Hyperoche luetkenides Walker 1906

Hyperoche luetkenides Walker, 1906 (Figs. 8–10) Hyperoche luetkenides Walker, 1906: 453.— Walker 1907: 8, pl. 1, fig. 2. Barnard 1930: 415 (key). Hurley 1969: 33, pl. 19 (map 5). Vinogradov et al . 1982: 282 (key), 289. Barkhatov & Vinogradov 1988: 167, 168 (table). Weigmann-Haass 1991: 170 –176...

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Main Author: Zeidler, Wolfgang
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Published: Zenodo 2015
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Online Access:https://dx.doi.org/10.5281/zenodo.6114492
https://zenodo.org/record/6114492
id ftdatacite:10.5281/zenodo.6114492
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
Arthropoda
Malacostraca
Amphipoda
Hyperiidae
Hyperoche
Hyperoche luetkenides
spellingShingle Biodiversity
Taxonomy
Animalia
Arthropoda
Malacostraca
Amphipoda
Hyperiidae
Hyperoche
Hyperoche luetkenides
Zeidler, Wolfgang
Hyperoche luetkenides Walker 1906
topic_facet Biodiversity
Taxonomy
Animalia
Arthropoda
Malacostraca
Amphipoda
Hyperiidae
Hyperoche
Hyperoche luetkenides
description Hyperoche luetkenides Walker, 1906 (Figs. 8–10) Hyperoche luetkenides Walker, 1906: 453.— Walker 1907: 8, pl. 1, fig. 2. Barnard 1930: 415 (key). Hurley 1969: 33, pl. 19 (map 5). Vinogradov et al . 1982: 282 (key), 289. Barkhatov & Vinogradov 1988: 167, 168 (table). Weigmann-Haass 1991: 170 –176, 177 (map), figs. 1–27. De Broyer & Jażdżewski 1993: 114. Vinogradov & Semenova 1996: 618. Barkhatov et al . 1999: 808 (table), 809–810. Vinogradov 1999: 1146 (table), 1186 (incl. key). Zeidler 2004: 29. Zeidler & De Broyer 2009: 46, fig. 14 (distribution). Zeidler & De Broyer 2014: 304, map 11. non [mis-identification = Hyperoche capucinus ]— Monod 1926: 49–50, figs. 47–48. Hyperoche medusarum [mis-identification]— Barnard 1932: 276. Hardy & Gunther 1935: 195, 197. Hurley 1955: 144 –147, figs. 96–114. Hurley 1960: 112. Hurley 1969: 33, pl. 19 (maps). Lipskaya 1980: 13 –14. Ramirez & Vinas 1985: 32 –33, figs. 3–4. Jażdżewski & Presler 1988: 63 & 69 (tables), 66, figs. 1–2. Torres et al . 1994: 210 –211 (incl. table). Hyperoche cryptodactylus Stebbing, 1888: 1399 –1402, pl. 170.— Bovallius 1889: 86 (key), 105–106. Walker 1904: 236. Steuer 1911: 674 (key). Dick 1970: 36 (key), 57, fig. 6. Vinogradov et al. 1982: 283 (key), 285–286, fig. 144. Vinogradov 1999: 1146 (table), 1186 (incl. key), fig. 4.106. NEW SYNONYMY . non [mis-identification = H. medusarum ]— Gasca 2009 b: 217 (table). Lavaneigos & Hereu 2009: 142, 151 (appendix). Type material . The unique holotype male (12 mm) of Hyperoche luetkenides is in the NHM, London (1907.6.13.4 & 5); on two microscope slides. The type locality is the Pacific Sector of the Southern Ocean, south of Macquarie Island [57 ° 25 ’ 30 ”S 151 ° 43 ’E], Discovery stn. Type material of synonyms. The unique holotype male (about 7 mm) of Hyperoche cryptodactylus is in the NHM, London (89.5.15.224); on two microscope slides. The type locality is the south-east Atlantic, off the Cape of Good Hope [34 ° 41 ’S 18 ° 36 ’E], Challenger stn. 141, surface, 17 December 1873. Diagnosis . Females: Sexually mature at about 14–18 mm. Antennae 1 as long as head, about 1.3 x A 2. Head length equal to first two pereonites combined. Pereon globular, length almost 1.6 x pleon. Gnathopod 1; basis marginally shorter than remaining articles combined, relatively broad with maximum width about half length; merus spoon-shaped, projecting under carpus to slightly beyond base of propodus, with fringe of setae on distal margin; carpal process extends beyond distal margin of propodus to middle of dactylus or more, anterior margin denticulate; posterior and distal margin of propodus also denticulate; dactylus slightly curved, posterior margin finely denticulate, length almost half propodus. Gnathopod 2 slightly longer than G 1 but similar in structure except for marginally shorter spoon-shaped process of merus. Pereopods 3 & 4 similar in length to P 5 & 6, or marginally shorter. Pereopod 3; basis length 2.6 x merus; carpus with postero-distal corner produced into