Lycaea nasuta Claus 1879

Lycaea nasuta Claus, 1879 (Figs 8–9) Lycaea nasuta Claus, 1879: 185 (39).— Bovallius 1887: 32.— Claus 1887: 62, pl. 18, figs 1–7.— Chevreux 1927: 140.— Barnard 1930: 430–431, fig. 59.— Barnard 1932: 291.— Hurley 1955: 180 (key).— Kane 1962: 310.— Siegfried 1963: 6 (list), 10.— Dick 1970: 67.— Harbis...

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Main Author:	Zeidler, Wolfgang
Format:	Text
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Published:	Zenodo 2021
Subjects:	Biodiversity Taxonomy Animalia Arthropoda Malacostraca Amphipoda Lycaeidae Lycaea Lycaea nasuta Antarctic Southern Ocean Baja Pacific Indian New Zealand Kane Hurley Ortiz Chevreux Suarez Escobar Galindo Llorente Batta Antarc*
Online Access:	https://dx.doi.org/10.5281/zenodo.5770321 https://zenodo.org/record/5770321

id	ftdatacite:10.5281/zenodo.5770321
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 Lycaeidae Lycaea Lycaea nasuta
spellingShingle	Biodiversity Taxonomy Animalia Arthropoda Malacostraca Amphipoda Lycaeidae Lycaea Lycaea nasuta Zeidler, Wolfgang Lycaea nasuta Claus 1879
topic_facet	Biodiversity Taxonomy Animalia Arthropoda Malacostraca Amphipoda Lycaeidae Lycaea Lycaea nasuta
description	Lycaea nasuta Claus, 1879 (Figs 8–9) Lycaea nasuta Claus, 1879: 185 (39).— Bovallius 1887: 32.— Claus 1887: 62, pl. 18, figs 1–7.— Chevreux 1927: 140.— Barnard 1930: 430–431, fig. 59.— Barnard 1932: 291.— Hurley 1955: 180 (key).— Kane 1962: 310.— Siegfried 1963: 6 (list), 10.— Dick 1970: 67.— Harbison & Madin 1976: 165–167, figs 1–2.— Madin & Harbison 1977: 453 (tab.), 456.— Laval 1980: 20 (tab.).— Vinogradov et al. 1982 /1996: 382/472 (key), 385/475–477, fig. 207 (G2 is not of this species).— Vinogradov 1990: 74–75, 94 (tab.).— Vinogradov 1991: 261 (tab.).— Vinogradov 1993: 45 (tab.).— Lin et al. 1996: 230 (tab.).— Barkhatov et al. 1999: 808 (tab.).— Vinogradov 1999: 1146 (tab.), 1194 (incl. key), fig. 4.138.— Escobar-Briones et al. 2002: 367 (list).— Brusca & Hendrickx 2005: 151 (list).— Browne et al. 2007: 819 (tab.), 825, fig. 4 (phylogenetic tree).—Garcia- Madrigal 2007: 155, 192 (list).— Gasca 2009a: 89 (tab.).— Lavaniegos & Hereu 2009: passim.— Zeidler & De Broyer 2009: 71.— Hurt et al. 2013: 31 (tab.), figs 1, 2 (phylogenetic).— Espinosa-Leal & Lavaniegos 2016: 150 (tab.).— Hereu et al . 2020: 9 (tab.), passim.— Lavaniegos 2020: passim. Type material. Type material of Lycaea nasuta could not be found in any major European institution and is considered lost. The type locality is the W. Indian Ocean, off Zanzibar. Claus’s (1887) illustration of a male, although limited to the habitus, gnathopods and uropods, readily characterise this distinctive species. Material examined. In NHMD: tropical Atlantic , Dana stn. 3998 xi (228229), 1 male; Dana stn. 4000 iii (228230), 2 females. S. Pacific , Dana stn. 3561 iv (228145), 1 female. In USNM: N.W. Atlantic , from the Bahamas in the south, north to Georges Bank, off Massachusetts, 9 females, 5 males (6 lots), 10878, 1241181, 1241239, 12421289, 1246893., 1246974. S.W. Atlantic , off Brazil [01°06’S 35°10’W], 1 female, 1247115. N. Pacific , off Hawaii [19.42°N 156.07°W], 1 female, 1196356. Diagnosis. Body length of mature females up to 8.0 mm and males up to 9.0 mm. Head of females relatively rounded, slightly deeper than long, as long as first 4 pereonites combined; the eyes more massive than in other species, wider than anterior pereonites in dorsal view. Head of males (when mature) with distinctive rounded