Zygophylax niger Galea & Schuchert 2019, sp. nov.

Zygophylax niger Galea, sp. nov. urn:lsid:zoobank.org:act: 5ED994EF-6147-4508-9C5B-7DDF69E72D8C Figs 16 F–G, 19; Tables 13–14 Diagnosis Colonies flabellate, with much branched, heavily-fascicled stems. Division into internodes indistinct, but equivalents of internodes with a proximal cladial apophys...

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Main Authors: Galea, Horia R., Schuchert, Peter
Format: Text
Language:unknown
Published: Zenodo 2019
Subjects:
Biodiversity
Taxonomy
Animalia
Cnidaria
Hydrozoa
Leptothecata
Lafoeidae
Zygophylax
Zygophylax niger
Antarctic
Pacific
Indian
New Zealand
Briggs
Pena
Zaretskaya
Ritchie
Antarc*
Online Access:https://dx.doi.org/10.5281/zenodo.3475332
https://zenodo.org/record/3475332
id ftdatacite:10.5281/zenodo.3475332
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
Cnidaria
Hydrozoa
Leptothecata
Lafoeidae
Zygophylax
Zygophylax niger
spellingShingle Biodiversity
Taxonomy
Animalia
Cnidaria
Hydrozoa
Leptothecata
Lafoeidae
Zygophylax
Zygophylax niger
Galea, Horia R.
Schuchert, Peter
Zygophylax niger Galea & Schuchert 2019, sp. nov.
topic_facet Biodiversity
Taxonomy
Animalia
Cnidaria
Hydrozoa
Leptothecata
Lafoeidae
Zygophylax
Zygophylax niger
description Zygophylax niger Galea, sp. nov. urn:lsid:zoobank.org:act: 5ED994EF-6147-4508-9C5B-7DDF69E72D8C Figs 16 F–G, 19; Tables 13–14 Diagnosis Colonies flabellate, with much branched, heavily-fascicled stems. Division into internodes indistinct, but equivalents of internodes with a proximal cladial apophysis and its associated axillary hydrotheca, two alternate hydrothecae above, and a second cladial apophysis, given off on side opposite to the preceding one; hydrothecae long, tubular, with slightly everted, circular margin, tapering in lower third into long, proximally annulated pedicel. No nematothecae on the hydrothecal apophyses. Gonothecae aggregated into long masses of coppinia around the side branches, but neither fused, nor appressed against each other; long, tubular, walls slightly wrinkled, basally tapering into minute pedicel, distally truncate. Etymology From the Latin ‘ nĭgĕr ’, meaning ‘black’ or ‘dark’, to emphasize the color of its colonies. Material examined Holotype PACIFIC OCEAN • a fertile colony, 7.5 × 7.5 cm; off New Caledonia, stn DW4742; 22°53′ S, 167°37′ E; 290–345 m; 23 Aug. 2016; KANACONO leg.; MNHN-IK-2015-478. Paratype PACIFIC OCEAN • a fertile colony, 6.5 × 5 cm; off New Caledonia, stn DW4742; 22°53′ S, 167°37′ E; 290–345 m; 23 Aug. 2016; KANACONO leg.; MNHN-IK-2015-480. Additional material PACIFIC OCEAN • four colonies (of which the largest is 8 × 8.5 cm), as well as a few smaller fragments, all without gonothecae; off New Caledonia, stn DW4742; 22°53′ S, 167°37′ E; 290–345 m; 23 Aug. 2016; KANACONO leg.; a fragment from one colony was used for DNA extraction, DNA 1396; voucher MHNG-INVE- 120856; barcode identifier MK 073108; MNHN-IK-2015-481 • three colonies, 10.5 × 6 cm (now broken into three pieces, without gonothecae), 6.5 × 5 cm (fertile, now broken into two pieces) and 10.5 × 5.5 cm (now broken into three pieces, without gonothecae); off New Caledonia, stn CP4779; 23°02′ S, 168°17′ E; 270–293 m; 28 Aug. 2016; KANACONO leg.; a small fragment detached from one of these colonies was used for DNA extraction, DNA 1395; voucher MHNG- INVE- 120855; barcode identifier MK 073107; MNHN-IK-2015-479 • a colony fragment, 6.5× 4.5 cm, without gonothecae; off New Caledonia, stn CP4786; 22°46′ S, 167°42′ E; 350–469 m; 29 Aug. 2016; KANACONO leg.; MNHN-IK-2015-482. Description Colonies flabellate, up to 10.5 cm high, arising from root-like hydrorhiza, firmly