distinct tooth with denticulate margins, length 1.3 x merus and 0.8 x propodus; posterior margin of propodus denticulate; dactylus length slightly more than 0.2 x propodus. Pereopod 4 slightly more slender than P 3 but similar in structure, except the postero-distal corner of the merus is rounded. Pereopods 5 & 6 are similar in size and structure; basis length about twice merus; carpus length about 1.3 x merus, marginally shorter or equal to propodus; dactylus length slightly more than 0.3 x propodus. Pereopod 7; coxa fused with pereonite; similar in structure to P 6 but slightly shorter because merus and carpus are relatively shorter. Epimeral plates with postero-distal corner produced into small point. Uropod 1; peduncle not reaching to limit of peduncle of U 2 and to slightly less than half peduncle of U 3; inner ramus marginally longer than outer, slightly shorter than peduncle. Uropod 2; inner ramus slightly shorter than peduncle, about 1.4 x length of outer ramus. Uropod 3; inner ramus marginally longer and wider than outer, about half-length peduncle. Telson triangular, as long as wide, about 0.4 x length of peduncle of U 3. Colour in life: red-brown all over except for urosomites 2–3 and the uropoda; these clear with few brown spots; eyes pale green (pers. obs.). Males: Sexually mature at about 15–18 mm. Antennae slightly longer than entire animal. Pereon and pleon slender, of similar length. Appendages generally more slender than in females, especially the gnathopoda, otherwise very similar in structure and relative lengths of articles, except for the following minor variations. Gnathopoda with merus not projected as far under the carpus. Pereopods 3 & 4 with postero-distal corner of the carpus more prominent and pointed. Epimeral plates relatively much longer and deeper. Uropod 1; peduncle extends to limit of peduncle of U 2; both rami with characteristic proximal excavation. Telson as wide as long, slightly shorter than 0.4 x length of peduncle of U 3. Material examined. The unique types of Hyperoche luetkenides and H. cryptodactylus as detailed above and the following additional material. Antarctic, Atlantic Sector: Female (USNM 301630), south of the Falkland Islands [54 ° 40 ’S 58 ° 58 ’W to 55 °06’S 59 ° 00’W], R/V Eltanin (USARP) cruise 6, stn. 348, 644 m, University of Southern California, 4 December 1962. Antarctic, Indian Sector: Juvenile male (SAMA C 3765), off Wilkes Land [65 ° 10 ’S 109 ° 32 ’E], BANZARE stn. 96, 2200 mw, 26 January 1931. Six females (4 lots, SAMA C 7975 – 7938), Prydz Bay [range 66 ° 32 ’– 68 ° 30 ’S 68 ° 51 ’– 74 ° 57 ’E], WZ on Aurora Australis (ANARE), 48–800 m, January/ February 1991. Antarctic, Pacific Sector: Female (SAMA C 7939), west of Macquarie Island [54 ° 50.5 ’S 158 ° 40.1 ’E to 54 ° 41.9 ’S 158 ° 43 ’E], CSIRO FRV Southern Surveyor stn. SS01/ 52, 959.6 m, 22 January 1999. Antarctic Peninsula: Male (USNM 1090279), Palmer Archipelago, Cobalescou Island towards Alcock Island [64 ° 11 ’ 11 ”S 61 ° 35 ’ 24 ”W], R/V Hero (USARP), Cruise 721, stn. 303, 100 – 150 m, Smithsonian Oceanographic Sorting Center, 16 December 1971. Remarks. This is one of the largest species of Hyperoche , reaching sexual maturity at about 14–18 mm. The close morphological similarity of this species to H. medusarum , and the minor characters that distinguish it, have already been discussed under that species. One might have considered it a synonym of H. medusarum , thus making it a bi-polar species. However, it is more likely that the two species evolved from a common ancestor that was once more widespread in the Atlantic, in the past, when conditions there were much colder. As conditions became warmer the two populations became geographically isolated and evolved into separate species. This scenario is similar to that proposed for Primno macropa and P. abyssalis by Bowman (1985). Future genetic studies may help to resolve this issue, but for the time being it seems best to recognise H. luetkenides as a valid species restricted to the colder waters of the Southern Hemisphere with H. medusarum a cold-water Northern Hemisphere