Acryptolaria angulata

Acryptolaria angulata (Bale, 1914) (Figs 1; 30; 31A; Table 2) Cryptolaria angulata Bale, 1914: 166, 167, pl. 35, fig. 1; 1915: 251. — Stranks 1993: 7. Acryptolaria angulata – Schuchert 2003: 155, 156, fig. 14. — Peña Cantero et al. 2007: 235-237, figs 2, 17B; tab. II. Not Acryptolaria angulata – Ver...

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Main Authors: Peña Cantero, Álvaro L., Vervoort, Willem
Format: Text
Language:unknown
Published: Zenodo 2010
Subjects:
Biodiversity
Taxonomy
Animalia
Cnidaria
Hydrozoa
Leptothecata
Lafoeidae
Acryptolaria
Acryptolaria angulata
Antarctic
The Antarctic
Pacific
Indian
Fuller
Percy
Pena
Sladen
Gardiner
Antarc*
Macquarie Island
Online Access:https://dx.doi.org/10.5281/zenodo.4551830
https://zenodo.org/record/4551830
id ftdatacite:10.5281/zenodo.4551830
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
Acryptolaria
Acryptolaria angulata
spellingShingle Biodiversity
Taxonomy
Animalia
Cnidaria
Hydrozoa
Leptothecata
Lafoeidae
Acryptolaria
Acryptolaria angulata
Peña Cantero, Álvaro L.
Vervoort, Willem
Acryptolaria angulata
topic_facet Biodiversity
Taxonomy
Animalia
Cnidaria
Hydrozoa
Leptothecata
Lafoeidae
Acryptolaria
Acryptolaria angulata
description Acryptolaria angulata (Bale, 1914) (Figs 1; 30; 31A; Table 2) Cryptolaria angulata Bale, 1914: 166, 167, pl. 35, fig. 1; 1915: 251. — Stranks 1993: 7. Acryptolaria angulata – Schuchert 2003: 155, 156, fig. 14. — Peña Cantero et al. 2007: 235-237, figs 2, 17B; tab. II. Not Acryptolaria angulata – Vervoort 1966: 116, 117, fig. 16 [=? A. rectangularis (Jarvis, 1922)] Not Acryptolaria angulata – Hirohito 1995: 102, text-fig. 29a, b, pl. 6 fig. B [=? A. bulbosa (Stechow, 1932)] MATERIAL EXAMINED. — Loyalty Islands. BIOCAL 1, stn CP 84, 20°43.498’- 20°42.948’S, 167°00.278’- 167°01.500’E, 210- 150 m, 6.IX.1985, 5 stems up to 40 mm high with coppinia (MNHN-Hy.2009-0176); 2 slides (MNHN-Hy.2009-0144 & RMNH-Coel. no. 37468, slide 288 with fragments up to 17 mm long). BIOGEOCAL, stn DW 292, 20°28.23’- 20°28.18’S, 166°48.45’- 166°48.48’E, 470- 465 m, 27.IV.1987, a few stems up to 12 mm high (slide MNHN-Hy.2009- 0145). MUSORSTOM 6, stn DW 399, 20°41.80’S, 167°00.20’E, 282 m, 14.II.1989, 1 stem c. 30 mm high (RMNH-Coel. no. 31494); 1 stem c. 23 mm high (RMNH-Coel. no. 35101, slide 662). — Stn DW 474, 21°08.80’S, 167°55.50’E, 260 m, 22.II.1989, 5 stems up to 20 mm high (MNHN-Hy.2009-0177). — Stn DW 487, 21°23.30’S, 167°46.40’E, 500 m, 23.II.1989, several stems up to 25 mm high, on coral (MNHN-Hy.2009-0178); 1 stem c. 33 mm high in slide (MNHN-Hy.2009-0146).— Stn DW 489, 20°48.37’S, 167°05.86’E, 700 m, 24.II.1989, 1 stem c. 62 mm high, with coppinia (MNCN 2.03 /402). Norfolk Ridge. BIOCAL 1, stn DW 36, 23°08.647’- 23°08.900’S, 167°10.994’- 167°11.296’E, 650-680 m, 29.VIII.1985, 3 stems up to 12 mm high, on coral (RMNH-Coel. no 31495). — Stn DW 44, 22°47.300’- 22°47.350’S, 167°14.300’- 167°14.500’E, 440-450 m, 30.VIII.1985, 1 fragment c. 10 mm long, with coppinia (RMNH-Coel. no. 31496). — Stn DW 51, 23°05.273’- 23°05.432’S, 167°44.951’- 167°45.355’E, 700- 680 m, 31.VIII.1985, 5 stems up to 10 mm high (MNCN 2.03/403). — Stn DW 66, 24°55.435’- 24°54.849’S, 168°21.678’- 168°21.995’E, 515- 505 m, 3.IX.1985, 3 stems up to 37 mm high, with coppinia (MNCN 2.03/404). — Stn DW 70, 23°24.700’- 23°25.650’S, 167°53.650’- 167°52.700’E, 965 m, 4.IX.1985, 1 stem c. 30 mm high, with coppinia (MNHN-Hy.2009- 0179). SMIB 4, stn DW 37, 24°54.5’- 24°53.9’S, 168°22.3’- 168°21.5’E, 515-540 m, 7.III.1989, 1 stem c. 24 mm high, with coppinia (MNHN-Hy.2009-0180). SMIB 5, stn DW 70, 23°40.6’S, 168°01.1’E, 270 m, 7.IX.1989, 1 stem c. 7 mm high and a few fragments up to 20 mm long (RMNH-Coel. no. 31497). — Stn DW 76, 23°41.2’S, 168°00.5’E, 280 m, 7.IX.1989, 1 stem c. 22 mm high (MNHN-Hy.2009-0181). — Stn DW 88, 22°28.6’S, 