attached to the substrate. Main stem branched irregularly, with up to 5 th order side branches; stem and branches heavily fascicled for most of their length, grading to monosiphonic distally; stems up to 3 mm thick basally. Perisarc dark in fascicled parts, brownish in monosiphonic ones. Stem divided into indistinct internodes with the following sequence: a prominent, proximal apophysis (supporting a cladium) and its associated axillary hydrotheca (itself borne on a short, distinct apophysis), followed by two alternate hydrothecae above (each borne on a short stem apophysis), and a second, distal, apophysis (supporting following cladium), together with its associated hydrotheca (itself borne on a stem apophysis). Cladia alternate, monosiphonic, divided through generally indistinct, slightly oblique nodes into moderately-long internodes bearing distally a short apophysis supporting a hydrotheca; apophyses alternate, coplanar; cladia with up to 13 hydrothecate internodes; first internode with a couple of spiral twists basally. Hydrothecae borne on relatively long pedicels, invariably annulated basally (usually two, but up to four annuli observed), but also distally (0–4 annuli), occasionally in middle. Hydrotheca cup-shaped, elongated, proximal ⅓ tapering gradually below, distal ⅔ tubular; aperture circular, rim slightly but distinctly everted, margin smooth; perisarc thin and smooth; hydrotheca delimited basally from pedicel by thin diaphragm. Hydranths with ca 16 filiform tentacles, with no caecum. Nematothecae absent throughout. Gonothecae grouped in certain parts of the colonies, but independent from each other (neither contiguous, nor fused), arising from accessory tubes of the side branches; long, tubular, slightly curved in middle part, tapering below, distally truncate, walls undulated, perisarc rather thick and dark brown. No nematophorous ramuli amongst the gonothecae. Remarks The gonosome of the new species shows striking resemblances to that of Z. polycarpa Vervoort & Watson, 2003, a species discovered from off Three Kings Island, New Zealand. Indeed, coppinia of both species are composed of loosely-packed, separate, elongated, tubular gonothecae, and are devoid of nematophorous structures. However, Z. polycarpa possesses sessile, and comparatively shorter and broader hydrothecae, not perfectly symmetrical, but rather convex, especially on adaxial side (Vervoort & Watson 2003). The differences to Z. niger sp. nov. of the congeners displaying both hydrothecae borne on long pedicels and separate, loosely-aggregated gonothecae, are summarized in Table 14. The trophosome of Z. tottoni Rees & Vervoort, 1987, a species from off Oman with a so far unknown gonosome, shows a few similarities to that of Z. niger sp. nov., notably the mode of branching of its stems, the shape of its hydrothecae, and the presence of rather long hydrothecal pedicels. However, the latter does not possess proximally the distinctive basal annuli, its hydrothecae are comparatively shorter and narrower, and there is one nematotheca on frontal side of each apophysis supporting a hydrotheca (Rees & Vervoort 1987). Distribution Only known from off New Caledonia (present study). Molecular study For 30 samples described in this study it was possible to obtain about 600 bp of the mitochondrial 16S gene sequence that could be compared in a maximum likelihood tree (Fig. 20). All sequences were initially compared to all GenBank sequences using BlastN (Johnson et al . 