Halecium jaederholmi Vervoort 1972

Halecium jaederholmi Vervoort, 1972 (Fig. 9) Halecium jaederholmi Vervoort, 1972 a: 21, fig. 2; 1972 b: 343, fig. 2 b, c; Millard, 1977: 10, fig. 3 A–B; Stepanjants, 1979: 107, pl. 20 fig. 6; Branch & Williams, 1993: 12, fig.; Blanco, 1994 a: 156; 1994 b: 186–187; Vervoort & Watson, 2003: 86...

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Bibliographic Details
Main Author: Peña Cantero, Álvaro L.
Format: Text
Language:unknown
Published: Zenodo 2014
Subjects:
Biodiversity
Taxonomy
Animalia
Cnidaria
Hydrozoa
Leptothecata
Haleciidae
Halecium
Halecium jaederholmi
Antarctic
The Antarctic
Weddell Sea
Kerguelen
Shackleton
Australian Antarctic Territory
New Zealand
Weddell
Argentina
Blanco
St. Helena
Coats Land
Pena
Palmer Archipelago
Davis Sea
Arthur Harbor
Yelcho
Arthur Harbour
Edwards Islands
Ritchie
Antarc*
Antarctica
Antarktis*
Crozet Islands
Enderby Land
Prince Edward Islands
Online Access:https://dx.doi.org/10.5281/zenodo.4630888
https://zenodo.org/record/4630888
id ftdatacite:10.5281/zenodo.4630888
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
Haleciidae
Halecium
Halecium jaederholmi
spellingShingle Biodiversity
Taxonomy
Animalia
Cnidaria
Hydrozoa
Leptothecata
Haleciidae
Halecium
Halecium jaederholmi
Peña Cantero, Álvaro L.
Halecium jaederholmi Vervoort 1972
topic_facet Biodiversity
Taxonomy
Animalia
Cnidaria
Hydrozoa
Leptothecata
Haleciidae
Halecium
Halecium jaederholmi
description Halecium jaederholmi Vervoort, 1972 (Fig. 9) Halecium jaederholmi Vervoort, 1972 a: 21, fig. 2; 1972 b: 343, fig. 2 b, c; Millard, 1977: 10, fig. 3 A–B; Stepanjants, 1979: 107, pl. 20 fig. 6; Branch & Williams, 1993: 12, fig.; Blanco, 1994 a: 156; 1994 b: 186–187; Vervoort & Watson, 2003: 86; Peña Cantero, 2004: 769; 2008: 455, fig. 1 c, d; El Beshbeeshy & Jarms, 2011: 35 –38, fig. 4. Halecium arboreum — Jäderholm, 1905: 11, pl. 5 fig. 4; Naumov & Stepanjants, 1962: 97; Stepanjants, 1972: 71. Halecium robustum — Ritchie, 1907: 524. Halecium macrocephalum — Ritchie, 1913: 18, fig. 4; Stechow, 1925: 402; Rees & Thursfield, 1965: 108. Halecium sp. Stepanjants, 1972: 72–73, fig. 17. Material examined. Holotype, RMNH 7166, Stn Vema 17 RD 12 , 44° 19 ’S 59 ° 52 ’W (shelf south-east of Peninsula Valdés, Argentina), 13 –06– 1961, 183– 366 m, several colony fragments up to 65 mm long. Diagnosis. Strongly polysiphonic, dark-brown, irregularly branched stems, up to 160 mm long. Branches originating from hydrophore of primary hydrotheca. Hydrothecae alternately arranged in one plane. Hydrotheca at the end of short, adnate hydrophore. Hydrotheca barely widening distally; rim not everted. Adcauline hydrothecal wall adnate to internode and much larger than abcauline one. Hydrothecal aperture slightly directed downwards. A sessile secondary hydrotheca may be present. Female gonotheca kidney-shaped, with two hydrothecae, and up to six eggs. Cnidome consisting of microbasic mastigophores? and microbasic euryteles? Description. The material belongs to at least six stems. Five stems arise from a shell fragment. Stems darkbrown, up to 5 mm in basal diameter, strongly polysiphonic all over the colony; only a few short side-branches monosiphonic. Polysiphony due to accessory tubes (sometimes in very high number). Branching irregular, but alternate in one or two planes in some parts. Stems much branched, giving rise to lower-order branches, frequently strongly directed upwards (some completely vertical). Branches divided into internodes by slightly oblique alternate nodes (Fig. 9 A–E). Hydrothecae alternately arranged in more or less one plane. Adcauline hydrothecal wall almost reaching distal node of internode (Fig. 9 A–E). Hydrothecae resting on adnate hydrophores (Fig. 9 A–E); ratio between adcauline