168°40.2’E, 350 m, 13.IX.1989, 1 stem c. 15 mm high (MNCN 2.03/405). — Stn DW 95, 22°59.7’S, 168°19.8’E, 200 m, 14.IX.1989, 3 stems up to 25 mm high (MNHN-Hy.2009-0182). — Stn DW 101, 23°21.2’S, 168°04.9’E, 270 m, 14.IX.1989, 1 fragment c. 18 mm long (MNCN 2.03/406). ECOLOGY AND DISTRIBUTION. — Acryptolaria angulata seems to be a bathyal species. It was previously known from depths between 180 m (Bale 1914) and 324 m (Bale 1915); our material was collected at depths from 150 to 965 m, extending considerably the lower limit of its bathymetric range. Schuchert (2003) reported it on bottoms of sandy mud and small stones. Hitherto it was only known from the Great Australian Bight (Bale 1914, 1915) and the Kei Islands, Indonesia (Schuchert 2003). Our material originates from the Loyalty Islands and the Norfolk Ridge areas and was also epibiotic on coral. Coppiniae were found in February, March, August and September. DESCRIPTION Polysiphonic stems up to 62 mm high (Fig. 31A), with a variable degree of branching, but up fifth-order branches observed. Usually branching irregular and in one plane, frequently with anastomoses, giving a mesh-shaped appearance to the stems. Branches straight (Fig. 1A). Hydrothecae alternately arranged and more or less in one plane (Fig. 1A), roughly cylindrical, but with a strongly marked constriction due to a sharp perisarc invagination at about basal third of adcauline wall (Fig. 1 A-F); diameter also decreasing at basal part. Hydrotheca curved twice: strongly outwards at distal part of adnate portion, becoming approximately perpendicular to the adnate part, and slightly or strongly upwards just after the adnate wall becomes free. Abcauline wall with a distinct inflexion point at approximately half its length; in some colonies forming a deep embayment at that point; some hydrothecae may there become collapsed (Fig. 1E, F). Basal part of abcauline wall usually straight, parallel to longitudinal axis of branch; distal part slightly to strongly convex. Adcauline wall broadly convex at adnate part and concave at free portion. Adcauline wall adnate over half its length (adnate/free ratio 1.6). Hydrotheca with a strongly marked, basal ring of desmocytes (Fig. 1C, D, F). Hydrothecal aperture circular, oblique, upwardly directed at a varied degree (35-75°). Rim even, sometimes with short renovations. Large nematocysts very abundant, relatively small, ovoid (Fig. 30) and provided with a lateral opening. Gonothecae set into a coppinia deprived of defensive tubes (Fig. 1I, G), bottle-shaped, with a distal neck (Fig. 1I, J). Gonothecal diameter gently increasing from base to distal neck where the diameter strongly decreases. In the material from SMIB 4 stn DW 37 the gonothecae are closely grouped, forming a tight mosaic in dorsal view (Fig. 1G), and provided with a short neck with a wide aperture (Fig. 1H). In the material from BIOCAL 1 stn CP 84, the gonothecae have a longer neck (Fig. 1J), with a slightly smaller distal aperture. Some gonothecae with renovations of the rim (Fig. 1I). REMARKS The degree of branching is varied; for example, in the material from BIOCAL 1 stn CP 84 the stems are much branched, with up to fifth-order branches observed, whereas in the material from SMIB 4 stn DW 37, only secondary branches are present. The type material of Acryptolaria angulata was recently examined by Peña Cantero et al. (2007) who established the differences with the related species (i.e. A. bulbosa and A. rectangularis ) (see Peña Cantero et al. 2007 for a fuller discussion). This material consisted of microslide preparations, which made it difficult to find nematocysts of which only inaccurate measurement could be taken; however, a few large nematocysts could then be observed. Through the study of our material it has also been confirmed the presence of the small-group