8EFF8C4309FF8CFFEC7122
https://dx.doi.org/10.5281/zenodo.4424991
http://zoobank.org/111A9D05-860F-4917-A466-A44847B2D650
https://dx.doi.org/10.5281/zenodo.4570957
https://zenodo.org/communities/biosyslit
op_rights Open Access
info:eu-repo/semantics/openAccess
op_doi https://doi.org/10.5281/zenodo.4570956
https://doi.org/10.11646/zootaxa.4878.2.2
https://doi.org/10.5281/zenodo.4424991
https://doi.org/10.5281/zenodo.4570957
_version_ 1766270280140849152
spelling ftdatacite:10.5281/zenodo.4570956 2023-05-15T14:00:53+02:00 Lycopodina hystrix Ekins & Erpenbeck & Goudie & Hooper 2020, sp. nov. Ekins, Merrick Erpenbeck, Dirk Goudie, Lisa Hooper, John N. A. 2020 https://dx.doi.org/10.5281/zenodo.4570956 https://zenodo.org/record/4570956 unknown Zenodo http://zenodo.org/record/4424977 http://publication.plazi.org/id/FFD39A38FF8EFF8C4309FF8CFFEC7122 http://zoobank.org/111A9D05-860F-4917-A466-A44847B2D650 https://zenodo.org/communities/biosyslit https://dx.doi.org/10.11646/zootaxa.4878.2.2 http://zenodo.org/record/4424977 http://publication.plazi.org/id/FFD39A38FF8EFF8C4309FF8CFFEC7122 https://dx.doi.org/10.5281/zenodo.4424991 http://zoobank.org/111A9D05-860F-4917-A466-A44847B2D650 https://dx.doi.org/10.5281/zenodo.4570957 https://zenodo.org/communities/biosyslit Open Access info:eu-repo/semantics/openAccess Biodiversity Taxonomy Animalia Porifera Demospongiae Poecilosclerida Cladorhizidae Lycopodina Lycopodina hystrix Text Taxonomic treatment article-journal ScholarlyArticle 2020 ftdatacite https://doi.org/10.5281/zenodo.4570956 https://doi.org/10.11646/zootaxa.4878.2.2 https://doi.org/10.5281/zenodo.4424991 https://doi.org/10.5281/zenodo.4570957 2021-11-05T12:55:41Z Lycopodina hystrix sp. nov. urn:lsid:zoobank.org:act: 0D895565-2580-4D22-9916-22BA8FD4BECE Lycopodina sp. 1, Ekins, Erpenbeck & Hooper, 2020: Table 14. Material Examined: Holotype: SAMA S2599, Yatala Canyon, Commonwealth Marine Reserve, Great Australian Bight, South Australia, VSM 02, 34 o 47’ 57” S 131 o 45’ 20” E, 1393 m, Remotely Operated Vehicle (ROV), Coll. CSIRO on RV Rem Etive, Cruise RE2017 _ CO1, Sample VSM02 _014_105, 17 March 2017. Paratype: SAMA S2600 same collection data as SAMA S2599, Sample VSM02 _014_106, 17 March 2017. Paratype: SAMA S3559 same collection data as SAMA S2599, Sample VSM02 _014_105.1, 17 March 2017. Distribution : Endemic to the Great Australian Bight, South Australia, bathyal depth. Etymology : L. hystrix, porcupine, named for its spiky appearance. Description. Growth form : Erect, clavate-shaped body, with a very hispid array of filaments arising at all angles from the body, supported by a short stem and disc-shaped basal attachment (Fig. 7 A). The holotype, SAMA S2599, measures 18 mm in total length, with the sponge body 6 mm diameter, 9 mm long, and 3.4 mm in depth. The filaments extend for at least 4.5 mm from the body. Paratype SAMA S3559 is attached to a piece of Madrepora oculata Linnaeus, 1758, and has a total length of 7 mm, with the remains of the body only 2 mm in length, and the filaments extend 2 mm away from the body. Paratype SAMA S2600 has a total length of 10 mm, body 2 mm wide, 6 mm long and external filaments of almost 3 mm. Colour : On-deck the body, stem, basal disc and base of the filaments were white, with the tips of the filaments appearing to have red and orange colouring, mostly due to detritus. After preservation in ethanol the sponges were cream in colour. Ectosomal skeleton : A thin membranous ectosome covers all of the sponge, with anisochelae found only in the ectosome of the main body. Endosomal skeleton : The skeleton consists of several bundles of longitudinal styles forming the central axis. These extend from the base of the stem to the top of the sponge body (Fig. 7 N–O). At right angles to the core bundles are very long filaments several times longer than the width of the body. These consist of styles not only at right angles to the body