length of hydrophore and diameter at diaphragm 0.5 –1.0. Hydrotheca low, cylindrical, practically not widening distally (Fig. 9 A–E). Adcauline hydrothecal wall adnate and much larger than abcauline one, extending upwards on internode (Fig. 9 A–E). Hydrothecal aperture slightly directed downwards (Fig. 9 A–B,E). Sometimes a sessile secondary hydrotheca present (Fig. 9 D). Female gonothecae present (Fig. 9 F–G), originating from lateral of hydrophore and resting on a short apophysis. Gonotheca kidney-shaped (Fig. 9 F–G), with two hydrothecae at the concave side. Up to six eggs observed (Fig. 9 G). Measurements (in µm). Hydrothecae : diameter at aperture 180–210, diameter at diaphragm c. 190, height 15–25. Internodes : length 670–800, diameter just below distal node 150–250. Gonothecae : height 1370–1500, maximum diameter c. 700, basal pedicel c. 100 x 100. Cnidome : very abundant microbasic euryteles? with round ends [range 9–11 x 4–5, mean 10.0± 0.5 x 4.5 ± 0.3 (n= 10); ratio, range 2.0– 2.5, mean 2.2 ± 0.1 (n= 10)] and smaller microbasic mastigophores? with sharp ends (6–6.5 x 1.5). Remarks. As indicated above Halecium brevithecum is similar to H. jaederholmi , and they could be conspecific. Both have polysiphonic colonies characterized by the extremely low hydrothecae. Both also have hydrothecae with the adcauline wall projecting upwards, being much larger than the rest, and adnate to internode. Additionally, the larger nematocysts seem to be of the same range. There are, however, differences between both species. Although Watson (2008) indicated that “there is indication of desmocytes above the diaphragm” in H. brevithecum , I did not observe them. However, desmocytes are distinctly marked in H. jaederholmi . In addition, a sessile secondary hydrotheca is sometimes present in H. jaederholmi , whereas no secondary hydrotheca has been observed in H. brevithecum Watson (2008) also indicated “no marginal replications or linear series of hydrophores”. Halecium brevithecum is also characterized by the reddish stems, the distinctly longer first hydrothecate internode of the branches, and the more or less perpendicular arrangement of the lower-order branches in relation to the previous ones. Millard (1977) undoubtedly found material of H. jaederholmi . She found female colonies agreeing perfectly with the type material. Colour from medium-brown to dark brown, with thick fascicled stems (up to 8 mm in diameter at base) up to 160 mm in height. Stems “branching irregularly and in all planes”. Millard indicated that “internodes and hydrophores have a structure exactly like that illustrated by Vervoort (1972 a) except that no pseudodiaphragmata are present nor any secondary hydrophores”. As it has been shown above, there is actually no sign of pseudodiaphragm in the holotype. According to Millard (1977) up to six larvae are found in the gonothecae. Branch & Willians (1993) also reported this species from the Marion and Prince Edwards islands area, but the few characters provided by them seem to be taken from Millard’s (1977) description, so it is not possible to be completely sure about the correctness of their identification. Vervoort’s (1972 b) material could correspond to another species. It consists of completely monosiphonic stems with yellowish perisarc. The hydrothecae seem to have the same height all around, and the adcauline side does not seem to fuse with the internode, contrary to what happens in the type material. Similarly, Stepanjants’s (1979: pl. 20 fig. 6) material, although polysiphonic in this case, may also correspond to a different species. Evidently, it would be necessary to re-examine all this material to assess whether it belongs to H. jaederholmi . Due to the similarity between H. jaederholmi and