nematocysts in this species. The present material allowed a more precise characterization of Bale’s species, as well as the description of the unknown coppinia. Acryptolaria angulata is identifiable by the shape of the hydrotheca with its characteristic sharp perisarc invagination at about the basal third of its adcauline wall. The hydrothecal abcauline embayment has a varied development. In some hydrothecae it is just slightly appreciable (Fig. 1A, D), whereas in others there is a deep invagination (Fig. 1B, C). On the other hand, there are hydrothecae in which the deep embayment may be more or less closed, the two parts of the abcauline wall come in close contact and even become fused (Fig. 1E, F). This also happens in other species of the genus (cf. A. bulbosa and A. inversa n. sp.). Notwithstanding the amazing variation in the size of the hydrothecae, we are apparently dealing with a single species, because there is an almost complete gradual overlap. Furthermore, there are no differences in the nematocysts of the larger size class. The differences in the shape of the gonothecae between the material from SMIB 4 stn DW 37 and BIOCAL 1 stn CP 84 could be due to sexual dimorphism. : Published as part of Peña Cantero, Álvaro L. & Vervoort, Willem, 2010, Species of Acryptolaria Norman, 1875 (Cnidaria, Hydrozoa, Lafoeidae) collected in the Western Pacific by various French expeditions, with the description of nineteen new species, pp. 267-332 in Zoosystema 32 (2) on pages 269-274, DOI: 10.5252/z2010n2a5, http://zenodo.org/record/4521008 : {"references": ["STRANKS T. N. 1993. - Catalogue of recent Cnidaria type specimens in the Museum of Victoria. Occasional Papers from the Museum of Victoria 6: 1 - 26.", "SCHUCHERT P. 2003. - Hydroids (Cnidaria, Hydrozoa) of the Danish Expedition to the Kei Islands. Steenstrupia 27 (2): 137 - 256.", "PENA CANTERO A. L., MARQUES A. C. & MIGOTTO A. E. 2007. - Revision of the genus Acryptolaria Norman, 1875 (Cnidaria, Hydrozoa, Lafoeidae). Journal of Natural History 41 (5 - 8): 229 - 291.", "VERVOORT W. 1966. - Bathyal and abyssal hydroids. Galathea Report, Scientific Results of the Danish Deep-Sea Expedition 1950 - 1952 8: 97 - 173.", "JARVIS F. E. 1922. - The hydroids from the Chagos, Seychelles and other islands and from the coasts of British East Africa and Zanzibar. In Reports of the Percy Sladen Trust Expedition to the Indian Ocean in 1905, under the leadership of Mr J. Stanley Gardiner, M. A. Transactions of the Linnean Society, London, Zoology (2) 18 (1): 331 - 360, pls 24 - 26.", "STECHOW E. 1932. - Neue Hydroiden aus dem Mittelmeer und dem Pazifischen Ozean, nebst Bemerkungen uber einige wenig bekannte Formen. Zoologischer Anzeiger 100 (3 - 4): 81 - 92.", "NORMAN A. M. 1875. - Submarine-cable fauna. Part II. Crustacea, etc. Annals and Magazine of Natural History (4) 15: 169 - 176, pl. 12.", "NAUMOV D. V & STEPANJANTS S. D. 1962. - Hydroida (Thecaphora) collected by the Soviet Antarctic Expedition on the M / V \" Ob \" in antarctic and subantarctic waters, in Biological results of the Soviet Antarctic Expedition, 1955 - 1958, 1. Issledovaniya Fauny Morei 1 (9): 68 - 106.", "TOTTON A. K. 1930. - Coelenterata. Part V. - Hydroida. Natural History Report. British Antarctic (\" Terra Nova \") Expedition, 1910, Zoology 5 (5): 131 - 252, pls 1 - 3.", "WATSON J. E. 2003. - Deep-water hydroids (Hydrozoa: Leptolida) from Macquarie Island. Memoirs of Museum Victoria 60 (2): 151 - 180.", "STEPANJANTS S. D. 1979. - Gidroidy vod antarktiki i subantarktiki [= Hydroids of the antarctic and subantarctic waters], in Rezul'taty biologicheskikh issledovanii sovetskikh antarkticheskikh ekspeditsii, 6 [= Biological results of the Soviet Antarctic Expedition, 6]. Issledovaniya Fauny Morei 22 (30): 1 - 99, pls 1 - 25 (in Russian)."]}
format Text
author Peña Cantero, Álvaro L.