species. Regarding the validity of H. cryptodactylus , this species was described from an imperfect, juvenile male specimen, and is distinguished from its congeners by the retractile dactylus of gnathopod 2. However, the validity of this species is very doubtful in view of the current finding regarding the occurrence of retractile dactyls of pereopoda for several specimens of H. medusarum (Fig. 3), and also for the second gnathopod of a female specimen of H. luetkenides (Fig. 9). Stebbing (1888) illustrated the second gnathopod from the right with a retractile dactyl but did not mention the status of the one on the left, which judging by his illustration of the habitus, does not have a retractile dactyl, similar to that found in the specimen of H. luetkenides illustrated here (Fig. 9). An examination of the type has confirmed this observation. Thus, H. cryptodactylus , which is otherwise indistinguishable from H. luetkenides , must be considered synonymous. This would make it the senior synonym and present a potential nomenclatural problem. However, apart from the dubious record of Walker (1904), all previous literature records of H. cryptodactylus refer to Stebbing’s (1888) account of the unique type. The specimen recorded by Gasca (2009 b) having been re-examined (Gasca pers. com. Feb. 2014) and re-identified as a moulting juvenile of H. medusarum . Records of H. luetkenides , on the other hand, refer to a relatively rare, but better known, Antarctic /sub-Antarctic species. Thus, nomenclatural stability would be best served, in this instance, by the suppression of the specific name “ cryptodactylus ” in favour of “ luetkenides ”, especially since the name was constructed to reflect the retractile dactyl of gnathopod 2, which has been demonstrated here to be an invalid specific character for Hyperoche. Thus, its future use for the species in question would also be misleading. A gelatinous plankton associate has not been recorded for this species. Distribution. A relatively rare species restricted mainly to the region between the Antarctic Polar Front and the Antarctic Continent, sometimes occurring further north with the incursion of colder water. Reliable records are from the Weddell Sea, Scotia Sea, Prydz Bay, off Wilkes Land and near Macquarie Island. The most northerly record is the type locality for H. cryptodactylus , from off South Africa; it’s occurrence there probably due to an influx of cold water to that region. The few available catch records suggest that it inhabits near-surface waters. : Published as part of Zeidler, Wolfgang, 2015, A review of the hyperiidean amphipod genus Hyperoche Bovallius, 1887 (Crustacea: Amphipoda: Hyperiidea: Hyperiidae), with the description of a new genus to accommodate H. shihi Gasca, 2005, pp. 151-192 in Zootaxa 3905 (2) on pages 168-173, DOI: 10.11646/zootaxa.3905.2.1, http://zenodo.org/record/233364 : {"references": ["Walker, A. O. (1906) Preliminary descriptions of new species of Amphipoda from the ' Discovery' Antarctic Expedition, 1902 - 1904. Annals and Magazine of Natural History, Series 7 (17), 452 - 458.", "Walker, A. O. (1907) Crustacea. III. - Amphipoda. National Antarctic Expedition, British Museum (Natural History), 3, 1 - 39, 13 plates.", "Barnard, K. H. (1930) Crustacea. Part X 1: Amphipoda. British Antarctic (Terra Nova) Expedition 1910, Zoology, 8 (4), 307 - 454.", "Hurley, D. E. (1969) Amphipoda Hyperiidea. In: ' Antarctic Map Folio Series', Folio 11, Distribution of selected groups of marine invertebrates in waters south of 35 \u00b0 S Latitude. American Geographical Society, New York, pp. 32 - 34, sheets 1 - 2.", "Vinogradov, M. E., Volkov, A. F. & Semenova, T. N. (1982) Amfipody-Giperiidy (Amphipoda: Hyperiidea) Mirovogo Okeanea. Akademiya Nauk SSSR, Opredeliteli po Faune SSSR No. 132. Leningrad, 492 pp. [in Russian, English translation, 1996, Smithsonian Institution Libraries, Washington D. C., D. Siegel-Causey, Scientific Editor]", "Barkhatov, V. A. & Vinogradov, M. E. (1988) Hyperiid amphipods of the subantarctic and adjacent areas in the central part of the Pacific Ocean. In: Vinogradov, M. E. & Flint, M. V. (Eds.), Ekosistemy subantarkticheskoi zony Tikhogo okeana. Nauka, Moscow, pp. 228 - 245. [in Russian, Subantarctic zone ecosystems in the Pacific, pp. 166 - 177. (in English)]", "Weigmann-Haass, R. (1991) Zur Taxonomie und Verbreitung der Gattung Hyperoche Bovallius 1887 im antarktischen teil des Atlantik. Senckenbergiana Biologie, 71 (1 / 3), 169 - 179. [Frankfurt am Main]", "De Broyer, C. & Jazdzewski, K. (1993) Contribution to the marine inventory. A checklist of the Amphipoda (Crustacea) of the Southern Ocean. Documents de travail de l'Institut royal des Sciences naturelles de Belgique, 73, 1 - 154.", "Vinogradov, M. E. & Semenova, T. N. (1996) Supplement. In: Vinogradov, M. E., Volkov, A. F. & Semenova, T. N. (Eds.), Hyperiid amphipods (Amphipoda, Hyperiidea) of the world oceans. Smithsonian Institution Libraries, D. Siegel-Causey, Scientific Editor, Washington D. C., pp. 609 - 621. [English translation from Russian]", "Barkhatov, V. A., Vinogradov, M. E. & Vinogradov, G. M. (1999) Boundaries of the areals of hyperiid amphipods in the epipelagic part of the Southern Subtropical Frontal Zone of the Pacific Ocean. Oceanology, 39 (6), 806 - 812. [translated from the Russian, Okeanologiya, 39 (6), 1999, pp. 887 - 894]", "Zeidler, W. (2004) A review of the hyperiidean amphipod superfamily Phronimoidea Bowman & Gruner, 1973 (Crustacea: Amphipoda: Hyperiidea). Zootaxa, 567, 1 - 66.", "Zeidler, W. & De Broyer, C. (2009) Catalogue of the Hyperiidean Amphipoda (Crustacea) of the Southern Ocean with distribution and ecological data. In: De Broyer, C. (Ed.), Census of Antarctic Marine Life: Synopsis of the Amphipoda of the Southern Ocean. Vol. 3. Bulletin de l'Institut Royal des Sciences Naturelles de Belgique, Biologie, 79 (Supplement 1), pp. 1 - 96 + 4 colour plates.", "Zeidler, W. & De Broyer, C. (2014) Chapter 6.8. Amphipoda: Hyperiidea. In: De Broyer, C., Koubbi, P., Griffiths, H. J., Raymond, B., Udekem d'Acoz, C. d', et al. (Eds.), Biogeographic Atlas of the Southern Ocean. Scientific Committee on Antarctic Research, Cambridge, pp. 303 - 308.", "Monod, T. (1926) Tanaidaces, Isopodes et Amphipodes. Expedition Antarctique Belge. Resultats du Voyage de la Belgica en 1897 - 99, sous le commandement de A. De Gerlache de Gomery. Rapports Scientifiques, Zoologie, 1 - 67, text figs. 1 - 61.", "Barnard, K. H. (1932) Amphipoda. Discovery Reports, 5, 1 - 326.", "Hardy, A. C. & Gunther, E. R. (1935) Part IV. The Zooplankton. Section II. Distribution (cont.), Crustacea (cont.), In: Hardy, A. C. & Gunther, E. R. (Eds.), The Plankton of the South Georgia whaling grounds and adjacent wtares, 1926 - 1927. Discovery Reports, 11, pp. 194 - 272. [total page number: 456 pp.]", "Hurley, D. E. (1955) Pelagic amphipods of the sub-order Hyperiidea in New Zealand waters. I. Systematics. Transactions of the Royal Society of New Zealand, 83 (1), 119 - 194.", "Hurley, D. E. (1960) Amphipoda Hyperiidea. B. A. N. Z. Antarctic Research Expedition 1929 - 1931 Reports, Series B (Zoology and Botany), 8 (5), 107 - 113.", "Lipskaya, N. Y. (1980) The metabolic rate of various Hyperiidae in the South Pacific. Gidrobiologicheskii Zhurnal, 16 (6), 14 - 17. [in Russian, Hydrobiological Journal, 16 (6), 13 - 16. (in English)]", "Ramirez, F. C. & Vinas, M. D. (1985) Hyperiid amphipods found in Argentine Shelf waters. Physis, Secc. A, 43 (104), 25 - 37.", "Jazdzewski, K. & Presler, E. (1988) Hyperiid amphipods collected by the Polish Antarctic Expedition to the Scotia Sea and in the South Shetland Islands area. Crustaceana, Supplement, 13, 272 - 277.", "Torres, J. J., Aarset, A. V., Donelly, J., Hopkins, T. L., Lancraft, T. M. & Ainley, D. G. (1994) Metabolism of Antarctic micronectonic Crustacea as a function of depth of occurrence and season. Marine Ecology Progress Series, 113, 207 - 219. http: // dx. doi. org / 10.3354 / meps 113207", "Stebbing, T. R. R. (1888) Report on the Amphipoda collected by H. M. S. ' Challenger' during the years 1873 - 1876. Report on the Scientific Results of the Voyage of H. M. S. ' Challenger' during the years 1873 - 76. Zoology, 29, i - xxiv & 1 - 1737, plates 1 - 210.", "Bovallius, C. (1889) Contributions to a monograph of the Amphipoda Hyperiidea; Part 1: 2. The families Cyllopodidae, Paraphronimidae, Thaumatopsidae, Mimonectidae, Hyperiidae, Phronimidae and Anchylomeridae. Kongliga Svenska Vetenskaps-Akademiens Handlingar, 22 (7), 1 - 434, plates 1 - 18.", "Walker, A. O. (1904) Report on the Amphipoda collected by Professor Herdman, at Ceylon, in 1902. Report to the Government of Ceylon on the Pearl Oyster Fisheries of the Gulf of Manaar, Supplementary Report No. XVII, Part II, 229 - 300, plates 1 - 8.", "Steuer, A. (1911) Adriatische Planktonamphipoden. Sitzungsberichte der Kaiserlichen Akademie der Wissenschaften, Mathematisch-Naturwissenschaftliche Klasse, 120 (6), 671 - 688, plates 1 - 3. [Wien]", "Dick, R. I. (1970) Hyperiidea (Crustacea: Amphipoda) Keys to South African genera and species, and a distribution list. Annals of the South African Museum, 57 (3), 25 - 86.", "Gasca, R. (2009 b) Part 22. Hyperiid Amphipods. In: Wehrtmann, I. S. & Cortes, J. (Eds.), Marine Biodiversty of Costa Rica, Central America. Monographiae Biologicae 86. Springer & Business Media B. V., Dordrecht, pp. 275 - 282, + tables (pp. 217 & 218).", "Lavaniegos, B. E. & Hereu, C. M. (2009) Seasonal variation in hyperiid amphipod abundance and diversity and influence of mesoscale structures off Baja California. Marine Ecology Progress Series, 394, 137 - 152. http: // dx. doi. org / 10.3354 / meps 08285", "Bowman, T. E. (1985) The correct identity of the pelagic amphipod Primno macropa, with a diagnosis of Primno abyssalis (Hyperiidea: Phrosinidae). Proceedings of the Biological Society of Washington, 98 (1), 121 - 126."]}
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author Zeidler, Wolfgang
author_facet Zeidler, Wolfgang
author_sort Zeidler, Wolfgang
title Hyperoche luetkenides Walker 1906
title_short Hyperoche luetkenides Walker 1906
title_full Hyperoche luetkenides Walker 1906
title_fullStr Hyperoche luetkenides Walker 1906
title_full_unstemmed Hyperoche luetkenides Walker 1906
title_sort hyperoche luetkenides walker 1906
publisher Zenodo
publishDate 2015
url https://dx.doi.org/10.5281/zenodo.6114492
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geographic Antarctic
Southern Ocean
The Antarctic
Antarctic Peninsula
Weddell Sea
Baja
Scotia Sea
South Shetland Islands
Prydz Bay
Pacific
Indian
New Zealand
Weddell
Argentine
Atlantik
Wilkes Land
Alcock
Hurley
Flint
Gerlache
De Gerlache
Ramirez
Herdman
Palmer Archipelago
Cobalescou
Cobalescou Island
Alcock Island
geographic_facet Antarctic
Southern Ocean
The Antarctic
Antarctic Peninsula
Weddell Sea
Baja
Scotia Sea
South Shetland Islands
Prydz Bay
Pacific
Indian
New Zealand
Weddell
Argentine
Atlantik
Wilkes Land
Alcock
Hurley
Flint
Gerlache
De Gerlache
Ramirez
Herdman
Palmer Archipelago
Cobalescou
Cobalescou Island
Alcock Island
genre Alcock Island
Antarc*
Antarctic
Antarctic Peninsula
Antarctique*
Antarktis*
aurora australis
Cobalescou Island
Macquarie Island
Palmer Archipelago
Prydz Bay
Scientific Committee on Antarctic Research
Scotia Sea
South Shetland Islands
Southern Ocean
Weddell Sea
Wilkes Land
genre_facet Alcock Island
Antarc*
Antarctic
Antarctic Peninsula
Antarctique*
Antarktis*
aurora australis
Cobalescou Island
Macquarie Island
Palmer Archipelago
Prydz Bay
Scientific Committee on Antarctic Research
Scotia Sea
South Shetland Islands
Southern Ocean
Weddell Sea
Wilkes Land
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spelling ftdatacite:10.5281/zenodo.6114492 2023-05-15T13:14:06+02:00 Hyperoche luetkenides Walker 1906 Zeidler, Wolfgang 2015 https://dx.doi.org/10.5281/zenodo.6114492 https://zenodo.org/record/6114492 unknown Zenodo http://zenodo.org/record/233364 http://publication.plazi.org/id/5278F078FFD3FF88FFA8FF05635AFF8A http://zoobank.org/A47AE95B-99CA-42F0-979F-1CAAD1C3B191 https://zenodo.org/communities/biosyslit https://dx.doi.org/10.11646/zootaxa.3905.2.1 http://zenodo.org/record/233364 http://publication.plazi.org/id/5278F078FFD3FF88FFA8FF05635AFF8A https://dx.doi.org/10.5281/zenodo.233372 https://dx.doi.org/10.5281/zenodo.233373 