H. brevithecum it is not possible to be completely sure about the proper identification of some previous records of H. jaederholmi , such as those by Jäderholm (1905), Ritchie (1907, 1913), Stepanjants (1979) and Peña Cantero (2008). Ritchie (1907: 524–525), for instance, indicated that in his material “the branches frequently have at their bases at least one athecate internode connecting the stem process with the hydrophore-bearing portions of the branch”. As indicated above, this is one of the few features that allow by now to characterize H. brevithecum . On the other hand, Ritchie (1907: 524) indicated that “rarely with a tier of one or two secondary hydrothecae” and that “inside of the limbus are situated small, light-refracting prominences”, whereas in H. brevithecum neither secondary hydrothecae nor desmocytes have been observed. Ecology and distribution. It is difficult to establish its bathymetric and geographical distribution due to the uncertainty of some records. It has been found for sure at depths between 24 (Vervoort 1972 a) and 400 m (Millard 1977). Gonothecae found in April (Millard 1977) and June (Vervoort 1972 a). Taking into account only the confirmed records, H. jaederholmi seems to have a sub-Antarctic distribution, being known from the Magellan area, in particular from the Atlantic entrance of the Magellan Strait and off Peninsula Valdés (Vervoort 1972 a) and from the Kerguélen area, between Possession and Cochons (Millard 1977). Considering also the unconfirmed previous records, this species would have a Pan-Antarctic distribution, since it has been also reported from Antarctic waters, in particular off South Georgia (Jäderholm 1905), Coats Land, in the Weddell Sea, and St Helena (Ritchie 1907), Enderby Land (Naumov & Stepanjants 1962), Arthur Harbor, Palmer Archipelago (Vervoort 1972 b), Davis Sea (Stepanjants 1972), the South Shetlands Islands (Stepanjants 1979) and off Livingston and Deception islands (Peña Cantero 2008). Additional sub-Antarctic records should be those by Jäderholm (1905), from the Falklands Islands area, Stepanjants (1979), from off Kerguélen and Crozet islands, Branch & Willians (1993), from the Marion and Prince Edwards islands area, and El Beshbeeshy & Jarms (2011), from the Patagonian shelf. : Published as part of Peña Cantero, Álvaro L., 2014, Revision of the Antarctic species of Halecium Oken, 1815 (Cnidaria, Hydrozoa, Haleciidae), pp. 243-280 in Zootaxa 3790 (2) on pages 263-266, DOI: 10.11646/zootaxa.3790.2.2, http://zenodo.org/record/226890 : {"references": ["Vervoort, W. (1972 a) Hydroids from the Theta, Vema and Yelcho cruises of the Lamont-Doherty geological observatory. Zoologische Verhandelingen, 120, 1 - 247.", "Millard, N. A. H. (1977) Hydroids from the Kerguelen and Crozet shelves, collected by the cruise MD. 03 of the Marion-Dufresne. Annals of the South African Museum, 73 (1), 1 - 47.", "Stepanjants, S. D. (1979) Hydroids of the antarctic and subantarctic waters. In: Biological results of the Soviet Antarctic Expedition, 6. Issledovaniya Fauny Morei, 20 (30), 1 - 200, pls 1 - 25. [in Russian]", "Branch, M. L. & Williams, G. C. (1993) The Hydrozoa, Octocorallia and Scleractinia of subantarctic Marion and Prince Edward Islands: illustrated keys to the species and results of the 1982 - 1989 University of Cape Town surveys. South African Journal of Antarctic Research, 23 (1 - 2), 3 - 24.", "Blanco, O. M. (1994 a) Enumeracion sistematica y distribucion geografica preliminar de los Hydroida de la Republica Argentina suborden Athecata (Gymnoblastea, Anthomedusae), Thecata (Calyptoblastea, Leptomedusae) y Limnomedusae. Revista del Museo de La Plata (Zoologia), 14 (161), 181 - 216.", "Vervoort, W. & Watson, J. E. (2003) The Marine Fauna of New Zealand: Leptothecata (Cnidaria: Hydrozoa) (Thecate Hydroids). NIWA Biodiversity Memoir, 119, 1 - 538, figs. 1 - 108.", "Pena Cantero, A. L. (2004) How rich is the deep-sea Antarctic benthic hydroid fauna? Polar Biology, 27, 767 - 774. http: // dx. doi. org / 10.1007 / s 00300 - 004 - 0654 - 9", "El Beshbeeshy, M. & Jarms, G. (2011) Thecate hydroids from the Patagonian shelf (Coelenterata, Hydrozoa, Thecata). Verhandlungen des Naturwissenschaftlichen Vereins in Hamburg, 46, 19 - 233.", "Jaderholm, E. (1905) Hydroiden aus antarktischen und subantarktischen Meeren, gesammelt von der schwedischen Sudpolarexpedition. Wissenschaftliche Ergebnisse der Schwedischen Sudpolar-Expedition 1901 - 1903, 5 (8), 1 - 41, pls 1 - 14.", "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.", "Ritchie, J. (1907) The hydroids of the Scottish National Antarctic Expedition. Transactions of the Royal Society of Edinburgh, 45 (2), 519 - 545, pls 1 - 3. http: // dx. doi. org / 10.1017 / s 0080456800022821", "Ritchie, J. (1913) The hydroid zoophytes collected by the British Antarctic Expedition of Sir Ernest Shackleton, 1908. Proceedings of the Royal Society of Edinburgh, 33 (1), 9 - 34.", "Stechow, E. (1925) Hydroiden der Deutschen Tiefsee Expedition. Wissenschaftliche Ergebnisse de Deutschen Tiefsee- Expedition auf dem Dampfer ' Valdivia' 1898 - 1899, 17, 383 - 546, figs. 1 - 54.", "Rees, W. J. & Thursfield, S. (1965) The hydroid collection of James Ritchie. Proceedings of the Royal Society of Edinburgh, (B), 69 (1 - 2), 34 - 220. http: // dx. doi. org / 10.1017 / s 0080455 x 00010122", "Watson, J. E. (2008) Hydroids of the BANZARE expeditions, 1929 - 1931: the family Haleciidae (Hydrozoa, Leptothecata) from the Australian Antarctic Territory. Memoirs of the Museum of Victoria, 65, 165 - 178.", "Pena Cantero, A. L. (2008) Benthic hydroids (Cnidaria: Hydrozoa) from the Spanish Antarctic expedition Bentart 95. Polar Biology, 31, 451 - 464. http: // dx. doi. org / 10.1007 / s 00300 - 007 - 0371 - 2", "Vervoort, W. (1972 b) Hydroids from submarine cliffs near Arthur Harbour, Palmer Archipelago, Antarctica. Zoologische Mededelingen, 47 (25), 337 - 357."]}
format Text
author Peña Cantero, Álvaro L.
author_facet Peña Cantero, Álvaro L.
author_sort Peña Cantero, Álvaro L.
title Halecium jaederholmi Vervoort 1972
title_short Halecium jaederholmi Vervoort 1972
title_full Halecium jaederholmi Vervoort 1972
title_fullStr Halecium jaederholmi Vervoort 1972
title_full_unstemmed Halecium jaederholmi Vervoort 1972
title_sort halecium jaederholmi vervoort 1972
publisher Zenodo
publishDate 2014
url https://dx.doi.org/10.5281/zenodo.4630888
https://zenodo.org/record/4630888
long_lat ENVELOPE(-55.233,-55.233,-61.250,-61.250)
ENVELOPE(8.575,8.575,63.621,63.621)
ENVELOPE(-27.500,-27.500,-77.000,-77.000)
ENVELOPE(40.562,40.562,63.490,63.490)
ENVELOPE(-62.833,-62.833,-64.250,-64.250)
ENVELOPE(93.500,93.500,-66.000,-66.000)
ENVELOPE(-64.067,-64.067,-64.767,-64.767)
ENVELOPE(-63.583,-63.583,-64.833,-64.833)
ENVELOPE(-64.064,-64.064,-64.770,-64.770)
ENVELOPE(50.483,50.483,-66.850,-66.850)
ENVELOPE(158.417,158.417,-78.533,-78.533)
geographic Antarctic
The Antarctic
Weddell Sea
Kerguelen
Shackleton
Australian Antarctic Territory
New Zealand
Weddell
Argentina
Blanco
St. Helena
Coats Land
Pena
Palmer Archipelago
Davis Sea
Arthur Harbor
Yelcho
Arthur Harbour
Edwards Islands
Ritchie
geographic_facet Antarctic
The Antarctic
Weddell Sea
Kerguelen
Shackleton
Australian Antarctic Territory
New Zealand
Weddell
Argentina
Blanco
St. Helena
Coats Land
Pena
Palmer Archipelago
Davis Sea
Arthur Harbor
Yelcho
Arthur Harbour
Edwards Islands
Ritchie
genre Antarc*
Antarctic
Antarctica
Antarktis*
Crozet Islands
Davis Sea
Edwards Islands
Enderby Land
Palmer Archipelago
Prince Edward Islands