knob anteriorly, relatively smaller than for females, slightly deeper than long, almost as long as first 4 pereonites combined. Buccal mass protruded only slightly below head. Callynophore of A1 of males without antero-distal corner; postero-distal corner small, rounded, partly over-lapping following article. G1 and G2 sub-chelate, G2 slightly longer than G1. G1 basis slightly shorter than that of G2, inflated anteriorly with evenly rounded anterior margin; carpus rectangular with small, sharp, postero-distal tooth, reaching just past base of dactylus; propodus with small, rounded, postero-distal corner produced posteriorly to dactylus; dactylus relatively short, curved, length about 0.3 x propodus. G2 basis relatively slender; carpus narrow, postero-distal tooth only reaching to about 0.6 x posterior margin of propodus; propodus and dactylus like that of G1. P3–6 with relatively short, stubby dactylus, those of P3 and P4 slightly less than 0.2 x propodus. P3 and P4 morphologically similar, P4 slightly longer than P3; merus slightly inflated anteriorly, sub-equal in length to carpus, about 0.8 x propodus and almost 0.5 x basis. P5 relatively longer than for other species, about 1.5 x P4 and P6 (slightly less in males); basis rectangular, length slightly more than 2 x maximum width; merus length about 0.8 x propodus, almost 0.7 x basis; carpus length slightly less than 0.6 x propodus. P6 basis rectangular, length about 2 x maximum width, slightly shorter than basis of P5; merus slightly inflated anteriorly; merus, carpus and propodus similar in relative lengths to P5; anterior margin of carpus and propodus, and antero-distal corner of merus, slightly serrated. P7 basis with bulging posterior margin, length about 1.5 x maximum width, about 0.7–0.8 x basis of P6; length of remaining articles about 0.5 x basis, or slightly more; propodus with antero-distal corner produced into rounded lobe; dactylus sharp, hook-like. U1 peduncle relatively wider than for other species, length about 3.0 x exopod; endopod rarely fused with peduncle; rami relatively broad, equal in length. U2 endopod fused with peduncle. Telson slightly longer than width at base, with evenly rounded apex. Remarks. A combination of three characters distinguishes Lycaea nasuta from its congeners: i) the relatively short dactylus of P3 and P4; ii) the narrow carpus of G2, which is shorter than the posterior margin of the propodus; and iii) the fusion of the inner ramus of U2 with the peduncle. The morphology of G2 is similar to L. lilia and L. osbornae sp. nov. , but in the former the postero-distal corner of the carpus is rounded and in the latter the carpus is more rectangular and the dactylus is more slender and longer; also the morphology of G1 and G2 is similar. Lycaea nasuta also bears some similarity to L. intermedia , as discussed under that species. Lycaea nasuta has, to date, only been recorded with the salp Cyclosalpa affinis (Chamisso, 1819) (Madin & Harbison 1977). Distribution. Known only from a few records; from the Indian and Atlantic Oceans around South Africa, from the north and S.E. mid-Atlantic, and from the Pacific Ocean, in the south, near New Zealand to about 42°S, and in the north off the eastern coast of America, from California to Mexico and off Peru and Chile. Most catch records are from near the surface. : Published as part of Zeidler, Wolfgang, 2021, Review of the hyperiidean amphipod family Lycaeidae Claus, 1879 (Crustacea: Amphipoda: Hyperiidea), pp. 1-59 in Zootaxa 