https://dx.doi.org/10.5281/zenodo.233374 https://dx.doi.org/10.5281/zenodo.233367 http://zoobank.org/A47AE95B-99CA-42F0-979F-1CAAD1C3B191 https://dx.doi.org/10.5281/zenodo.6114491 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 Arthropoda Malacostraca Amphipoda Hyperiidae Hyperoche Hyperoche luetkenides article-journal ScholarlyArticle Taxonomic treatment Text 2015 ftdatacite https://doi.org/10.5281/zenodo.6114492 https://doi.org/10.11646/zootaxa.3905.2.1 https://doi.org/10.5281/zenodo.233372 https://doi.org/10.5281/zenodo.233373 https://doi.org/10.5281/zenodo.233374 https://doi.org/10.5281/zenodo.233367 https://do 2022-04-01T10:48:32Z Hyperoche luetkenides Walker, 1906 (Figs. 8–10) Hyperoche luetkenides Walker, 1906: 453.— Walker 1907: 8, pl. 1, fig. 2. Barnard 1930: 415 (key). Hurley 1969: 33, pl. 19 (map 5). Vinogradov et al . 1982: 282 (key), 289. Barkhatov & Vinogradov 1988: 167, 168 (table). Weigmann-Haass 1991: 170 –176, 177 (map), figs. 1–27. De Broyer & Jażdżewski 1993: 114. Vinogradov & Semenova 1996: 618. Barkhatov et al . 1999: 808 (table), 809–810. Vinogradov 1999: 1146 (table), 1186 (incl. key). Zeidler 2004: 29. Zeidler & De Broyer 2009: 46, fig. 14 (distribution). Zeidler & De Broyer 2014: 304, map 11. non [mis-identification = Hyperoche capucinus ]— Monod 1926: 49–50, figs. 47–48. Hyperoche medusarum [mis-identification]— Barnard 1932: 276. Hardy & Gunther 1935: 195, 197. Hurley 1955: 144 –147, figs. 96–114. Hurley 1960: 112. Hurley 1969: 33, pl. 19 (maps). Lipskaya 1980: 13 –14. Ramirez & Vinas 1985: 32 –33, figs. 3–4. Jażdżewski & Presler 1988: 63 & 69 (tables), 66, figs. 1–2. Torres et al . 1994: 210 –211 (incl. table). Hyperoche cryptodactylus Stebbing, 1888: 1399 –1402, pl. 170.— Bovallius 1889: 86 (key), 105–106. Walker 1904: 236. Steuer 1911: 674 (key). Dick 1970: 36 (key), 57, fig. 6. Vinogradov et al. 1982: 283 (key), 285–286, fig. 144. Vinogradov 1999: 1146 (table), 1186 (incl. key), fig. 4.106. NEW SYNONYMY . non [mis-identification = H. medusarum ]— Gasca 2009 b: 217 (table). Lavaneigos & Hereu 2009: 142, 151 (appendix). Type material . The unique holotype male (12 mm) of Hyperoche luetkenides is in the NHM, London (1907.6.13.4 & 5); on two microscope slides. The type locality is the Pacific Sector of the Southern Ocean, south of Macquarie Island [57 ° 25 ’ 30 ”S 151 ° 43 ’E], Discovery stn. Type material of synonyms. The unique holotype male (about 7 mm) of Hyperoche cryptodactylus is in the NHM, London (89.5.15.224); on two microscope slides. The type locality is the south-east Atlantic, off the Cape of Good Hope [34 ° 41 ’S 18 ° 36 ’E], Challenger stn. 141, surface, 17 December 1873. Diagnosis . Females: Sexually mature at about 14–18 mm. Antennae 1 as long as head, about 1.3 x A 2. Head length equal to first two pereonites combined. Pereon globular, length almost 1.6 x pleon. Gnathopod 1; basis marginally shorter than remaining articles combined, relatively broad with maximum width about half length; merus spoon-shaped, projecting under carpus to slightly beyond base of propodus, with fringe of setae on distal margin; carpal process extends beyond distal margin of propodus to middle of dactylus or more, anterior margin denticulate; posterior and distal margin of propodus also denticulate; dactylus slightly curved, posterior margin finely denticulate, length almost half propodus. Gnathopod 2 slightly longer than G 1 but similar in structure except for marginally shorter spoon-shaped process of merus. Pereopods 3 & 4 similar in length to P 5 & 6, or marginally shorter. Pereopod 3; basis length 2.6 x merus; carpus with postero-distal corner produced into distinct tooth with denticulate margins, length 1.3 x merus and 0.8 x propodus; posterior margin of propodus denticulate; dactylus length slightly more than 0.2 x propodus. Pereopod 4 slightly more slender than P 3 but similar in structure, except the postero-distal corner of the merus is rounded. Pereopods 5 & 6 are similar in size and structure; basis length about twice merus; carpus length about 1.3 x merus, marginally shorter or equal to