Weddell Sea
genre_facet Antarc*
Antarctic
Antarctica
Antarktis*
Crozet Islands
Davis Sea
Edwards Islands
Enderby Land
Palmer Archipelago
Prince Edward Islands
Weddell Sea
op_relation http://zenodo.org/record/226890
http://publication.plazi.org/id/C25BFF98294DFF8F2C3E185B3F31FFAC
http://zoobank.org/BE6B199C-6E81-478A-8AC9-EB674B85FA35
https://zenodo.org/communities/biosyslit
https://dx.doi.org/10.11646/zootaxa.3790.2.2
http://zenodo.org/record/226890
http://publication.plazi.org/id/C25BFF98294DFF8F2C3E185B3F31FFAC
https://dx.doi.org/10.5281/zenodo.226899
http://zoobank.org/BE6B199C-6E81-478A-8AC9-EB674B85FA35
https://dx.doi.org/10.5281/zenodo.4630889
https://zenodo.org/communities/biosyslit
op_rights Open Access
info:eu-repo/semantics/openAccess
op_doi https://doi.org/10.5281/zenodo.4630888
https://doi.org/10.11646/zootaxa.3790.2.2
https://doi.org/10.5281/zenodo.226899
https://doi.org/10.5281/zenodo.4630889
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spelling ftdatacite:10.5281/zenodo.4630888 2023-05-15T14:01:46+02:00 Halecium jaederholmi Vervoort 1972 Peña Cantero, Álvaro L. 2014 https://dx.doi.org/10.5281/zenodo.4630888 https://zenodo.org/record/4630888 unknown Zenodo http://zenodo.org/record/226890 http://publication.plazi.org/id/C25BFF98294DFF8F2C3E185B3F31FFAC http://zoobank.org/BE6B199C-6E81-478A-8AC9-EB674B85FA35 https://zenodo.org/communities/biosyslit https://dx.doi.org/10.11646/zootaxa.3790.2.2 http://zenodo.org/record/226890 http://publication.plazi.org/id/C25BFF98294DFF8F2C3E185B3F31FFAC https://dx.doi.org/10.5281/zenodo.226899 http://zoobank.org/BE6B199C-6E81-478A-8AC9-EB674B85FA35 https://dx.doi.org/10.5281/zenodo.4630889 https://zenodo.org/communities/biosyslit Open Access info:eu-repo/semantics/openAccess Biodiversity Taxonomy Animalia Cnidaria Hydrozoa Leptothecata Haleciidae Halecium Halecium jaederholmi Taxonomic treatment article-journal Text ScholarlyArticle 2014 ftdatacite https://doi.org/10.5281/zenodo.4630888 https://doi.org/10.11646/zootaxa.3790.2.2 https://doi.org/10.5281/zenodo.226899 https://doi.org/10.5281/zenodo.4630889 2022-02-08T13:29:49Z Halecium jaederholmi Vervoort, 1972 (Fig. 9) Halecium jaederholmi Vervoort, 1972 a: 21, fig. 2; 1972 b: 343, fig. 2 b, c; Millard, 1977: 10, fig. 3 A–B; Stepanjants, 1979: 107, pl. 20 fig. 6; Branch & Williams, 1993: 12, fig.; Blanco, 1994 a: 156; 1994 b: 186–187; Vervoort & Watson, 2003: 86; Peña Cantero, 2004: 769; 2008: 455, fig. 1 c, d; El Beshbeeshy & Jarms, 2011: 35 –38, fig. 4. Halecium arboreum — Jäderholm, 1905: 11, pl. 5 fig. 4; Naumov & Stepanjants, 1962: 97; Stepanjants, 1972: 71. Halecium robustum — Ritchie, 1907: 524. Halecium macrocephalum — Ritchie, 1913: 18, fig. 4; Stechow, 1925: 402; Rees & Thursfield, 1965: 108. Halecium sp. Stepanjants, 1972: 72–73, fig. 17. Material examined. Holotype, RMNH 7166, Stn Vema 17 RD 12 , 44° 19 ’S 59 ° 52 ’W (shelf south-east of Peninsula Valdés, Argentina), 13 –06– 1961, 183– 366 m, several colony fragments up to 65 mm long. Diagnosis. Strongly polysiphonic, dark-brown, irregularly branched stems, up to 160 mm long. Branches originating from hydrophore of primary hydrotheca. Hydrothecae alternately arranged in one plane. Hydrotheca at the end of short, adnate hydrophore. Hydrotheca barely widening distally; rim not everted. Adcauline hydrothecal wall adnate to internode and much larger than abcauline one. Hydrothecal aperture slightly directed downwards. A sessile secondary hydrotheca may be present. Female gonotheca kidney-shaped, with two hydrothecae, and up to six eggs. Cnidome consisting of microbasic mastigophores? and microbasic euryteles? Description. The material belongs to at least six stems. Five stems arise from a shell fragment. Stems darkbrown, up to 5 mm in basal diameter, strongly