5081 (1) on pages 21-24, DOI: 10.11646/zootaxa.5081.1.1, http://zenodo.org/record/5769323 : {"references": ["Claus, C. (1879) Die Gattungen und Arten der Platysceliden in Systematischer Ubersicht. Arbeiten aus dem Zoologischen Institut der Universitat zu Wien und der Zoologischen Station Triest, 2, 1 - 52 (147 - 198).", "Bovallius, C. (1887) Systematical list of the Amphipoda Hyperiidea. Bihang till Kungliga Vetenskaps-Akademiens Handlingar, 11 (16), 1 - 50. https: // doi. org / 10.5962 / bhl. part. 5127", "Claus, C. (1887) Die Platysceliden. Alfred Holder, Vienna, 77 pp., 25 pls.", "Chevreux, E. (1927) Crustaces amphipodes. Expedition Scientifique du Travailleur et du Talisman Pendant les Annees 1880, 1881, 1882, Malacostraces (Suite), 9, 41 - 152, 14 plates.", "Barnard, K. H. (1930) Crustacea. Part X 1: Amphipoda. British Antarctic (Terra Nova) Expedition 1910, Zoology, 8 (4), 307 - 454.", "Barnard, K. H. (1932) Amphipoda. Discovery Reports, 5, 1 - 326. https: // doi. org / 10.5962 / bhl. part. 27664", "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.", "Kane, J. E. (1962) Amphipoda from waters south of New Zealand. New Zealand Journal of Science, 5 (3), 295 - 315.", "Siegfried, W. R. (1963) The Hyperiidea (Amphipoda) off the West coast of Southern Africa. Investigational Report No. 48. Commerce and Industry, December, 1963. Division of Sea Fisheries, Cape Town, 12 pp.", "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.", "Harbison, G. R. & Madin, L. P. (1976) Description of the female Lycaea nasuta Claus, 1879 with an illustrated key to the species of Lycaea Dana, 1852 (Amphipoda: Hyperiidea). Bulletin of Marine Science, 26 (2), 165 - 171.", "Harbison, G. R., Biggs, D. C. & Madin, L. P. (1977) The associations of Amphipoda Hyperiidea with gelatinous zooplankton - II. Associations with Cnidaria, Ctenophora and Radiolaria. Deep-Sea Research, 24, 465 - 488. https: // doi. org / 10.1016 / 0146 - 6291 (77) 90484 - 2", "Laval, P. (1980) Hyperiid amphipods as crustacean parasitoids associated with gelatinous plankton. Oceanography and Marine Biology, Annual Review, 18, 11 - 56.", "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. Akademiya Nauk SSSR, Leningrad, 492 pp. [in Russian]", "Vinogradov, G. M. (1990) Pelagic amphipods (Amphipoda, Crustacea) from the south-eastern Pacific. Transactions of the P. P. Shirshov Institute of Oceanology, 124, 27 - 104. [in Russian]", "Vinogradov, G. M. (1991) Hyperiid amphipods in the eastern part of the South Pacific gyre. Marine Biology, 109 (2), 259 - 265. https: // doi. org / 10.1007 / BF 01319394", "Vinogradov, G. M. (1993) Hyperiid amphipods from the Walters Shoal (south-western Indian Ocean). Arthropoda Selecta, 2 (1), 41 - 48.", "Lin, J., Chen, M. & Chen, R. (1996) The species diversity of planktonic Amphipoda in China Seas. Chinese Biodiversity, 4 (4), 228 - 234. [in Chinese]", "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. [in Russian, English translation, Okeanologiya, 39 (6), 887 - 894 (1999)]", "Vinogradov, G. M. (1999) Amphipoda. In: Boltovskoy, D. (Ed.), South Atlantic Zooplankton. Vol. 2. Backhuys, Leiden, pp. 1141 - 1240", "Escobar-Briones, E., Winfield, I., Ortiz, M., Gasca, R. & Suarez, E. (2002) Chapter 17. Amphipoda. In: Llorente-Bousquets, J. & Morrone, J. J. (Eds.), Biodiversidad, taxonomia y biogeografia de artropodos de Mexico: Hacia una sintesis de su conocimiento. Vol. III. Comision Nacional para el conocimiento y Uso de la Biodiversidad / Universidad Nacional Autonoma de