Kamaka tonlensis Morino, 2012, sp. nov.

Kamaka tonlensis sp. nov. (Figs 1, 2) Material examined. One male (holotype, 2.0 mm B.L.); South Basin, Lake Tonle Sap, Cambodia, St. 3 (12 ° 2 ’ 57.7 ’’N 104 ° 22 ’04.4’’E, off shore, 4.6 m water depth); 7 December 2004 Ohtaka et al . coll. One female (allotype, 2.1 mm B.L.); South Basin, Lake Tonl...

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Main Author: Morino, Hiroshi
Format: Text
Language:unknown
Published: Zenodo 2012
Subjects:
Biodiversity
Taxonomy
Animalia
Arthropoda
Malacostraca
Amphipoda
Corophiidae
Kamaka
Kamaka tonlensis
Myers
Seta
Morton
Lowry
Kamtschatka
ren
Online Access:https://dx.doi.org/10.5281/zenodo.6172862
https://zenodo.org/record/6172862
id ftdatacite:10.5281/zenodo.6172862
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
Corophiidae
Kamaka
Kamaka tonlensis
spellingShingle Biodiversity
Taxonomy
Animalia
Arthropoda
Malacostraca
Amphipoda
Corophiidae
Kamaka
Kamaka tonlensis
Morino, Hiroshi
Kamaka tonlensis Morino, 2012, sp. nov.
topic_facet Biodiversity
Taxonomy
Animalia
Arthropoda
Malacostraca
Amphipoda
Corophiidae
Kamaka
Kamaka tonlensis
description Kamaka tonlensis sp. nov. (Figs 1, 2) Material examined. One male (holotype, 2.0 mm B.L.); South Basin, Lake Tonle Sap, Cambodia, St. 3 (12 ° 2 ’ 57.7 ’’N 104 ° 22 ’04.4’’E, off shore, 4.6 m water depth); 7 December 2004 Ohtaka et al . coll. One female (allotype, 2.1 mm B.L.); South Basin, Lake Tonle Sap, Cambodia, St. 2 (12 ° 35 ’ 58.8 ”N, 104 ° 20 ’ 58.8 ’’E, off shore, 5.1 m water depth); 7 December 2004, Ohtaka et al . coll. Three males, one female and three juveniles (paratypes); North Basin, Lake Tonle Sap, Cambodia, St. 1 (13 °01’ 54.3 ”N 103 ° 57 ’ 24.3 ”E, off shore, 0.8 m depth); 13 May 2004, A. Ohtaka et al . coll. Description. Male. Head ocular lobe (Fig. 1 A) not reaching tip of peduncular article 1 of antenna 1. Abdominal side plates 1 and 2 (Fig. 2 G) with a few setae on posteroventral margin, plate 2 with a few setae on ventral margin. Urosomites 1 and 2 (Fig. 2 I) coalesced. Urosomite 3 (Fig. 2 I) not coalesced with telson. Antenna 1 (Fig. 1 A), ratio of length in peduncular articles 1–3 1.0: 0.9: 0.9; flagellum with 7 articles of similar size, distal 5 articles of them with aesthetascs. Antenna 2 (Fig. 1 B, C), peduncle slender, weakly setose, ratio of length of articles 3–5 1.0: 2.0: 2.1; flagellum with 4 articles. Mandible (Fig. 1 F–H), basal article with seta near junction with palp; palp articles weakly setose, length ratio of articles 1–3, 1.0: 2.5: 1.9. Other mouth parts (Fig. 1 D, E, I–K) as other congeneric species. Gnathopod 1 (Fig. 1 L, M), coxa posteroventral corner rounded, palmar margin of propodus distinctly longer than the posterior margin, dactylus elongate. Gnathopod 2 (Fig. 1 N), coxa as deep as wide, propodus posterior margin bluntly produced at distal corner, and with large process proximally, the process not reaching distal tip of posterior margin, dactylus curved inward distally. Pereopods 3 and 4 (Fig. 2 A, B), basis slender and weakly setose, merus and carpus slender. Pereopods 5–7 (Fig. 2 C–E), basis weakly expanded, with a few to several setae on posterior margins. Pleopod peduncle (Fig. 2 H) with a few setae and 2 retinacula on inner distal corner. Uropod 1 (Fig. 2 I), peduncle distal process reaching 0.4 length of outer ramus, outer ramus dorsal margin