2008). This allowed to control whether each new sequence was, indeed, of hydrozoan origin, and concomitantly identified closelyrelated sequences that proved important for subsequent comparisons. A total of 90 sequences were thus aligned and used to determine the optimal probabilistic model of sequence evolution, as well as to make the phylogenetic analyses. The optimal substitution model suggested was GTR+I+G. There was no need to remove regions with uncertain alignments, as there were few such regions, and their exclusion did not alter the results significantly. The resulting maximum likelihood tree has numerous unresolved basal nodes, but several families appear in well supported clades (> 70% bootstrap support: Syntheciidae, Symplectoscyphidae, Lafoeidae, Sertularellidae, Staurothecidae, and Zygophylacidae). The family Sertulariidae sensu Maronna et al. (2016) appears also as clade, but with insufficient bootstrap support (58%). Taxonomically noteworthy results are as follows: - two species of Caledoniana and two of Solenoscyphus are more closely-related to the Staurothecidae than to Sertulariidae. Only Solenoscyphus decidualis mapped outside the Solenoscyphus and Staurothecidae clades, but without any supported relationship to other taxa; - Billardia hyalina and B. subrufa (Jäderholm, 1904) (FN424117) are deeply embedded in the well supported Syntheciidae clade; - the four Hincksella species dealt with herein do not group into a common clade, but are scattered over the whole tree. The type species of the genus ( H. sibogae see Totton 1930) associates with Zygophylax , but the node support is not significant; - Dictyocladium reticulatum clusters with the Symplectoscyphidae; - Symplectoscyphus acutustriatus sp. nov. is deeply embedded in the clade Sertularellidae and not in Symplectoscyphidae, the parent taxon of the genus Symplectoscyphus. : Published as part of Galea, Horia R. & Schuchert, Peter, 2019, Some thecate hydroids (Cnidaria: Hydrozoa) from off New Caledonia collected during KANACONO and KANADEEP expeditions of the French Tropical Deep-Sea Benthos Program, pp. 1-70 in European Journal of Taxonomy 562 on pages 56-61, DOI: 10.5852/ejt.2019.562, http://zenodo.org/record/3474305 : {"references": ["Vervoort W. & Watson J. E. 2003. The marine fauna of New Zealand: Leptothecata (Cnidaria: Hydrozoa) (thecate hydroids). NIWA Biodiversity Memoir 119: 1 - 538.", "Stechow E. 1926. Einige neue Hydroiden aus verschiedenen Meeresgebieten. Zoologischer Anzeiger 68 (3 - 4): 96 - 108.", "Rees W. J. & Vervoort W. 1987. Hydroids from the John Murray expedition to the Indian Ocean, with revisory notes on Hydrodendron, Abietinella, Cryptolaria and Zygophylax (Cnidaria: Hydrozoa). Zoologische Verhandelingen 237: 1 - 209.", "Billard A. 1942. Note sur une nouvelle espece et une nouvelle variete de Zygophylax (hydroides). Bulletin de la Societe zoologique de France 67: 34 - 36.", "Ritchie J. 1911. Scientific results of the trawling expedition of H. M. C. S. \" Thetis, \" off the coast of New South Wales, in February and March, 1898, Hydrozoa (Hydroid Zoophytes and Stylasterina). Memoirs of the Australian Museum 4 (16): 807 - 869. https: // doi. org / 10.3853 / j. 0067 - 1967.4.1911.1512", "Briggs E. A. 1922. Description of the coppinia of an Australian hydroid. Australian Zoologist 2 (4): 148 - 150.", "Allman G. J. 1877. Report on the Hydroida collected during the exploration of the Gulf Stream by L. F. de Pourtales, Assistant United States Coast Survey. Memoirs of the Museum of Comparative Zoology at Harvard College 5 (2): 1 - 66. https: // doi. org / 10.5962 / bhl. title. 10420", "Hirohito, Emperor of Japan. 