polysiphonic all over the colony; only a few short side-branches monosiphonic. Polysiphony due to accessory tubes (sometimes in very high number). Branching irregular, but alternate in one or two planes in some parts. Stems much branched, giving rise to lower-order branches, frequently strongly directed upwards (some completely vertical). Branches divided into internodes by slightly oblique alternate nodes (Fig. 9 A–E). Hydrothecae alternately arranged in more or less one plane. Adcauline hydrothecal wall almost reaching distal node of internode (Fig. 9 A–E). Hydrothecae resting on adnate hydrophores (Fig. 9 A–E); ratio between adcauline length of hydrophore and diameter at diaphragm 0.5 –1.0. Hydrotheca low, cylindrical, practically not widening distally (Fig. 9 A–E). Adcauline hydrothecal wall adnate and much larger than abcauline one, extending upwards on internode (Fig. 9 A–E). Hydrothecal aperture slightly directed downwards (Fig. 9 A–B,E). Sometimes a sessile secondary hydrotheca present (Fig. 9 D). Female gonothecae present (Fig. 9 F–G), originating from lateral of hydrophore and resting on a short apophysis. Gonotheca kidney-shaped (Fig. 9 F–G), with two hydrothecae at the concave side. Up to six eggs observed (Fig. 9 G). Measurements (in µm). Hydrothecae : diameter at aperture 180–210, diameter at diaphragm c. 190, height 15–25. Internodes : length 670–800, diameter just below distal node 150–250. Gonothecae : height 1370–1500, maximum diameter c. 700, basal pedicel c. 100 x 100. Cnidome : very abundant microbasic euryteles? with round ends [range 9–11 x 4–5, mean 10.0± 0.5 x 4.5 ± 0.3 (n= 10); ratio, range 2.0– 2.5, mean 2.2 ± 0.1 (n= 10)] and smaller microbasic mastigophores? with sharp ends (6–6.5 x 1.5). Remarks. As indicated above Halecium brevithecum is similar to H. jaederholmi , and they could be conspecific. Both have polysiphonic colonies characterized by the extremely low hydrothecae. Both also have hydrothecae with the adcauline wall projecting upwards, being much larger than the rest, and adnate to internode. Additionally, the larger nematocysts seem to be of the same range. There are, however, differences between both species. Although Watson (2008) indicated that “there is indication of desmocytes above the diaphragm” in H. brevithecum , I did not observe them. However, desmocytes are distinctly marked in H. jaederholmi . In addition, a sessile secondary hydrotheca is sometimes present in H. jaederholmi , whereas no secondary hydrotheca has been observed in H. brevithecum Watson (2008) also indicated “no marginal replications or linear series of hydrophores”. Halecium brevithecum is also characterized by the reddish stems, the distinctly longer first hydrothecate internode of the branches, and the more or less perpendicular arrangement of the lower-order branches in relation to the previous ones. Millard (1977) undoubtedly found material of H. jaederholmi . She found female colonies agreeing perfectly with the type material. Colour from medium-brown to dark brown, with thick fascicled stems (up to 8 mm in diameter at base) up to 160 mm in height. Stems “branching irregularly and in all planes”. Millard indicated that “internodes and hydrophores have a structure exactly like that illustrated by Vervoort (1972 a) except that no pseudodiaphragmata are present nor any secondary hydrophores”. As it has been shown above, there is actually no sign of pseudodiaphragm in the holotype. According to Millard (1977) up to six larvae are found in the gonothecae. Branch & Willians (1993) also reported this species from the Marion and Prince Edwards islands area, but the few characters provided by them seem to be taken from Millard’s (1977) description, so it is not possible to be completely sure