propodus; dactylus length slightly more than 0.3 x propodus. Pereopod 7; coxa fused with pereonite; similar in structure to P 6 but slightly shorter because merus and carpus are relatively shorter. Epimeral plates with postero-distal corner produced into small point. Uropod 1; peduncle not reaching to limit of peduncle of U 2 and to slightly less than half peduncle of U 3; inner ramus marginally longer than outer, slightly shorter than peduncle. Uropod 2; inner ramus slightly shorter than peduncle, about 1.4 x length of outer ramus. Uropod 3; inner ramus marginally longer and wider than outer, about half-length peduncle. Telson triangular, as long as wide, about 0.4 x length of peduncle of U 3. Colour in life: red-brown all over except for urosomites 2–3 and the uropoda; these clear with few brown spots; eyes pale green (pers. obs.). Males: Sexually mature at about 15–18 mm. Antennae slightly longer than entire animal. Pereon and pleon slender, of similar length. Appendages generally more slender than in females, especially the gnathopoda, otherwise very similar in structure and relative lengths of articles, except for the following minor variations. Gnathopoda with merus not projected as far under the carpus. Pereopods 3 & 4 with postero-distal corner of the carpus more prominent and pointed. Epimeral plates relatively much longer and deeper. Uropod 1; peduncle extends to limit of peduncle of U 2; both rami with characteristic proximal excavation. Telson as wide as long, slightly shorter than 0.4 x length of peduncle of U 3. Material examined. The unique types of Hyperoche luetkenides and H. cryptodactylus as detailed above and the following additional material. Antarctic, Atlantic Sector: Female (USNM 301630), south of the Falkland Islands [54 ° 40 ’S 58 ° 58 ’W to 55 °06’S 59 ° 00’W], R/V Eltanin (USARP) cruise 6, stn. 348, 644 m, University of Southern California, 4 December 1962. Antarctic, Indian Sector: Juvenile male (SAMA C 3765), off Wilkes Land [65 ° 10 ’S 109 ° 32 ’E], BANZARE stn. 96, 2200 mw, 26 January 1931. Six females (4 lots, SAMA C 7975 – 7938), Prydz Bay [range 66 ° 32 ’– 68 ° 30 ’S 68 ° 51 ’– 74 ° 57 ’E], WZ on Aurora Australis (ANARE), 48–800 m, January/ February 1991. Antarctic, Pacific Sector: Female (SAMA C 7939), west of Macquarie Island [54 ° 50.5 ’S 158 ° 40.1 ’E to 54 ° 41.9 ’S 158 ° 43 ’E], CSIRO FRV Southern Surveyor stn. SS01/ 52, 959.6 m, 22 January 1999. Antarctic Peninsula: Male (USNM 1090279), Palmer Archipelago, Cobalescou Island towards Alcock Island [64 ° 11 ’ 11 ”S 61 ° 35 ’ 24 ”W], R/V Hero (USARP), Cruise 721, stn. 303, 100 – 150 m, Smithsonian Oceanographic Sorting Center, 16 December 1971. Remarks. This is one of the largest species of Hyperoche , reaching sexual maturity at about 14–18 mm. The close morphological similarity of this species to H. medusarum , and the minor characters that distinguish it, have already been discussed under that species. One might have considered it a synonym of H. medusarum , thus making it a bi-polar species. However, it is more likely that the two species evolved from a common ancestor that was once more widespread in the Atlantic, in the past, when conditions there were much colder. As conditions became warmer the two populations became geographically isolated and evolved into separate species. This scenario is similar to that proposed for Primno macropa and P. abyssalis by Bowman (1985). Future genetic studies may help to resolve this issue, but for the time being it seems best to recognise H. luetkenides as a valid species restricted to the colder waters of the Southern Hemisphere with H. medusarum a cold-water Northern Hemisphere species. Regarding the validity of H. cryptodactylus , this species was described from an imperfect, juvenile male specimen, and is distinguished from its congeners by the retractile dactylus of gnathopod 2. However, the validity of this species is very doubtful in view of the current finding regarding the occurrence of retractile dactyls of pereopoda for several specimens of H. medusarum (Fig. 3), and also for the second gnathopod of a female