Mexico, Bayer, pp. 341 - 371.", "Brusca, R. C. & Hendrickx, M. E. (2005) Crustacea 4. Peracarida: Lophogastrida, Mysida, Amphipoda, Tanaidacea & Cumacea. In: Hendrickx, M. E., Brusca, R. C. & Findley, L. T. (Eds.), Listado y Distribucion de la Macrofauna del Golfo de California, Mexico. Parte 1. Invertebrados. A Distributional Checklist of the Macrofauna of the Gulf of California, Mexico. Part 1. Invertebrates. Arizona-Sonora Desert Museum, Tucson, Arizona, pp. 139 - 154", "Browne, W. E., Haddock, S. H. D. & Martindale, M. Q. (2007) Phylogenetic analysis of lineage relationships among hyperiid amphipods as revealed by examination of the mitochondrial gene, cytochrome oxidase 1 (CO 1). Integrative and Comparative Biology, 47 (6), 815 - 830. https: // doi. org / 10.1093 / icb / icm 093", "Gasca, R. (2009 a) Hyperiid amphipods (Crustacea: Peracarida) in Mexican waters of the Pacific Ocean. Pacific Science, 63 (1), 83 - 95. https: // doi. org / 10.2984 / 1534 - 6188 (2009) 63 [83: HACPIM] 2.0. CO; 2", "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. https: // doi. org / 10.3354 / meps 08285", "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 pls.", "Hurt, C., Haddock, S. H. D. & Browne, W. E. (2013) Molecular phylogenetic evidence for the reorganization of the Hyperiid amphipods, a diverse group of pelagic crustaceans. Molecular Phylogenetics and Evolution, 67, 28 - 37. https: // doi. org / 10.1016 / j. ympev. 2012.12.021", "Espinosa-Leal, L. & Lavaniegos, B. E. (2016) Seasonal variability of pelagic amphipods off Baja California during la Nina 2011 and comparison with a \" neutral year \" (2005). California Cooperative Oceanographic Fisheries Investigations (CalCOFI) Reports, 57, 132 - 150.", "Hereu, C. M., Arteaga, M. C., Galindo-Sanchez, C. E., Herzka, S. Z., Batta-Lona, P. G. & Jimenez-Rosenberg, S. P. A. (2020) Zooplankton summer composition in the southern Gulf of Mexico with emphasis on salp and hyperiid amphipod assemblages. Journal of the Marine Biological Association of the United Kingdom, 100 (5), 665 - 680. https: // doi. org / 10.1017 / s 0025315420000715", "Lavaniegos, B. E. (2020) Hyperiid amphipods from the Gulf of Ulloa and offshore region, Baja California: The possible role of the gelatinous zooplankton as a transport vector into the coastal shelf waters. PLOS ONE, 15 (11), e 0233071, 1 - 24, https: // doi. org / 10.1371 / journal. pone. 0233071"]}
format	Text
author	Zeidler, Wolfgang
author_facet	Zeidler, Wolfgang
author_sort	Zeidler, Wolfgang
title	Lycaea nasuta Claus 1879
title_short	Lycaea nasuta Claus 1879
title_full	Lycaea nasuta Claus 1879
title_fullStr	Lycaea nasuta Claus 1879
title_full_unstemmed	Lycaea nasuta Claus 1879
title_sort	lycaea nasuta claus 1879
publisher	Zenodo
publishDate	2021
url	https://dx.doi.org/10.5281/zenodo.5770321 https://zenodo.org/record/5770321
long_lat	ENVELOPE(-63.038,-63.038,-73.952,-73.952) ENVELOPE(51.350,51.350,-66.283,-66.283) ENVELOPE(-59.717,-59.717,-62.450,-62.450) ENVELOPE(-64.867,-64.867,-65.667,-65.667) ENVELOPE(-145.700,-145.700,-86.450,-86.450) ENVELOPE(-45.150,-45.150,-60.683,-60.683) ENVELOPE(-58.500,-58.500,-61.950,-61.950) ENVELOPE(-58.367,-58.367,-63.700,-63.700) ENVELOPE(29.816,29.816,69.797,69.797)
geographic	Antarctic Southern Ocean Baja Pacific Indian New Zealand Kane Hurley Ortiz Chevreux Suarez Escobar Galindo Llorente Batta
geographic_facet	Antarctic Southern Ocean Baja Pacific Indian New Zealand Kane Hurley Ortiz Chevreux Suarez Escobar Galindo Llorente Batta