Vervoort, Willem
author_facet Peña Cantero, Álvaro L.
Vervoort, Willem
author_sort Peña Cantero, Álvaro L.
title Acryptolaria angulata
title_short Acryptolaria angulata
title_full Acryptolaria angulata
title_fullStr Acryptolaria angulata
title_full_unstemmed Acryptolaria angulata
title_sort acryptolaria angulata
publisher Zenodo
publishDate 2010
url https://dx.doi.org/10.5281/zenodo.4551830
https://zenodo.org/record/4551830
long_lat ENVELOPE(162.350,162.350,-77.867,-77.867)
ENVELOPE(-55.883,-55.883,-63.250,-63.250)
ENVELOPE(40.562,40.562,63.490,63.490)
ENVELOPE(-45.281,-45.281,-60.675,-60.675)
ENVELOPE(-150.950,-150.950,-86.317,-86.317)
geographic Antarctic
The Antarctic
Pacific
Indian
Fuller
Percy
Pena
Sladen
Gardiner
geographic_facet Antarctic
The Antarctic
Pacific
Indian
Fuller
Percy
Pena
Sladen
Gardiner
genre Antarc*
Antarctic
Macquarie Island
genre_facet Antarc*
Antarctic
Macquarie Island
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op_doi https://doi.org/10.5281/zenodo.4551830
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spelling ftdatacite:10.5281/zenodo.4551830 2023-05-15T14:02:09+02:00 Acryptolaria angulata Peña Cantero, Álvaro L. Vervoort, Willem 2010 https://dx.doi.org/10.5281/zenodo.4551830 https://zenodo.org/record/4551830 unknown Zenodo http://zenodo.org/record/4521008 http://publication.plazi.org/id/FFDC1B12FF9CFFA4FFF35744764DFF8A http://treatment.plazi.org/id/AC45603760266279FE13FD248CA46BB9 https://zenodo.org/communities/biosyslit https://dx.doi.org/10.5252/z2010n2a5 http://zenodo.org/record/4521008 http://publication.plazi.org/id/FFDC1B12FF9CFFA4FFF35744764DFF8A https://dx.doi.org/10.5281/zenodo.4521010 https://dx.doi.org/10.5281/zenodo.4521094 https://dx.doi.org/10.5281/zenodo.4521098 https://dx.doi.org/10.5281/zenodo.4581743 http://treatment.plazi.org/id/AC45603760266279FE13FD248CA46BB9 https://dx.doi.org/10.5281/zenodo.4551829 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 Acryptolaria Acryptolaria angulata Text Taxonomic treatment article-journal ScholarlyArticle 2010 ftdatacite https://doi.org/10.5281/zenodo.4551830 https://doi.org/10.5252/z2010n2a5 https://doi.org/10.5281/zenodo.4521010 https://doi.org/10.5281/zenodo.4521094 https://doi.org/10.5281/zenodo.4521098 https://doi.org/10.5281/zenodo.4581743 https://doi.or 2021-11-05T12:55:41Z Acryptolaria angulata (Bale, 1914) (Figs 1; 30; 31A; Table 2) Cryptolaria angulata Bale, 1914: 166, 167, pl. 35, fig. 1; 1915: 251. — Stranks 1993: 7. Acryptolaria angulata – Schuchert 2003: 155, 156, fig. 14. — Peña Cantero et al. 2007: 235-237, figs 2, 17B; tab. II. Not Acryptolaria angulata – Vervoort 1966: 116, 117, fig. 16 [=? A. rectangularis (Jarvis, 1922)] Not Acryptolaria angulata – Hirohito 1995: 102, text-fig. 29a, b, pl. 6 fig. B [=? A. bulbosa (Stechow, 1932)] MATERIAL EXAMINED. — Loyalty Islands. BIOCAL 1, stn CP 84, 20°43.498’- 20°42.948’S, 167°00.278’- 167°01.500’E, 210- 150 m, 6.IX.1985, 5 stems up to 40 mm high with coppinia (MNHN-Hy.2009-0176); 2 slides (MNHN-Hy.2009-0144 & RMNH-Coel. no. 37468, slide 288 with fragments up to 17 mm long). BIOGEOCAL, stn DW 292, 20°28.23’- 20°28.18’S, 166°48.45’- 166°48.48’E, 470- 465 m, 27.IV.1987, a few stems up to 12 mm high (slide MNHN-Hy.2009- 0145). MUSORSTOM 6, stn DW 399, 20°41.80’S, 167°00.20’E, 282 m, 14.II.1989, 1 stem c. 30 mm high (RMNH-Coel. no. 31494); 1 stem c. 23 mm high (RMNH-Coel. no. 35101, slide 662). — Stn DW 474, 21°08.80’S, 167°55.50’E, 260 m, 22.II.1989, 5 stems up to 20 mm high (MNHN-Hy.2009-0177). — Stn DW 487, 21°23.30’S, 167°46.40’E, 500 m, 23.II.1989, several stems up to 25 mm high, on coral (MNHN-Hy.2009-0178); 1 stem c. 33 mm high in slide (MNHN-Hy.2009-0146).