1995. The Hydroids of Sagami Bay. II. Thecata. Publications of the Biological Laboratory: 1 - 244. Imperial Household, Tokyo.", "Ramil F. & Vervoort W. 1992. Report on the Hydroida collected by the \" BALGIM \" expedition in and around the Strait of Gibraltar. Zoologische Verhandelingen 277: 1 - 262.", "Millard N. A. H. 1958. Hydrozoa from the coasts of Natal and Portuguese East Africa. Part I. Calyptoblastea. Annals of the South African Museum 44 (5): 165 - 226.", "Millard N. A. H. 1980. The South African Museum's Meiring Naude cruises. Part 11. Hydroida. Annals of the South African Museum 82 (4): 129 - 153.", "Cornelius P. F. S. 1995. North-west European thecate hydroids and their medusae. Part 2. Sertulariidae to Campanulariidae. Synopses of the British Fauna 50: 1 - 386.", "Schuchert P. 2015. On some hydroids (Cnidaria, Hydrozoa) from the Okinawa Islands, Japan. Revue suisse de Zoologie 122 (2): 325 - 370. https: // doi. org / 10.5281 / zenodo. 30004", "Jaderholm E. 1919. Zur Kenntnis der Hydroidenfauna Japans. Arkiv for Zoologi 12 (9): 1 - 34.", "Totton A. K. 1930. Coelenterata. Part V. Hydroida. Natural History Report of the British Antarctic (\" Terra Nova \") Expedition, 1910. Zoology 5 (5): 131 - 252.", "Johnson M., Zaretskaya I., Raytselis Y., Merezhuk Y., McGinnis S. & Madden T. L. 2008. NCBI BLAST: a better web interface. Nucleic Acids Research 36: W 5 - W 9.", "Maronna M. M., Miranda T. P., Pena Cantero A. L., Barbeitos M. S. & Marques A. C. 2016. Towards a phylogenetic classification of Leptothecata (Cnidaria, Hydrozoa). Nature, Scientific Reports 6: 18075. https: // doi. org / 10.1038 / srep 18075"]}
format Text
author Galea, Horia R.
Schuchert, Peter
author_facet Galea, Horia R.
Schuchert, Peter
author_sort Galea, Horia R.
title Zygophylax niger Galea & Schuchert 2019, sp. nov.
title_short Zygophylax niger Galea & Schuchert 2019, sp. nov.
title_full Zygophylax niger Galea & Schuchert 2019, sp. nov.
title_fullStr Zygophylax niger Galea & Schuchert 2019, sp. nov.
title_full_unstemmed Zygophylax niger Galea & Schuchert 2019, sp. nov.
title_sort zygophylax niger galea & schuchert 2019, sp. nov.
publisher Zenodo
publishDate 2019
url https://dx.doi.org/10.5281/zenodo.3475332
https://zenodo.org/record/3475332
long_lat ENVELOPE(-63.017,-63.017,-64.517,-64.517)
ENVELOPE(40.562,40.562,63.490,63.490)
ENVELOPE(41.296,41.296,62.885,62.885)
ENVELOPE(-128.387,-128.387,54.916,54.916)
geographic Antarctic
Pacific
Indian
New Zealand
Briggs
Pena
Zaretskaya
Ritchie
geographic_facet Antarctic
Pacific
Indian
New Zealand
Briggs
Pena
Zaretskaya
Ritchie
genre Antarc*
Antarctic
genre_facet Antarc*
Antarctic
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Creative Commons Zero v1.0 Universal
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op_doi https://doi.org/10.5281/zenodo.3475332
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spelling ftdatacite:10.5281/zenodo.3475332 2023-05-15T14:03:20+02:00 Zygophylax niger Galea & Schuchert 2019, sp. nov. Galea, Horia R. Schuchert, Peter 2019 https://dx.doi.org/10.5281/zenodo.3475332 https://zenodo.org/record/3475332 unknown Zenodo http://zenodo.org/record/3474305 http://publication.plazi.org/id/FFF9AA2EAD4E6123FFD5A44F5B5CFFB2 http://zoobank.org/6567F621-7A92-4D1A-8902-A1E76325AF94 https://zenodo.org/communities/biosyslit https://dx.doi.org/10.5852/ejt.2019.562 http://zenodo.org/record/3474305 http://publication.plazi.org/id/FFF9AA2EAD4E6123FFD5A44F5B5CFFB2 https://dx.doi.org/10.5281/zenodo.3474337 https://dx.doi.org/10.5281/zenodo.3474345 http://zoobank.org/6567F621-7A92-4D1A-8902-A1E76325AF94 https://dx.doi.org/10.5281/zenodo.3475333 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 Cnidaria Hydrozoa Leptothecata Lafoeidae Zygophylax Zygophylax niger Text Taxonomic treatment article-journal ScholarlyArticle 2019 ftdatacite