genre	Antarc* Antarctic Southern Ocean
genre_facet	Antarc* Antarctic Southern Ocean
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op_rights	Open Access info:eu-repo/semantics/openAccess
op_doi	https://doi.org/10.5281/zenodo.5770321 https://doi.org/10.11646/zootaxa.5081.1.1 https://doi.org/10.5281/zenodo.5769346 https://doi.org/10.5281/zenodo.5769348 https://doi.org/10.5281/zenodo.5770320
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spelling	ftdatacite:10.5281/zenodo.5770321 2023-05-15T13:33:09+02:00 Lycaea nasuta Claus 1879 Zeidler, Wolfgang 2021 https://dx.doi.org/10.5281/zenodo.5770321 https://zenodo.org/record/5770321 unknown Zenodo http://zenodo.org/record/5769323 http://publication.plazi.org/id/FFB6613C586BFFAD820A1A39FFCDFFB6 http://zoobank.org/F4BE101A-30D3-43BA-B468-CF4A6ED59496 https://zenodo.org/communities/biosyslit https://dx.doi.org/10.11646/zootaxa.5081.1.1 http://zenodo.org/record/5769323 http://publication.plazi.org/id/FFB6613C586BFFAD820A1A39FFCDFFB6 https://dx.doi.org/10.5281/zenodo.5769346 https://dx.doi.org/10.5281/zenodo.5769348 http://zoobank.org/F4BE101A-30D3-43BA-B468-CF4A6ED59496 https://dx.doi.org/10.5281/zenodo.5770320 https://zenodo.org/communities/biosyslit Open Access info:eu-repo/semantics/openAccess Biodiversity Taxonomy Animalia Arthropoda Malacostraca Amphipoda Lycaeidae Lycaea Lycaea nasuta Taxonomic treatment article-journal Text ScholarlyArticle 2021 ftdatacite https://doi.org/10.5281/zenodo.5770321 https://doi.org/10.11646/zootaxa.5081.1.1 https://doi.org/10.5281/zenodo.5769346 https://doi.org/10.5281/zenodo.5769348 https://doi.org/10.5281/zenodo.5770320 2022-02-08T16:27:35Z Lycaea nasuta Claus, 1879 (Figs 8–9) Lycaea nasuta Claus, 1879: 185 (39).— Bovallius 1887: 32.— Claus 1887: 62, pl. 18, figs 1–7.— Chevreux 1927: 140.— Barnard 1930: 430–431, fig. 59.— Barnard 1932: 291.— Hurley 1955: 180 (key).— Kane 1962: 310.— Siegfried 1963: 6 (list), 10.— Dick 1970: 67.— Harbison & Madin 1976: 165–167, figs 1–2.— Madin & Harbison 1977: 453 (tab.), 456.— Laval 1980: 20 (tab.).— Vinogradov et al. 1982 /1996: 382/472 (key), 385/475–477, fig. 207 (G2 is not of this species).— Vinogradov 1990: 74–75, 94 (tab.).— Vinogradov 1991: 261 (tab.).— Vinogradov 1993: 45 (tab.).— Lin et al. 1996: 230 (tab.).— Barkhatov et al. 1999: 808 (tab.).— Vinogradov 1999: 1146 (tab.), 1194 (incl. key), fig. 4.138.— Escobar-Briones et al. 2002: 367 (list).— Brusca & Hendrickx 2005: 151 (list).— Browne et al. 2007: 819 (tab.), 825, fig. 4 (phylogenetic tree).—Garcia- Madrigal 2007: 155, 192 (list).— Gasca 2009a: 89 (tab.).— Lavaniegos & Hereu 2009: passim.— Zeidler & De Broyer 2009: 71.— Hurt et al. 2013: 31 (tab.), figs 1, 2 (phylogenetic).— Espinosa-Leal & Lavaniegos 2016: 150 (tab.).— Hereu et al . 2020: 9 (tab.), passim.— Lavaniegos 2020: passim. Type material. Type material of Lycaea nasuta could not be found in any major European institution and is considered lost. The type locality is the W. Indian Ocean, off Zanzibar. Claus’s (1887) illustration of a male, although limited to the habitus, gnathopods and uropods, readily characterise this distinctive species. Material examined. In NHMD: tropical Atlantic , Dana stn. 3998 xi (228229), 1 male; Dana stn. 4000 iii (228230), 2 females. S. Pacific , Dana stn. 3561 iv (228145), 1 female. In USNM: N.W. Atlantic , from the Bahamas in the south, north to Georges Bank, off Massachusetts, 9 females, 5 males (6 lots), 10878, 1241181, 1241239, 12421289, 1246893., 1246974. S.W. Atlantic , off Brazil [01°06’S 