— Stn DW 489, 20°48.37’S, 167°05.86’E, 700 m, 24.II.1989, 1 stem c. 62 mm high, with coppinia (MNCN 2.03 /402). Norfolk Ridge. BIOCAL 1, stn DW 36, 23°08.647’- 23°08.900’S, 167°10.994’- 167°11.296’E, 650-680 m, 29.VIII.1985, 3 stems up to 12 mm high, on coral (RMNH-Coel. no 31495). — Stn DW 44, 22°47.300’- 22°47.350’S, 167°14.300’- 167°14.500’E, 440-450 m, 30.VIII.1985, 1 fragment c. 10 mm long, with coppinia (RMNH-Coel. no. 31496). — Stn DW 51, 23°05.273’- 23°05.432’S, 167°44.951’- 167°45.355’E, 700- 680 m, 31.VIII.1985, 5 stems up to 10 mm high (MNCN 2.03/403). — Stn DW 66, 24°55.435’- 24°54.849’S, 168°21.678’- 168°21.995’E, 515- 505 m, 3.IX.1985, 3 stems up to 37 mm high, with coppinia (MNCN 2.03/404). — Stn DW 70, 23°24.700’- 23°25.650’S, 167°53.650’- 167°52.700’E, 965 m, 4.IX.1985, 1 stem c. 30 mm high, with coppinia (MNHN-Hy.2009- 0179). SMIB 4, stn DW 37, 24°54.5’- 24°53.9’S, 168°22.3’- 168°21.5’E, 515-540 m, 7.III.1989, 1 stem c. 24 mm high, with coppinia (MNHN-Hy.2009-0180). SMIB 5, stn DW 70, 23°40.6’S, 168°01.1’E, 270 m, 7.IX.1989, 1 stem c. 7 mm high and a few fragments up to 20 mm long (RMNH-Coel. no. 31497). — Stn DW 76, 23°41.2’S, 168°00.5’E, 280 m, 7.IX.1989, 1 stem c. 22 mm high (MNHN-Hy.2009-0181). — Stn DW 88, 22°28.6’S, 168°40.2’E, 350 m, 13.IX.1989, 1 stem c. 15 mm high (MNCN 2.03/405). — Stn DW 95, 22°59.7’S, 168°19.8’E, 200 m, 14.IX.1989, 3 stems up to 25 mm high (MNHN-Hy.2009-0182). — Stn DW 101, 23°21.2’S, 168°04.9’E, 270 m, 14.IX.1989, 1 fragment c. 18 mm long (MNCN 2.03/406). ECOLOGY AND DISTRIBUTION. — Acryptolaria angulata seems to be a bathyal species. It was previously known from depths between 180 m (Bale 1914) and 324 m (Bale 1915); our material was collected at depths from 150 to 965 m, extending considerably the lower limit of its bathymetric range. Schuchert (2003) reported it on bottoms of sandy mud and small stones. Hitherto it was only known from the Great Australian Bight (Bale 1914, 1915) and the Kei Islands, Indonesia (Schuchert 2003). Our material originates from the Loyalty Islands and the Norfolk Ridge areas and was also epibiotic on coral. Coppiniae were found in February, March, August and September. DESCRIPTION Polysiphonic stems up to 62 mm high (Fig. 31A), with a variable degree of branching, but up fifth-order branches observed. Usually branching irregular and in one plane, frequently with anastomoses, giving a mesh-shaped appearance to the stems. Branches straight (Fig. 1A). Hydrothecae alternately arranged and more or less in one plane (Fig. 1A), roughly cylindrical, but with a strongly marked constriction due to a sharp perisarc invagination at about basal third of adcauline wall (Fig. 1 A-F); diameter also decreasing at basal part. Hydrotheca curved twice: strongly outwards at distal part of adnate portion, becoming approximately perpendicular