but also buttressed by styles at an acute angle to the filaments (Fig. 7 O). The basal attachment has echinating styles extending through the ectosome (Figure 7 P). Megascleres: Megascleres consist of five categories of styles-tylostyles. Mycalostyles 1 of the body, filaments and stem have long tapering points and gradually tapering bases, with the thickest part of the spicule approximately one third towards the basal end. Oxeote styles 2 are nearly anisoxeote, with the basal end rapidly tapering to nearly a point. Styles echinating the base of the stem and basal disc range from small tylostyles 3, small styles 4, large, thin styles 5, and in one specimen only strongyles (see Table 3). Microscleres : The microscleres consist of a single size class of palmate anisochelae and forceps. The anisochelae has a single upper large frontal alae nearly completely detached from the two lateral alae which are completely fused to the shaft, and two smaller lower alae nearly completely fused. The lower alae also has three blunt teeth with a central dominant tooth, and the other small alae directly behind it has four blunt teeth, arranged in pairs of unequal sizes. Chelae are 10.5–16 µm long. Forceps ribbon-shaped with tight central curvature expanding out to wider curvature approximately one third along the basal end, dimensions 30–51 x 3–11 µm (see Table 3). Rare sigmancistras 9–13 x 0.1–1.3 µm (see Table 3). Molecular data: We were unable to obtain sufficient material for DNA analysis. Remarks : Amongst the fifteen current species of Lycopodina that have forceps (see Ekins, Erpenbeck & Hoop- er 2020), this new species is closest to L. occidentalis (Lambe, 1893) from the Pacific coast of Canada in skeletal structure with multiple axial bundles, having different morphologies of styles localised to different regions of the sponge, and the size of anisochelae and forceps. However, L. hystrix sp. nov. has a very different clavate morphology than the stipitate L. occidentalis , and different megasclere geometries. With the exclusion of the forceps this species otherwise resembles the descriptions of L. callithrix (Hentschel, 1914) from Antarctica as redescribed by Goodwin et al . (2017), although this new species has a distinct ectosomal skeleton, differentiated spicule localisation, and lacks the very long 2–4 mm styles/subtylostyles that characterise L. callithrix. The new species also differs from L. helios Ekins, Erpenbeck & Hooper, 2020 by possession of forceps, being at least twice its size, having an elongated shaped body, and most obviously by the concentrated radial spikes, which in L. hystrix sp. nov. are easily the size of the body, whilst those of L. helios , only just emerge slightly from the ectosome of the body. : Published as part of Ekins, Merrick, Erpenbeck, Dirk, Goudie, Lisa & Hooper, John N. A., 2020, New carnivorous sponges and allied species from the Great Australian Bight, pp. 240-266 in Zootaxa 4878 (2) on page 252, DOI: 10.11646/zootaxa.4878.2.2, http://zenodo.org/record/4424977 : {"references": ["Ekins, M., Erpenbeck, D. & Hooper, J. N. A. (2020) Carnivorous sponges from the Australian Bathyal and Abyssal zones collected during the RV Investigator 2017 Expedition. Zootaxa, 4774 (1), 1 - 159. https: // doi. org / 10.11646 / zootaxa. 4774.1.1", "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.", "Hentschel, E. (1914) Monaxone Kieselschwamme und Hornschwamme der Deutschen Sudpolar-Expedition 1901 - 1903. Deutsche Sudpolar-Expedition, 15 (1), 35 - 141, pls. IV-VIII.", "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"]} Text Antarc* Antarctica Drake Passage Southern Ocean DataCite Metadata Store (German National Library of Science and Technology) Southern Ocean Drake Passage Canada Pacific Goodwin ENVELOPE(-62.833,-62.833,-65.100,-65.100) Merrick ENVELOPE(49.300,49.300,-67.700,-67.700) Helios ENVELOPE(162.317,162.317,-77.450,-77.450)

Similar Items