about the correctness of their identification. Vervoort’s (1972 b) material could correspond to another species. It consists of completely monosiphonic stems with yellowish perisarc. The hydrothecae seem to have the same height all around, and the adcauline side does not seem to fuse with the internode, contrary to what happens in the type material. Similarly, Stepanjants’s (1979: pl. 20 fig. 6) material, although polysiphonic in this case, may also correspond to a different species. Evidently, it would be necessary to re-examine all this material to assess whether it belongs to H. jaederholmi . Due to the similarity between H. jaederholmi and H. brevithecum it is not possible to be completely sure about the proper identification of some previous records of H. jaederholmi , such as those by Jäderholm (1905), Ritchie (1907, 1913), Stepanjants (1979) and Peña Cantero (2008). Ritchie (1907: 524–525), for instance, indicated that in his material “the branches frequently have at their bases at least one athecate internode connecting the stem process with the hydrophore-bearing portions of the branch”. As indicated above, this is one of the few features that allow by now to characterize H. brevithecum . On the other hand, Ritchie (1907: 524) indicated that “rarely with a tier of one or two secondary hydrothecae” and that “inside of the limbus are situated small, light-refracting prominences”, whereas in H. brevithecum neither secondary hydrothecae nor desmocytes have been observed. Ecology and distribution. It is difficult to establish its bathymetric and geographical distribution due to the uncertainty of some records. It has been found for sure at depths between 24 (Vervoort 1972 a) and 400 m (Millard 1977). Gonothecae found in April (Millard 1977) and June (Vervoort 1972 a). Taking into account only the confirmed records, H. jaederholmi seems to have a sub-Antarctic distribution, being known from the Magellan area, in particular from the Atlantic entrance of the Magellan Strait and off Peninsula Valdés (Vervoort 1972 a) and from the Kerguélen area, between Possession and Cochons (Millard 1977). Considering also the unconfirmed previous records, this species would have a Pan-Antarctic distribution, since it has been also reported from Antarctic waters, in particular off South Georgia (Jäderholm 1905), Coats Land, in the Weddell Sea, and St Helena (Ritchie 1907), Enderby Land (Naumov & Stepanjants 1962), Arthur Harbor, Palmer Archipelago (Vervoort 1972 b), Davis Sea (Stepanjants 1972), the South Shetlands Islands (Stepanjants 1979) and off Livingston and Deception islands (Peña Cantero 2008). Additional sub-Antarctic records should be those by Jäderholm (1905), from the Falklands Islands area, Stepanjants (1979), from off Kerguélen and Crozet islands, Branch & Willians (1993), from the Marion and Prince Edwards islands area, and El Beshbeeshy & Jarms (2011), from the Patagonian shelf. : Published as part of Peña Cantero, Álvaro L., 2014, Revision of the Antarctic species of Halecium Oken, 1815 (Cnidaria, Hydrozoa, Haleciidae), pp. 243-280 in Zootaxa 3790 (2) on pages 263-266, DOI: 10.11646/zootaxa.3790.2.2, http://zenodo.org/record/226890 : {"references": ["Vervoort, W. (1972 a) Hydroids from the Theta, Vema and Yelcho cruises of the Lamont-Doherty geological observatory. Zoologische Verhandelingen, 120, 1 - 247.", "Millard, N. A. H. (1977) Hydroids from the Kerguelen and Crozet shelves, collected by the cruise MD. 03 of the Marion-Dufresne. Annals of the South African Museum, 73 (1), 1 - 47.", "Stepanjants, S. D. (1979) Hydroids of the antarctic and subantarctic waters. In: Biological results of the Soviet Antarctic Expedition, 6. Issledovaniya Fauny Morei, 20 (30), 1 - 200, pls 1 - 25. [in