to the adnate part, and slightly or strongly upwards just after the adnate wall becomes free. Abcauline wall with a distinct inflexion point at approximately half its length; in some colonies forming a deep embayment at that point; some hydrothecae may there become collapsed (Fig. 1E, F). Basal part of abcauline wall usually straight, parallel to longitudinal axis of branch; distal part slightly to strongly convex. Adcauline wall broadly convex at adnate part and concave at free portion. Adcauline wall adnate over half its length (adnate/free ratio 1.6). Hydrotheca with a strongly marked, basal ring of desmocytes (Fig. 1C, D, F). Hydrothecal aperture circular, oblique, upwardly directed at a varied degree (35-75°). Rim even, sometimes with short renovations. Large nematocysts very abundant, relatively small, ovoid (Fig. 30) and provided with a lateral opening. Gonothecae set into a coppinia deprived of defensive tubes (Fig. 1I, G), bottle-shaped, with a distal neck (Fig. 1I, J). Gonothecal diameter gently increasing from base to distal neck where the diameter strongly decreases. In the material from SMIB 4 stn DW 37 the gonothecae are closely grouped, forming a tight mosaic in dorsal view (Fig. 1G), and provided with a short neck with a wide aperture (Fig. 1H). In the material from BIOCAL 1 stn CP 84, the gonothecae have a longer neck (Fig. 1J), with a slightly smaller distal aperture. Some gonothecae with renovations of the rim (Fig. 1I). REMARKS The degree of branching is varied; for example, in the material from BIOCAL 1 stn CP 84 the stems are much branched, with up to fifth-order branches observed, whereas in the material from SMIB 4 stn DW 37, only secondary branches are present. The type material of Acryptolaria angulata was recently examined by Peña Cantero et al. (2007) who established the differences with the related species (i.e. A. bulbosa and A. rectangularis ) (see Peña Cantero et al. 2007 for a fuller discussion). This material consisted of microslide preparations, which made it difficult to find nematocysts of which only inaccurate measurement could be taken; however, a few large nematocysts could then be observed. Through the study of our material it has also been confirmed the presence of the small-group nematocysts in this species. The present material allowed a more precise characterization of Bale’s species, as well as the description of the unknown coppinia. Acryptolaria angulata is identifiable by the shape of the hydrotheca with its characteristic sharp perisarc invagination at about the basal third of its adcauline wall. The hydrothecal abcauline embayment has a varied development. In some hydrothecae it is just slightly appreciable (Fig. 1A, D), whereas in others there is a deep invagination (Fig. 1B, C). On the other hand, there are hydrothecae in which the deep embayment may be more or less closed, the two parts of the abcauline wall come in close contact and even become fused (Fig. 1E, F). This also happens in other species of the genus (cf. A. bulbosa and A. inversa n. sp.). Notwithstanding the amazing variation in the size of the hydrothecae, we are apparently dealing with a single species, because there is an almost complete gradual overlap. Furthermore, there are no