https://doi.org/10.5281/zenodo.3475332 https://doi.org/10.5852/ejt.2019.562 https://doi.org/10.5281/zenodo.3474337 https://doi.org/10.5281/zenodo.3474345 https://doi.org/10.5281/zenodo.3475333 2021-11-05T12:55:41Z Zygophylax niger Galea, sp. nov. urn:lsid:zoobank.org:act: 5ED994EF-6147-4508-9C5B-7DDF69E72D8C Figs 16 F–G, 19; Tables 13–14 Diagnosis Colonies flabellate, with much branched, heavily-fascicled stems. Division into internodes indistinct, but equivalents of internodes with a proximal cladial apophysis and its associated axillary hydrotheca, two alternate hydrothecae above, and a second cladial apophysis, given off on side opposite to the preceding one; hydrothecae long, tubular, with slightly everted, circular margin, tapering in lower third into long, proximally annulated pedicel. No nematothecae on the hydrothecal apophyses. Gonothecae aggregated into long masses of coppinia around the side branches, but neither fused, nor appressed against each other; long, tubular, walls slightly wrinkled, basally tapering into minute pedicel, distally truncate. Etymology From the Latin ‘ nĭgĕr ’, meaning ‘black’ or ‘dark’, to emphasize the color of its colonies. Material examined Holotype PACIFIC OCEAN • a fertile colony, 7.5 × 7.5 cm; off New Caledonia, stn DW4742; 22°53′ S, 167°37′ E; 290–345 m; 23 Aug. 2016; KANACONO leg.; MNHN-IK-2015-478. Paratype PACIFIC OCEAN • a fertile colony, 6.5 × 5 cm; off New Caledonia, stn DW4742; 22°53′ S, 167°37′ E; 290–345 m; 23 Aug. 2016; KANACONO leg.; MNHN-IK-2015-480. Additional material PACIFIC OCEAN • four colonies (of which the largest is 8 × 8.5 cm), as well as a few smaller fragments, all without gonothecae; off New Caledonia, stn DW4742; 22°53′ S, 167°37′ E; 290–345 m; 23 Aug. 2016; KANACONO leg.; a fragment from one colony was used for DNA extraction, DNA 1396; voucher MHNG-INVE- 120856; barcode identifier MK 073108; MNHN-IK-2015-481 • three colonies, 10.5 × 6 cm (now broken into three pieces, without gonothecae), 6.5 × 5 cm (fertile, now broken into two pieces) and 10.5 × 5.5 cm (now broken into three pieces, without gonothecae); off New Caledonia, stn CP4779; 23°02′ S, 168°17′ E; 270–293 m; 28 Aug. 2016; KANACONO leg.; a small fragment detached from one of these colonies was used for DNA extraction, DNA 1395; voucher MHNG- INVE- 120855; barcode identifier MK 073107; MNHN-IK-2015-479 • a colony fragment, 6.5× 4.5 cm, without gonothecae; off New Caledonia, stn CP4786; 22°46′ S, 167°42′ E; 350–469 m; 29 Aug. 2016; KANACONO leg.; MNHN-IK-2015-482. Description Colonies flabellate, up to 10.5 cm high, arising from root-like hydrorhiza, firmly attached to the substrate. Main stem branched irregularly, with up to 5 th order side branches; stem and branches heavily fascicled for most of their length, grading to monosiphonic distally; stems up to 3 mm thick basally. Perisarc dark in fascicled parts, brownish in monosiphonic ones. Stem divided into indistinct internodes with the following sequence: a prominent, proximal apophysis (supporting a cladium) and its associated axillary hydrotheca (itself borne on a short, distinct apophysis), followed by two alternate hydrothecae above (each borne on a short stem apophysis), and a second, distal, apophysis (supporting following cladium), together with its associated hydrotheca (itself borne on a stem apophysis). Cladia alternate, monosiphonic, divided through generally indistinct, slightly oblique nodes into moderately-long internodes bearing distally a short apophysis supporting a hydrotheca; apophyses alternate, coplanar; cladia with up to 13 hydrothecate internodes; first internode with a couple of spiral twists basally. Hydrothecae borne on