bare, ventral margin with setae at mid-point, and inner ramus with 1 marginal robust seta. Uropod 2 (Fig. 2 I), outer ramus shorter than inner ramus, outer ramus bare; inner ramus with 1 marginal robust seta. Each ramus of uropods 1 and 2 with 2 subterminal and 2 terminal robust setae, the former 2 are of subequal length, the latter 2 of disproportionately unequal length. Uropod 3 (Fig. 2 I, J), peduncle with a small spine on posteromedial corner, ramus slightly shorter than peduncle, with 3–4 terminal setae. Telson (Fig. 2 J) semi-circular, with 2 pairs of setae. Female. Gnathopod 2 (Fig. 1 O, P), propodus and dactylus similar to those of gnathopod 1 of male. Brood plate rudimentary, with apical seta. Pereopod 3 (Fig. 2 F), slightly more setose than that of male. Brood plate linear, with 5 setae distally. Etymology. The specific name refers to the type locality. Habitat. Kamaka tonlensis has been collected from the bottom of offshore areas of both North and South basins of the lake, irrespective of water level which fluctuates highly with the season (Ohtaka et al . 2010). The bottom sediment consists of muddy surface layer and the deeper layer of shell remains beneath the surface dominated by Corbicula bivalves (Ohtaka, pers. comm.). The pH value and electronic conductivity of the Southern Basin (stns 2 and 3) were 7.7 – 7.8 and 86 – 91 μs/ cm at the sampling time, respectively. Remarks. Kamaka tonlensis sp. nov. is peculiar among congeneric species in having no marginal setae on the outer ramus on the uropod 2 and the relatively elongate dactylus of the male gnathopod 1 (0.83 times as long as propodus). The shape of the male gnathopod 2 of the present new species is exhibited also by K. kuthae Derzhavin, 1923, K. derzhavini Gurjanova, 1951, K. littoralis Ren, 2006 and K. silvana Myers, 2009. Kamaka kuthae and K. derzhavini have the elongate article 1 of flagellum on male antenna 2, by which these species are separable from the new species. Kamaka kuthae is further distinguished from the new species by shorter article 2 of the mandible palp (1.6 times of article 1 vs. 2.5 times), and by more elongate distal process of uropod 1 peduncle (reaching 0.6 length of outer ramus vs. 0.4 length). Kamaka silvana has the longer outer ramus on the uropod 2 than the inner ramus (shorter outer ramus), the urosomite 3 coalesced with the telson (not coalesced), the shorter article 2 on mandiblular palp (1.8 times of article 1) and the setose article 1 (vs. article 1 in the new species lacking setae). Kamaka littoralis has the following features which distinguish it from the new species: the more expanded carpus on the pereopod 3 (width 0.77 times of length vs. 0.47 times), and the enlarged outer plate of the maxilliped that well exceeds the tip of the article 2 of the palp (vs. reaches the tip). In addition, smaller male of K. songkhlaensis Ariyama et al ., 2010 displays the similar shape of male gnathopod 2 to that of the present new species (Fig 9 L, Ariyama et al . 