differences in the nematocysts of the larger size class. The differences in the shape of the gonothecae between the material from SMIB 4 stn DW 37 and BIOCAL 1 stn CP 84 could be due to sexual dimorphism. : Published as part of Peña Cantero, Álvaro L. & Vervoort, Willem, 2010, Species of Acryptolaria Norman, 1875 (Cnidaria, Hydrozoa, Lafoeidae) collected in the Western Pacific by various French expeditions, with the description of nineteen new species, pp. 267-332 in Zoosystema 32 (2) on pages 269-274, DOI: 10.5252/z2010n2a5, http://zenodo.org/record/4521008 : {"references": ["STRANKS T. N. 1993. - Catalogue of recent Cnidaria type specimens in the Museum of Victoria. Occasional Papers from the Museum of Victoria 6: 1 - 26.", "SCHUCHERT P. 2003. - Hydroids (Cnidaria, Hydrozoa) of the Danish Expedition to the Kei Islands. Steenstrupia 27 (2): 137 - 256.", "PENA CANTERO A. L., MARQUES A. C. & MIGOTTO A. E. 2007. - Revision of the genus Acryptolaria Norman, 1875 (Cnidaria, Hydrozoa, Lafoeidae). Journal of Natural History 41 (5 - 8): 229 - 291.", "VERVOORT W. 1966. - Bathyal and abyssal hydroids. Galathea Report, Scientific Results of the Danish Deep-Sea Expedition 1950 - 1952 8: 97 - 173.", "JARVIS F. E. 1922. - The hydroids from the Chagos, Seychelles and other islands and from the coasts of British East Africa and Zanzibar. In Reports of the Percy Sladen Trust Expedition to the Indian Ocean in 1905, under the leadership of Mr J. Stanley Gardiner, M. A. Transactions of the Linnean Society, London, Zoology (2) 18 (1): 331 - 360, pls 24 - 26.", "STECHOW E. 1932. - Neue Hydroiden aus dem Mittelmeer und dem Pazifischen Ozean, nebst Bemerkungen uber einige wenig bekannte Formen. Zoologischer Anzeiger 100 (3 - 4): 81 - 92.", "NORMAN A. M. 1875. - Submarine-cable fauna. Part II. Crustacea, etc. Annals and Magazine of Natural History (4) 15: 169 - 176, pl. 12.", "NAUMOV D. V & STEPANJANTS S. D. 1962. - Hydroida (Thecaphora) collected by the Soviet Antarctic Expedition on the M / V \" Ob \" in antarctic and subantarctic waters, in Biological results of the Soviet Antarctic Expedition, 1955 - 1958, 1. Issledovaniya Fauny Morei 1 (9): 68 - 106.", "TOTTON A. K. 1930. - Coelenterata. Part V. - Hydroida. Natural History Report. British Antarctic (\" Terra Nova \") Expedition, 1910, Zoology 5 (5): 131 - 252, pls 1 - 3.", "WATSON J. E. 2003. - Deep-water hydroids (Hydrozoa: Leptolida) from Macquarie Island. Memoirs of Museum Victoria 60 (2): 151 - 180.", "STEPANJANTS S. D. 1979. - Gidroidy vod antarktiki i subantarktiki [= Hydroids of the antarctic and subantarctic waters], in Rezul'taty biologicheskikh issledovanii sovetskikh antarkticheskikh ekspeditsii, 6 [= Biological results of the Soviet Antarctic Expedition, 6]. Issledovaniya Fauny Morei 22 (30): 1 - 99, pls 1 - 25 (in Russian)."]} Text Antarc* Antarctic Macquarie Island DataCite Metadata Store (German National Library of Science and Technology) Antarctic The Antarctic Pacific Indian Fuller ENVELOPE(162.350,162.350,-77.867,-77.867) Percy ENVELOPE(-55.883,-55.883,-63.250,-63.250) Pena ENVELOPE(40.562,40.562,63.490,63.490) Sladen ENVELOPE(-45.281,-45.281,-60.675,-60.675) Gardiner ENVELOPE(-150.950,-150.950,-86.317,-86.317)

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