relatively long pedicels, invariably annulated basally (usually two, but up to four annuli observed), but also distally (0–4 annuli), occasionally in middle. Hydrotheca cup-shaped, elongated, proximal ⅓ tapering gradually below, distal ⅔ tubular; aperture circular, rim slightly but distinctly everted, margin smooth; perisarc thin and smooth; hydrotheca delimited basally from pedicel by thin diaphragm. Hydranths with ca 16 filiform tentacles, with no caecum. Nematothecae absent throughout. Gonothecae grouped in certain parts of the colonies, but independent from each other (neither contiguous, nor fused), arising from accessory tubes of the side branches; long, tubular, slightly curved in middle part, tapering below, distally truncate, walls undulated, perisarc rather thick and dark brown. No nematophorous ramuli amongst the gonothecae. Remarks The gonosome of the new species shows striking resemblances to that of Z. polycarpa Vervoort & Watson, 2003, a species discovered from off Three Kings Island, New Zealand. Indeed, coppinia of both species are composed of loosely-packed, separate, elongated, tubular gonothecae, and are devoid of nematophorous structures. However, Z. polycarpa possesses sessile, and comparatively shorter and broader hydrothecae, not perfectly symmetrical, but rather convex, especially on adaxial side (Vervoort & Watson 2003). The differences to Z. niger sp. nov. of the congeners displaying both hydrothecae borne on long pedicels and separate, loosely-aggregated gonothecae, are summarized in Table 14. The trophosome of Z. tottoni Rees & Vervoort, 1987, a species from off Oman with a so far unknown gonosome, shows a few similarities to that of Z. niger sp. nov., notably the mode of branching of its stems, the shape of its hydrothecae, and the presence of rather long hydrothecal pedicels. However, the latter does not possess proximally the distinctive basal annuli, its hydrothecae are comparatively shorter and narrower, and there is one nematotheca on frontal side of each apophysis supporting a hydrotheca (Rees & Vervoort 1987). Distribution Only known from off New Caledonia (present study). Molecular study For 30 samples described in this study it was possible to obtain about 600 bp of the mitochondrial 16S gene sequence that could be compared in a maximum likelihood tree (Fig. 20). All sequences were initially compared to all GenBank sequences using BlastN (Johnson et al . 2008). This allowed to control whether each new sequence was, indeed, of hydrozoan origin, and concomitantly identified closelyrelated sequences that proved important for subsequent comparisons. A total of 90 sequences were thus aligned and used to determine the optimal probabilistic model of sequence evolution, as well as to make the phylogenetic analyses. The optimal substitution model suggested was GTR+I+G. There was no need to remove regions with uncertain alignments, as there were few such regions, and their exclusion did not alter the results significantly. The resulting maximum likelihood tree has numerous unresolved basal nodes, but several families appear in well supported clades (> 70% bootstrap support: Syntheciidae, Symplectoscyphidae, Lafoeidae, Sertularellidae, Staurothecidae, and Zygophylacidae). The family Sertulariidae sensu Maronna et al. (2016) appears also as clade, but with insufficient bootstrap support (58%). Taxonomically noteworthy results are as follows: - two species of Caledoniana and two of Solenoscyphus are more closely-related to the Staurothecidae than to Sertulariidae. Only Solenoscyphus decidualis mapped outside the Solenoscyphus and Staurothecidae clades, but without any supported relationship