2010). The former species is distinguished from congeneric species by expanded peduncular article 4 and excavated flagellar article 1 of antenna 2 in adult male. Thomas & Barnard (1991) described the urosomite 3 of this genus as “free from (urosomite) 2 but coalesced with telson, marked ventrally by sutures.” This character is not reproduced in the revised diagnosis given by Ariyama et al . (2010). In the recent description of Kamaka species, K. silvana is described to have urosomite 3 coalesced with telson (Myers 2009). For K. poppi Bamber, 2003, K. littoralis, K. derzhavini and K. palmata Dang, 1968, the state of this character is not clear, since no description and no figure are presented for this characters. For the remaining species except K. taditadi Thomas & Barnard, 1991, no coalescence between the two parts is recognized. In the present new species, there is a clear suture separating the urosomite 3 from the telson (Fig. 2 I), as that depicted for K. taditadi (Thomas & Barnard 1991). However, it is not possible to identify it with an articulation or with a suture covering the coalescence. The description given above is thus a tentative conclusion. In considering the character of fusion of urosomites 1 and 2, which is distinctive and peculiar to this genus, it must be of phyletic importance to recognize the degree or trend of fusion on posterior somites in this group. However, as stated above it seems hard to distinguish the true articulation from the suture on exoskeleton. The revised diagnosis given by Ariyama et al . (2010) may also suggest this impracticability. : Published as part of Morino, Hiroshi, 2012, A new species of Kamaka (Amphipoda: Kamakidae) from Lake Tonle Sap, Cambodia, pp. 64-68 in Zootaxa 3297 on pages 65-67, DOI: 10.5281/zenodo.212565 : {"references": ["Ohtaka, A., Watanabe, R., Im, S., Chhay, R. & Tsukawaki, S. (2010) Spatial and seasonal changes of net plankton and zoobenthos in Lake Tonle Sap, Cambodia. Limnology, 11, 85 - 94.", "Derzhavin, A. N. (1923) Malacostraca der Su\u00dfwasser-Gewasser von Kamtschatka. Russki i Gidrobiologicheski i Zhurnal, 2, 180 - 194, 7 pls.", "Gurjanova, E. F. (1951) Bokopklavy morej SSSR i sopredel'nykh vod (Amphipoda - Gammaridea). Akademiia Nauk SSSR, Opredeliteli po Faune SSSR, 41, 1 - 1031.", "Ren, X. (2006) Fauna Sinica, Invertebrata Vol. 41. Crustacea: Amphipoda: Gammaridea (I). Science Press, Beijing, x + 588 pp.", "Myers, A. A. (2009) Kamakidae. In, Lowry, J. K. & Myers, A. A. (eds), Benthic Amphipoda (Crustacea: Peracarida) of the Great Barrier Reef, Australia. Zootaxa, 2260, 487 - 493.", "Ariyama, H., Angsupanich, S. & Rodcharoen, E. (2010) Two new species of the genus Kamaka (Crustacea: Amphipoda: Kamakidae) from Songkhla Lagoon, southern Thailand. Zootaxa, 2404, 55 - 68.", "Thomas, J. D. & Barnard, J. L. (1991) Kamaka taditadi, a new marine species from Papua New Guinea (Crustacea: Amphipoda: Corophioidea). Memoirs of the Museum of Victoria, 52, 311 - 318.", "Bamber, R. N. (2003) New species of Amphipoda from Hong Kong shores. In: Morton, B. (Ed.), Perspectives on Marine Environmental Change in Hong Kong and Southern China, 1997 - 2001. Hong Kong University Press, Hong Kong, pp. 195 - 207.", "Dang, N. T. (1968) Nouveaux amphipodes des eaux douces et saumatres du Nord Viet Nam. Zoologicheski i Zhurnal, 47, 212 - 222."]}
format Text
author Morino, Hiroshi
author_facet Morino, Hiroshi
author_sort Morino, Hiroshi
title Kamaka tonlensis Morino, 2012, sp. nov.
title_short Kamaka tonlensis Morino, 2012, sp. nov.
title_full Kamaka tonlensis Morino, 2012, sp. nov.
title_fullStr Kamaka tonlensis Morino, 2012, sp. nov.
title_full_unstemmed Kamaka tonlensis Morino, 2012, sp. nov.
title_sort kamaka tonlensis morino, 2012, sp. nov.