35°10’W], 1 female, 1247115. N. Pacific , off Hawaii [19.42°N 156.07°W], 1 female, 1196356. Diagnosis. Body length of mature females up to 8.0 mm and males up to 9.0 mm. Head of females relatively rounded, slightly deeper than long, as long as first 4 pereonites combined; the eyes more massive than in other species, wider than anterior pereonites in dorsal view. Head of males (when mature) with distinctive rounded knob anteriorly, relatively smaller than for females, slightly deeper than long, almost as long as first 4 pereonites combined. Buccal mass protruded only slightly below head. Callynophore of A1 of males without antero-distal corner; postero-distal corner small, rounded, partly over-lapping following article. G1 and G2 sub-chelate, G2 slightly longer than G1. G1 basis slightly shorter than that of G2, inflated anteriorly with evenly rounded anterior margin; carpus rectangular with small, sharp, postero-distal tooth, reaching just past base of dactylus; propodus with small, rounded, postero-distal corner produced posteriorly to dactylus; dactylus relatively short, curved, length about 0.3 x propodus. G2 basis relatively slender; carpus narrow, postero-distal tooth only reaching to about 0.6 x posterior margin of propodus; propodus and dactylus like that of G1. P3–6 with relatively short, stubby dactylus, those of P3 and P4 slightly less than 0.2 x propodus. P3 and P4 morphologically similar, P4 slightly longer than P3; merus slightly inflated anteriorly, sub-equal in length to carpus, about 0.8 x propodus and almost 0.5 x basis. P5 relatively longer than for other species, about 1.5 x P4 and P6 (slightly less in males); basis rectangular, length slightly more than 2 x maximum width; merus length about 0.8 x propodus, almost 0.7 x basis; carpus length slightly less than 0.6 x propodus. P6 basis rectangular, length about 2 x maximum width, slightly shorter than basis of P5; merus slightly inflated anteriorly; merus, carpus and propodus similar in relative lengths to P5; anterior margin of carpus and propodus, and antero-distal corner of merus, slightly serrated. P7 basis with bulging posterior margin, length about 1.5 x maximum width, about 0.7–0.8 x basis of P6; length of remaining articles about 0.5 x basis, or slightly more; propodus with antero-distal corner produced into rounded lobe; dactylus sharp, hook-like. U1 peduncle relatively wider than for other species, length about 3.0 x exopod; endopod rarely fused with peduncle; rami relatively broad, equal in length. U2 endopod fused with peduncle. Telson slightly longer than width at base, with evenly rounded apex. Remarks. A combination of three characters distinguishes Lycaea nasuta from its congeners: i) the relatively short dactylus of P3 and P4; ii) the narrow carpus of G2, which is shorter than the posterior margin of the propodus; and iii) the fusion of the inner ramus of U2 with the peduncle. The morphology of G2 is similar to L. lilia and L. osbornae sp. nov. , but in the former the postero-distal corner of the carpus is rounded and in the latter the carpus is more rectangular and the dactylus is more slender and longer; also the morphology of G1 and G2 is similar. Lycaea nasuta also bears some similarity to L. intermedia , as discussed under that species. Lycaea nasuta has, to date, only been recorded with the salp Cyclosalpa affinis (Chamisso, 1819) (Madin & Harbison 1977). Distribution. Known only from a few records; from the Indian and Atlantic Oceans around South Africa, from the north