to other taxa; - Billardia hyalina and B. subrufa (Jäderholm, 1904) (FN424117) are deeply embedded in the well supported Syntheciidae clade; - the four Hincksella species dealt with herein do not group into a common clade, but are scattered over the whole tree. The type species of the genus ( H. sibogae see Totton 1930) associates with Zygophylax , but the node support is not significant; - Dictyocladium reticulatum clusters with the Symplectoscyphidae; - Symplectoscyphus acutustriatus sp. nov. is deeply embedded in the clade Sertularellidae and not in Symplectoscyphidae, the parent taxon of the genus Symplectoscyphus. : Published as part of Galea, Horia R. & Schuchert, Peter, 2019, Some thecate hydroids (Cnidaria: Hydrozoa) from off New Caledonia collected during KANACONO and KANADEEP expeditions of the French Tropical Deep-Sea Benthos Program, pp. 1-70 in European Journal of Taxonomy 562 on pages 56-61, DOI: 10.5852/ejt.2019.562, http://zenodo.org/record/3474305 : {"references": ["Vervoort W. & Watson J. E. 2003. The marine fauna of New Zealand: Leptothecata (Cnidaria: Hydrozoa) (thecate hydroids). NIWA Biodiversity Memoir 119: 1 - 538.", "Stechow E. 1926. Einige neue Hydroiden aus verschiedenen Meeresgebieten. Zoologischer Anzeiger 68 (3 - 4): 96 - 108.", "Rees W. J. & Vervoort W. 1987. Hydroids from the John Murray expedition to the Indian Ocean, with revisory notes on Hydrodendron, Abietinella, Cryptolaria and Zygophylax (Cnidaria: Hydrozoa). Zoologische Verhandelingen 237: 1 - 209.", "Billard A. 1942. Note sur une nouvelle espece et une nouvelle variete de Zygophylax (hydroides). Bulletin de la Societe zoologique de France 67: 34 - 36.", "Ritchie J. 1911. Scientific results of the trawling expedition of H. M. C. S. \" Thetis, \" off the coast of New South Wales, in February and March, 1898, Hydrozoa (Hydroid Zoophytes and Stylasterina). Memoirs of the Australian Museum 4 (16): 807 - 869. https: // doi. org / 10.3853 / j. 0067 - 1967.4.1911.1512", "Briggs E. A. 1922. Description of the coppinia of an Australian hydroid. Australian Zoologist 2 (4): 148 - 150.", "Allman G. J. 1877. Report on the Hydroida collected during the exploration of the Gulf Stream by L. F. de Pourtales, Assistant United States Coast Survey. Memoirs of the Museum of Comparative Zoology at Harvard College 5 (2): 1 - 66. https: // doi. org / 10.5962 / bhl. title. 10420", "Hirohito, Emperor of Japan. 1995. The Hydroids of Sagami Bay. II. Thecata. Publications of the Biological Laboratory: 1 - 244. Imperial Household, Tokyo.", "Ramil F. & Vervoort W. 1992. Report on the Hydroida collected by the \" BALGIM \" expedition in and around the Strait of Gibraltar. Zoologische Verhandelingen 277: 1 - 262.", "Millard N. A. H. 1958. Hydrozoa from the coasts of Natal and Portuguese East Africa. Part I. Calyptoblastea. Annals of the South African Museum 44 (5): 165 - 226.", "Millard N. A. H. 1980. The South African Museum's Meiring Naude cruises. Part 11. Hydroida. Annals of the South African Museum 82 (4): 129 - 153.", "Cornelius P. F. S. 1995. North-west European thecate hydroids and their medusae. Part 2. Sertulariidae to Campanulariidae. 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Nature, Scientific Reports 6: 18075. https: // doi. org / 10.1038 / srep 18075"]} Text Antarc* Antarctic DataCite Metadata Store (German National Library of Science and Technology) Antarctic Pacific Indian New Zealand Briggs ENVELOPE(-63.017,-63.017,-64.517,-64.517) Pena ENVELOPE(40.562,40.562,63.490,63.490) Zaretskaya ENVELOPE(41.296,41.296,62.885,62.885) Ritchie ENVELOPE(-128.387,-128.387,54.916,54.916)

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