publisher Zenodo
publishDate 2012
url https://dx.doi.org/10.5281/zenodo.6172862
https://zenodo.org/record/6172862
long_lat ENVELOPE(170.033,170.033,-72.117,-72.117)
ENVELOPE(9.895,9.895,63.645,63.645)
ENVELOPE(-61.220,-61.220,-62.697,-62.697)
ENVELOPE(-64.150,-64.150,-84.550,-84.550)
geographic Myers
Seta
Morton
Lowry
geographic_facet Myers
Seta
Morton
Lowry
genre Kamtschatka
ren
genre_facet Kamtschatka
ren
op_relation http://publication.plazi.org/id/C80E6E16FFDAFFDCFFDBFFA0CD24FFB6
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https://dx.doi.org/10.5281/zenodo.212565
http://publication.plazi.org/id/C80E6E16FFDAFFDCFFDBFFA0CD24FFB6
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op_rights Open Access
Creative Commons Zero v1.0 Universal
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cc0-1.0
info:eu-repo/semantics/openAccess
op_rightsnorm CC0
op_doi https://doi.org/10.5281/zenodo.6172862
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spelling ftdatacite:10.5281/zenodo.6172862 2023-05-15T16:59:42+02:00 Kamaka tonlensis Morino, 2012, sp. nov. Morino, Hiroshi 2012 https://dx.doi.org/10.5281/zenodo.6172862 https://zenodo.org/record/6172862 unknown Zenodo http://publication.plazi.org/id/C80E6E16FFDAFFDCFFDBFFA0CD24FFB6 https://zenodo.org/communities/biosyslit https://dx.doi.org/10.5281/zenodo.212565 http://publication.plazi.org/id/C80E6E16FFDAFFDCFFDBFFA0CD24FFB6 https://dx.doi.org/10.5281/zenodo.212566 https://dx.doi.org/10.5281/zenodo.212567 https://dx.doi.org/10.5281/zenodo.6172863 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 Corophiidae Kamaka Kamaka tonlensis article-journal ScholarlyArticle Taxonomic treatment Text 2012 ftdatacite https://doi.org/10.5281/zenodo.6172862 https://doi.org/10.5281/zenodo.212565 https://doi.org/10.5281/zenodo.212566 https://doi.org/10.5281/zenodo.212567 https://doi.org/10.5281/zenodo.6172863 2022-04-01T11:22:46Z Kamaka tonlensis sp. nov. (Figs 1, 2) Material examined. One male (holotype, 2.0 mm B.L.); South Basin, Lake Tonle Sap, Cambodia, St. 3 (12 ° 2 ’ 57.7 ’’N 104 ° 22 ’04.4’’E, off shore, 4.6 m water depth); 7 December 2004 Ohtaka et al . coll. One female (allotype, 2.1 mm B.L.); South Basin, Lake Tonle Sap, Cambodia, St. 2 (12 ° 35 ’ 58.8 ”N, 104 ° 20 ’ 58.8 ’’E, off shore, 5.1 m water depth); 7 December 2004, Ohtaka et al . coll. Three males, one female and three juveniles (paratypes); North Basin, Lake Tonle Sap, Cambodia, St. 1 (13 °01’ 54.3 ”N 103 ° 57 ’ 24.3 ”E, off shore, 0.8 m depth); 13 May 2004, A. Ohtaka et al . coll. Description. Male. Head ocular lobe (Fig. 1 A) not reaching tip of peduncular article 1 of antenna 1. Abdominal side plates 1 and 2 (Fig. 2 G) with a few setae on posteroventral margin, plate 2 with a few setae on ventral margin. Urosomites 1 and 2 (Fig. 2 I) coalesced. Urosomite 3 (Fig. 2 I) not coalesced with telson. Antenna 1 (Fig. 1 A), ratio of length in peduncular articles 1–3 1.0: 0.9: 0.9; flagellum with 7 articles of similar size, distal 5 articles of them with aesthetascs. Antenna 2 (Fig. 1 B, C), peduncle slender, weakly setose, ratio of length of articles 3–5 1.0: 2.0: 2.1; flagellum with 4 articles. Mandible (Fig. 1 F–H), basal article with seta near junction with palp; palp articles weakly setose, length ratio of articles 1–3, 1.0: 2.5: 1.9. Other mouth parts (Fig. 1 D, E, I–K) as other congeneric species. Gnathopod 1 (Fig. 1 L, M), coxa posteroventral corner rounded, palmar margin of propodus distinctly longer than the posterior margin, dactylus elongate. Gnathopod 2 (Fig. 1 N), coxa as deep as wide, propodus posterior margin bluntly produced