and S.E. mid-Atlantic, and from the Pacific Ocean, in the south, near New Zealand to about 42°S, and in the north off the eastern coast of America, from California to Mexico and off Peru and Chile. Most catch records are from near the surface. : Published as part of Zeidler, Wolfgang, 2021, Review of the hyperiidean amphipod family Lycaeidae Claus, 1879 (Crustacea: Amphipoda: Hyperiidea), pp. 1-59 in Zootaxa 5081 (1) on pages 21-24, DOI: 10.11646/zootaxa.5081.1.1, http://zenodo.org/record/5769323 : {"references": ["Claus, C. (1879) Die Gattungen und Arten der Platysceliden in Systematischer Ubersicht. Arbeiten aus dem Zoologischen Institut der Universitat zu Wien und der Zoologischen Station Triest, 2, 1 - 52 (147 - 198).", "Bovallius, C. (1887) Systematical list of the Amphipoda Hyperiidea. Bihang till Kungliga Vetenskaps-Akademiens Handlingar, 11 (16), 1 - 50. https: // doi. org / 10.5962 / bhl. part. 5127", "Claus, C. (1887) Die Platysceliden. Alfred Holder, Vienna, 77 pp., 25 pls.", "Chevreux, E. (1927) Crustaces amphipodes. Expedition Scientifique du Travailleur et du Talisman Pendant les Annees 1880, 1881, 1882, Malacostraces (Suite), 9, 41 - 152, 14 plates.", "Barnard, K. H. (1930) Crustacea. Part X 1: Amphipoda. British Antarctic (Terra Nova) Expedition 1910, Zoology, 8 (4), 307 - 454.", "Barnard, K. H. (1932) Amphipoda. Discovery Reports, 5, 1 - 326. https: // doi. org / 10.5962 / bhl. part. 27664", "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.", "Kane, J. E. (1962) Amphipoda from waters south of New Zealand. New Zealand Journal of Science, 5 (3), 295 - 315.", "Siegfried, W. R. (1963) The Hyperiidea (Amphipoda) off the West coast of Southern Africa. Investigational Report No. 48. Commerce and Industry, December, 1963. Division of Sea Fisheries, Cape Town, 12 pp.", "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.", "Harbison, G. R. & Madin, L. P. (1976) Description of the female Lycaea nasuta Claus, 1879 with an illustrated key to the species of Lycaea Dana, 1852 (Amphipoda: Hyperiidea). Bulletin of Marine Science, 26 (2), 165 - 171.", "Harbison, G. R., Biggs, D. C. & Madin, L. P. (1977) The associations of Amphipoda Hyperiidea with gelatinous zooplankton - II. Associations with Cnidaria, Ctenophora and Radiolaria. Deep-Sea Research, 24, 465 - 488. https: // doi. org / 10.1016 / 0146 - 6291 (77) 90484 - 2", "Laval, P. (1980) Hyperiid amphipods as crustacean parasitoids associated with gelatinous plankton. Oceanography and Marine Biology, Annual Review, 18, 11 - 56.", "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. Akademiya Nauk SSSR, Leningrad, 492 pp. [in Russian]", "Vinogradov, G. M. (1990) Pelagic amphipods (Amphipoda, Crustacea) from the south-eastern Pacific. Transactions of the P. P. Shirshov Institute of Oceanology, 124, 27 - 104. [in Russian]", "Vinogradov, G. M. (1991) Hyperiid amphipods in the eastern part of the South Pacific gyre. Marine Biology, 109 (2), 259 - 265. https: // doi. org / 10.1007 / BF 01319394", "Vinogradov, G. M. (1993) Hyperiid amphipods from the Walters Shoal (south-western Indian Ocean). Arthropoda Selecta, 2 (1), 41 - 48.", "Lin, J., Chen, M. & Chen, R. (1996) The species diversity of planktonic Amphipoda in China Seas. Chinese Biodiversity, 4 (4), 228 - 234. [in Chinese]", "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. [in Russian, English translation, Okeanologiya, 39 (6), 887 - 894 (1999)]", "Vinogradov, G. M. (1999) Amphipoda. In: Boltovskoy, D. (Ed.), South Atlantic Zooplankton. Vol. 