Russian]", "Branch, M. L. & Williams, G. C. (1993) The Hydrozoa, Octocorallia and Scleractinia of subantarctic Marion and Prince Edward Islands: illustrated keys to the species and results of the 1982 - 1989 University of Cape Town surveys. South African Journal of Antarctic Research, 23 (1 - 2), 3 - 24.", "Blanco, O. M. (1994 a) Enumeracion sistematica y distribucion geografica preliminar de los Hydroida de la Republica Argentina suborden Athecata (Gymnoblastea, Anthomedusae), Thecata (Calyptoblastea, Leptomedusae) y Limnomedusae. Revista del Museo de La Plata (Zoologia), 14 (161), 181 - 216.", "Vervoort, W. & Watson, J. E. (2003) The Marine Fauna of New Zealand: Leptothecata (Cnidaria: Hydrozoa) (Thecate Hydroids). NIWA Biodiversity Memoir, 119, 1 - 538, figs. 1 - 108.", "Pena Cantero, A. L. (2004) How rich is the deep-sea Antarctic benthic hydroid fauna? Polar Biology, 27, 767 - 774. http: // dx. doi. org / 10.1007 / s 00300 - 004 - 0654 - 9", "El Beshbeeshy, M. & Jarms, G. (2011) Thecate hydroids from the Patagonian shelf (Coelenterata, Hydrozoa, Thecata). Verhandlungen des Naturwissenschaftlichen Vereins in Hamburg, 46, 19 - 233.", "Jaderholm, E. (1905) Hydroiden aus antarktischen und subantarktischen Meeren, gesammelt von der schwedischen Sudpolarexpedition. Wissenschaftliche Ergebnisse der Schwedischen Sudpolar-Expedition 1901 - 1903, 5 (8), 1 - 41, pls 1 - 14.", "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.", "Ritchie, J. (1907) The hydroids of the Scottish National Antarctic Expedition. Transactions of the Royal Society of Edinburgh, 45 (2), 519 - 545, pls 1 - 3. http: // dx. doi. org / 10.1017 / s 0080456800022821", "Ritchie, J. (1913) The hydroid zoophytes collected by the British Antarctic Expedition of Sir Ernest Shackleton, 1908. Proceedings of the Royal Society of Edinburgh, 33 (1), 9 - 34.", "Stechow, E. (1925) Hydroiden der Deutschen Tiefsee Expedition. Wissenschaftliche Ergebnisse de Deutschen Tiefsee- Expedition auf dem Dampfer ' Valdivia' 1898 - 1899, 17, 383 - 546, figs. 1 - 54.", "Rees, W. J. & Thursfield, S. (1965) The hydroid collection of James Ritchie. Proceedings of the Royal Society of Edinburgh, (B), 69 (1 - 2), 34 - 220. http: // dx. doi. org / 10.1017 / s 0080455 x 00010122", "Watson, J. E. (2008) Hydroids of the BANZARE expeditions, 1929 - 1931: the family Haleciidae (Hydrozoa, Leptothecata) from the Australian Antarctic Territory. Memoirs of the Museum of Victoria, 65, 165 - 178.", "Pena Cantero, A. L. (2008) Benthic hydroids (Cnidaria: Hydrozoa) from the Spanish Antarctic expedition Bentart 95. Polar Biology, 31, 451 - 464. http: // dx. doi. org / 10.1007 / s 00300 - 007 - 0371 - 2", "Vervoort, W. (1972 b) Hydroids from submarine cliffs near Arthur Harbour, Palmer Archipelago, Antarctica. Zoologische Mededelingen, 47 (25), 337 - 357."]} Text Antarc* Antarctic Antarctica Antarktis* Crozet Islands Davis Sea Edwards Islands Enderby Land Palmer Archipelago Prince Edward Islands Weddell Sea DataCite Metadata Store (German National Library of Science and Technology) Antarctic The Antarctic Weddell Sea Kerguelen Shackleton Australian Antarctic Territory New Zealand Weddell Argentina Blanco ENVELOPE(-55.233,-55.233,-61.250,-61.250) St. Helena ENVELOPE(8.575,8.575,63.621,63.621) Coats Land ENVELOPE(-27.500,-27.500,-77.000,-77.000) Pena ENVELOPE(40.562,40.562,63.490,63.490) Palmer Archipelago ENVELOPE(-62.833,-62.833,-64.250,-64.250) Davis Sea ENVELOPE(93.500,93.500,-66.000,-66.000) Arthur Harbor ENVELOPE(-64.067,-64.067,-64.767,-64.767) Yelcho ENVELOPE(-63.583,-63.583,-64.833,-64.833) Arthur Harbour ENVELOPE(-64.064,-64.064,-64.770,-64.770) Edwards Islands ENVELOPE(50.483,50.483,-66.850,-66.850) Ritchie ENVELOPE(158.417,158.417,-78.533,-78.533)

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