at distal corner, and with large process proximally, the process not reaching distal tip of posterior margin, dactylus curved inward distally. Pereopods 3 and 4 (Fig. 2 A, B), basis slender and weakly setose, merus and carpus slender. Pereopods 5–7 (Fig. 2 C–E), basis weakly expanded, with a few to several setae on posterior margins. Pleopod peduncle (Fig. 2 H) with a few setae and 2 retinacula on inner distal corner. Uropod 1 (Fig. 2 I), peduncle distal process reaching 0.4 length of outer ramus, outer ramus dorsal margin bare, ventral margin with setae at mid-point, and inner ramus with 1 marginal robust seta. Uropod 2 (Fig. 2 I), outer ramus shorter than inner ramus, outer ramus bare; inner ramus with 1 marginal robust seta. Each ramus of uropods 1 and 2 with 2 subterminal and 2 terminal robust setae, the former 2 are of subequal length, the latter 2 of disproportionately unequal length. Uropod 3 (Fig. 2 I, J), peduncle with a small spine on posteromedial corner, ramus slightly shorter than peduncle, with 3–4 terminal setae. Telson (Fig. 2 J) semi-circular, with 2 pairs of setae. Female. Gnathopod 2 (Fig. 1 O, P), propodus and dactylus similar to those of gnathopod 1 of male. Brood plate rudimentary, with apical seta. Pereopod 3 (Fig. 2 F), slightly more setose than that of male. Brood plate linear, with 5 setae distally. Etymology. The specific name refers to the type locality. Habitat. Kamaka tonlensis has been collected from the bottom of offshore areas of both North and South basins of the lake, irrespective of water level which fluctuates highly with the season (Ohtaka et al . 2010). The bottom sediment consists of muddy surface layer and the deeper layer of shell remains beneath the surface dominated by Corbicula bivalves (Ohtaka, pers. comm.). The pH value and electronic conductivity of the Southern Basin (stns 2 and 3) were 7.7 – 7.8 and 86 – 91 μs/ cm at the sampling time, respectively. Remarks. Kamaka tonlensis sp. nov. is peculiar among congeneric species in having no marginal setae on the outer ramus on the uropod 2 and the relatively elongate dactylus of the male gnathopod 1 (0.83 times as long as propodus). The shape of the male gnathopod 2 of the present new species is exhibited also by K. kuthae Derzhavin, 1923, K. derzhavini Gurjanova, 1951, K. littoralis Ren, 2006 and K. silvana Myers, 2009. Kamaka kuthae and K. derzhavini have the elongate article 1 of flagellum on male antenna 2, by which these species are separable from the new species. Kamaka kuthae is further distinguished from the new species by shorter article 2 of the mandible palp (1.6 times of article 1 vs. 2.5 times), and by more elongate distal process of uropod 1 peduncle (reaching 0.6 length of outer ramus vs. 0.4 length). Kamaka silvana has the longer outer ramus on the uropod 2 than the inner ramus (shorter outer ramus), the urosomite 3 coalesced with the telson (not coalesced), the shorter article 2 on mandiblular palp (1.8 times of article 1) and the setose article 1 (vs. article 1 in the new species lacking setae). Kamaka littoralis has the following features which distinguish it from the new species: the more expanded carpus on the pereopod 3 (width 0.77 times of length vs. 0.47 times), and the enlarged outer plate of the maxilliped that well exceeds the tip of the article 2 of the palp (vs. reaches the tip). In addition, smaller male of K. songkhlaensis Ariyama et al ., 2010 displays the similar shape of male gnathopod 2 to that of the present new species (Fig 9 L, Ariyama et al . 