2. Backhuys, Leiden, pp. 1141 - 1240", "Escobar-Briones, E., Winfield, I., Ortiz, M., Gasca, R. & Suarez, E. (2002) Chapter 17. Amphipoda. In: Llorente-Bousquets, J. & Morrone, J. J. (Eds.), Biodiversidad, taxonomia y biogeografia de artropodos de Mexico: Hacia una sintesis de su conocimiento. Vol. III. Comision Nacional para el conocimiento y Uso de la Biodiversidad / Universidad Nacional Autonoma de Mexico, Bayer, pp. 341 - 371.", "Brusca, R. C. & Hendrickx, M. E. (2005) Crustacea 4. Peracarida: Lophogastrida, Mysida, Amphipoda, Tanaidacea & Cumacea. In: Hendrickx, M. E., Brusca, R. C. & Findley, L. T. (Eds.), Listado y Distribucion de la Macrofauna del Golfo de California, Mexico. Parte 1. Invertebrados. A Distributional Checklist of the Macrofauna of the Gulf of California, Mexico. Part 1. Invertebrates. Arizona-Sonora Desert Museum, Tucson, Arizona, pp. 139 - 154", "Browne, W. E., Haddock, S. H. D. & Martindale, M. Q. (2007) Phylogenetic analysis of lineage relationships among hyperiid amphipods as revealed by examination of the mitochondrial gene, cytochrome oxidase 1 (CO 1). Integrative and Comparative Biology, 47 (6), 815 - 830. https: // doi. org / 10.1093 / icb / icm 093", "Gasca, R. (2009 a) Hyperiid amphipods (Crustacea: Peracarida) in Mexican waters of the Pacific Ocean. Pacific Science, 63 (1), 83 - 95. https: // doi. org / 10.2984 / 1534 - 6188 (2009) 63 [83: HACPIM] 2.0. CO; 2", "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. https: // doi. org / 10.3354 / meps 08285", "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 pls.", "Hurt, C., Haddock, S. H. D. & Browne, W. E. (2013) Molecular phylogenetic evidence for the reorganization of the Hyperiid amphipods, a diverse group of pelagic crustaceans. Molecular Phylogenetics and Evolution, 67, 28 - 37. https: // doi. org / 10.1016 / j. ympev. 2012.12.021", "Espinosa-Leal, L. & Lavaniegos, B. E. (2016) Seasonal variability of pelagic amphipods off Baja California during la Nina 2011 and comparison with a \" neutral year \" (2005). California Cooperative Oceanographic Fisheries Investigations (CalCOFI) Reports, 57, 132 - 150.", "Hereu, C. M., Arteaga, M. C., Galindo-Sanchez, C. E., Herzka, S. Z., Batta-Lona, P. G. & Jimenez-Rosenberg, S. P. A. (2020) Zooplankton summer composition in the southern Gulf of Mexico with emphasis on salp and hyperiid amphipod assemblages. Journal of the Marine Biological Association of the United Kingdom, 100 (5), 665 - 680. https: // doi. org / 10.1017 / s 0025315420000715", "Lavaniegos, B. E. (2020) Hyperiid amphipods from the Gulf of Ulloa and offshore region, Baja California: The possible role of the gelatinous zooplankton as a transport vector into the coastal shelf waters. PLOS ONE, 15 (11), e 0233071, 1 - 24, https: // doi. org / 10.1371 / journal. pone. 0233071"]} Text Antarc* Antarctic Southern Ocean DataCite Metadata Store (German National Library of Science and Technology) Antarctic Southern Ocean Baja Pacific Indian New Zealand Kane ENVELOPE(-63.038,-63.038,-73.952,-73.952) Hurley ENVELOPE(51.350,51.350,-66.283,-66.283) Ortiz ENVELOPE(-59.717,-59.717,-62.450,-62.450) Chevreux ENVELOPE(-64.867,-64.867,-65.667,-65.667) Suarez ENVELOPE(-145.700,-145.700,-86.450,-86.450) Escobar ENVELOPE(-45.150,-45.150,-60.683,-60.683) Galindo ENVELOPE(-58.500,-58.500,-61.950,-61.950) Llorente ENVELOPE(-58.367,-58.367,-63.700,-63.700) Batta ENVELOPE(29.816,29.816,69.797,69.797)

Lycaea nasuta Claus 1879

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