specimen of H. luetkenides (Fig. 9). Stebbing (1888) illustrated the second gnathopod from the right with a retractile dactyl but did not mention the status of the one on the left, which judging by his illustration of the habitus, does not have a retractile dactyl, similar to that found in the specimen of H. luetkenides illustrated here (Fig. 9). An examination of the type has confirmed this observation. Thus, H. cryptodactylus , which is otherwise indistinguishable from H. luetkenides , must be considered synonymous. This would make it the senior synonym and present a potential nomenclatural problem. However, apart from the dubious record of Walker (1904), all previous literature records of H. cryptodactylus refer to Stebbing’s (1888) account of the unique type. The specimen recorded by Gasca (2009 b) having been re-examined (Gasca pers. com. Feb. 2014) and re-identified as a moulting juvenile of H. medusarum . Records of H. luetkenides , on the other hand, refer to a relatively rare, but better known, Antarctic /sub-Antarctic species. Thus, nomenclatural stability would be best served, in this instance, by the suppression of the specific name “ cryptodactylus ” in favour of “ luetkenides ”, especially since the name was constructed to reflect the retractile dactyl of gnathopod 2, which has been demonstrated here to be an invalid specific character for Hyperoche. Thus, its future use for the species in question would also be misleading. A gelatinous plankton associate has not been recorded for this species. Distribution. A relatively rare species restricted mainly to the region between the Antarctic Polar Front and the Antarctic Continent, sometimes occurring further north with the incursion of colder water. Reliable records are from the Weddell Sea, Scotia Sea, Prydz Bay, off Wilkes Land and near Macquarie Island. The most northerly record is the type locality for H. cryptodactylus , from off South Africa; it’s occurrence there probably due to an influx of cold water to that region. The few available catch records suggest that it inhabits near-surface waters. : Published as part of Zeidler, Wolfgang, 2015, A review of the hyperiidean amphipod genus Hyperoche Bovallius, 1887 (Crustacea: Amphipoda: Hyperiidea: Hyperiidae), with the description of a new genus to accommodate H. shihi Gasca, 2005, pp. 151-192 in Zootaxa 3905 (2) on pages 168-173, DOI: 10.11646/zootaxa.3905.2.1, http://zenodo.org/record/233364 : {"references": ["Walker, A. O. (1906) Preliminary descriptions of new species of Amphipoda from the ' Discovery' Antarctic Expedition, 1902 - 1904. Annals and Magazine of Natural History, Series 7 (17), 452 - 458.", "Walker, A. O. (1907) Crustacea. III. - Amphipoda. National Antarctic Expedition, British Museum (Natural History), 3, 1 - 39, 13 plates.", "Barnard, K. H. (1930) Crustacea. 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Proceedings of the Biological Society of Washington, 98 (1), 121 - 126."]} Text Alcock Island Antarc* Antarctic Antarctic Peninsula Antarctique* Antarktis* aurora australis Cobalescou Island Macquarie Island Palmer Archipelago Prydz Bay Scientific Committee on Antarctic Research Scotia Sea South Shetland Islands Southern Ocean Weddell Sea Wilkes Land DataCite Metadata Store (German National Library of Science and Technology) Antarctic Southern Ocean The Antarctic Antarctic Peninsula Weddell Sea Baja Scotia Sea South Shetland Islands Prydz Bay Pacific Indian New Zealand Weddell Argentine Atlantik Wilkes Land ENVELOPE(120.000,120.000,-69.000,-69.000) Alcock ENVELOPE(-61.127,-61.127,-64.240,-64.240) Hurley ENVELOPE(51.350,51.350,-66.283,-66.283) Flint ENVELOPE(-65.417,-65.417,-67.333,-67.333) Gerlache ENVELOPE(99.033,99.033,-66.500,-66.500) De Gerlache ENVELOPE(-62.333,-62.333,-64.500,-64.500) Ramirez ENVELOPE(-56.683,-56.683,-63.583,-63.583) Herdman ENVELOPE(-60.526,-60.526,-72.655,-72.655) Palmer Archipelago ENVELOPE(-62.833,-62.833,-64.250,-64.250) Cobalescou ENVELOPE(-61.650,-61.650,-64.183,-64.183) Cobalescou Island ENVELOPE(-61.650,-61.650,-64.179,-64.179) Alcock Island ENVELOPE(-61.133,-61.133,-64.233,-64.233)