2010). The former species is distinguished from congeneric species by expanded peduncular article 4 and excavated flagellar article 1 of antenna 2 in adult male. Thomas & Barnard (1991) described the urosomite 3 of this genus as “free from (urosomite) 2 but coalesced with telson, marked ventrally by sutures.” This character is not reproduced in the revised diagnosis given by Ariyama et al . (2010). In the recent description of Kamaka species, K. silvana is described to have urosomite 3 coalesced with telson (Myers 2009). For K. poppi Bamber, 2003, K. littoralis, K. derzhavini and K. palmata Dang, 1968, the state of this character is not clear, since no description and no figure are presented for this characters. For the remaining species except K. taditadi Thomas & Barnard, 1991, no coalescence between the two parts is recognized. In the present new species, there is a clear suture separating the urosomite 3 from the telson (Fig. 2 I), as that depicted for K. taditadi (Thomas & Barnard 1991). However, it is not possible to identify it with an articulation or with a suture covering the coalescence. The description given above is thus a tentative conclusion. In considering the character of fusion of urosomites 1 and 2, which is distinctive and peculiar to this genus, it must be of phyletic importance to recognize the degree or trend of fusion on posterior somites in this group. However, as stated above it seems hard to distinguish the true articulation from the suture on exoskeleton. The revised diagnosis given by Ariyama et al . (2010) may also suggest this impracticability. : Published as part of Morino, Hiroshi, 2012, A new species of Kamaka (Amphipoda: Kamakidae) from Lake Tonle Sap, Cambodia, pp. 64-68 in Zootaxa 3297 on pages 65-67, DOI: 10.5281/zenodo.212565 : {"references": ["Ohtaka, A., Watanabe, R., Im, S., Chhay, R. & Tsukawaki, S. (2010) Spatial and seasonal changes of net plankton and zoobenthos in Lake Tonle Sap, Cambodia. Limnology, 11, 85 - 94.", "Derzhavin, A. N. (1923) Malacostraca der Su\u00dfwasser-Gewasser von Kamtschatka. Russki i Gidrobiologicheski i Zhurnal, 2, 180 - 194, 7 pls.", "Gurjanova, E. F. (1951) Bokopklavy morej SSSR i sopredel'nykh vod (Amphipoda - Gammaridea). Akademiia Nauk SSSR, Opredeliteli po Faune SSSR, 41, 1 - 1031.", "Ren, X. (2006) Fauna Sinica, Invertebrata Vol. 41. Crustacea: Amphipoda: Gammaridea (I). Science Press, Beijing, x + 588 pp.", "Myers, A. A. (2009) Kamakidae. In, Lowry, J. K. & Myers, A. A. (eds), Benthic Amphipoda (Crustacea: Peracarida) of the Great Barrier Reef, Australia. Zootaxa, 2260, 487 - 493.", "Ariyama, H., Angsupanich, S. & Rodcharoen, E. (2010) Two new species of the genus Kamaka (Crustacea: Amphipoda: Kamakidae) from Songkhla Lagoon, southern Thailand. Zootaxa, 2404, 55 - 68.", "Thomas, J. D. & Barnard, J. L. (1991) Kamaka taditadi, a new marine species from Papua New Guinea (Crustacea: Amphipoda: Corophioidea). Memoirs of the Museum of Victoria, 52, 311 - 318.", "Bamber, R. N. (2003) New species of Amphipoda from Hong Kong shores. In: Morton, B. (Ed.), Perspectives on Marine Environmental Change in Hong Kong and Southern China, 1997 - 2001. Hong Kong University Press, Hong Kong, pp. 195 - 207.", "Dang, N. T. (1968) Nouveaux amphipodes des eaux douces et saumatres du Nord Viet Nam. Zoologicheski i Zhurnal, 47, 212 - 222."]} Text Kamtschatka ren DataCite Metadata Store (German National Library of Science and Technology) Myers ENVELOPE(170.033,170.033,-72.117,-72.117) Seta ENVELOPE(9.895,9.895,63.645,63.645) Morton ENVELOPE(-61.220,-61.220,-62.697,-62.697) Lowry ENVELOPE(-64.150,-64.150,-84.550,-84.550)

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