Teratonotum Sabroux & Corbari & Krapp & Bonillo & Prieur & Umr & Cnrs 2017, gen. nov.

Teratonotum gen. nov. urn:lsid:zoobank.org:act: CD6D82C7-E0EC-4E46-A2C6-559678E48B29 Fig. 6 Type species Ammothella stauromata Child, 1982: 270 (in list), 271–273, fig. 1. Ammothella stauromata – Arango 2003a: 2730–2731. — Bamber 2004: 2–3, 21 (in tab.); 2007a: 256 (in list). — Child 1987: 180 (in l...

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Bibliographic Details
Main Authors: Sabroux, Romain, Corbari, Laure, Krapp, Franz, Bonillo, Céline, Prieur, Stépahnie Le, Umr, Alexandre Hassanin
Format: Text
Language:unknown
Published: Zenodo 2017
Subjects:
Biodiversity
Taxonomy
Animalia
Arthropoda
Pycnogonida
Pantopoda
Ammotheidae
Teratonotum
Pacific
Argentina
Burch
Bouvier
Laure
Antarc*
Antarctica
Online Access:https://dx.doi.org/10.5281/zenodo.3845808
https://zenodo.org/record/3845808
Description
Summary:Teratonotum gen. nov. urn:lsid:zoobank.org:act: CD6D82C7-E0EC-4E46-A2C6-559678E48B29 Fig. 6 Type species Ammothella stauromata Child, 1982: 270 (in list), 271–273, fig. 1. Ammothella stauromata – Arango 2003a: 2730–2731. — Bamber 2004: 2–3, 21 (in tab.); 2007a: 256 (in list). — Child 1987: 180 (in list); 1988: III (in list), 5–7, 30–31 (in list); 1990: 316 (in description); 1996: 544; 1998: 290 –291. — Müller 1989: 125; 1990a: 66; 1990b: 106. — Nakamura & Child 1988: 809–810. — Stock 1994: 29. Diagnosis Trunk slender, totally segmented; ocular tubercle present, with three long, slender dorso-median tubercles; abdomen long, straight, almost vertical; scapes bi-articled, more proximal article with dorsodistal slender tubercle, chelae atrophied in adult; palps 9-articulated, originating from bulbous tubercles (with slender tubercle) placed anterolaterally on cephalic segment; oviger 10-articulated, originating ventral to first lateral processes, strigilis with denticulate spines; third leg with a single cement tube at anterior tip in males, tarsus short, propodus curved, auxiliary claws present. Etymology τέρας ( téras ): monster, and νῶτον ( nōton ): back (ancient Greek); referring to its remarkable back tubercles. Gender neutral. An underestimated biodiversity The CO1 data generated in this study on specimens collected during the recent MNHN expeditions indicate that the diversity of Ammotheidae was poorly represented in the nucleotide databases, such as GenBank and BOLD (Ratnasingham & Hebert 2007). Indeed, all our new CO1 sequences show at least 7% of nucleotide divergence with the ca 430 pycnogonid sequences available in GenBank, and even up to 11% if the genus Sericosura is excluded from the comparisons. This means that none of the ammotheids analysed here can be identified at the species level using molecular barcoding. Actually, this result is not surprising if we consider that most of the pycnogonids previously registered in the GenBank and BOLD databases were collected along the coastlines of temperate South America (Chile and Argentina) and Antarctica (Fig. 1), whereas our specimens come from widely spread geographic areas, i.e., French Guiana, Guadeloupe, Madagascar, Marquesas Islands, New Caledonia, Papua New Guinea, Vanuatu, and Atlantic and Pacific vents (Fig. 2). Besides, another issue for molecular taxonomy is the fact that most of the barcode sequences deposited in BOLD were not identified to the family level (958 of 1315, 72.85%). Beyond a problem of molecular taxonomy, ammotheids, and more generally pycnogonids, suffer from a lack of knowledge. For instance, our specimens collected along the coastlines of southern Madagascar show a far more rich diversity than previously recorded in the literature: five different species of Achelia were identified, whereas only two species were previously known from Madagascar; none of the species of Ammothella and Endeis studied here were known in the region; and a new species of Acheliana was found (Arnaud 1971a, 1971b, 1972, 1973; Stock 1974). In a more general way, it seems that the large collection of sea spiders assembled during the MNHN expeditions represents an important input to our knowledge of this group and promises the description of numerous new species (in prep.). : Published as part of Sabroux, Romain, Corbari, Laure, Krapp, Franz, Bonillo, Céline, Prieur, Stépahnie Le & Umr, Alexandre Hassanin, 2017, Biodiversity and phylogeny of Ammotheidae (Arthropoda: Pycnogonida), pp. 1-33 in European Journal of Taxonomy 286 on pages 16-18, DOI: 10.5852/ejt.2017.286, http://zenodo.org/record/3824678 : {"references": ["Child C. A. 1982. Pycnogonida from the Western Pacific Islands, I. The Marshall Islands. Proceedings of the Biological Society of Washington 95 (2): 270 - 281.", "Arango C. P. 2003 a. Sea spiders (Pycnogonida, Arthropoda) from the Great Barrier Reef, Australia: new species, new records and ecological annotations. Journal of Natural History 37: 2723 - 2772. http: // dx. doi. org / 10.1080 / 00222930210158771", "Bamber R. N. 2004. Pycnogonids (Arthropoda: Pycnogonida) from French cruises to Melanesia. Zootaxa 551: 1 - 27.", "Bamber R. N. 2007 a. Pycnogonida of New Caledonia. In: Payri C. E. & Richer de Forges B. (eds) Compendium of Marine Species of New Caledonia: 255 - 257. Documents Scientifiques et Techniques, deuxieme edition, IRD Noumea 117.", "Child C. A. 1987. Chapter 16. Pycnogonida of Enewetak Atoll. In: Devaney D. M., Reese E. S., Burch B. L. & Helfrich P. (eds) The Natural History of Enewetak Atoll 2: 179 - 180. Hawaii, United States Department of Energy, Office of Energy Research, Office of Health and Environmental Research, Ecological Research Division.", "Child C. A. 1990. Pycnogonida of the Western Pacific Islands, VIII: Recent collections from islands of the Great Barrier Reef, Australia. Proceedings of the Biological Society of Washington 103 (2): 311 - 335.", "Muller H. - G. 1989. Shallow-water Pycnogonida from coral reefs at Moorea, Society Islands, with description of Rhynchothorax tiahurensis n. sp. Bonner Zoologische Beitrage 40 (2): 123 - 139.", "Muller H. - G. 1990 a. Shallow-water Pycnogonida from Kenya and Sri Lanka, with descriptions of three new species. Bonner Zoologische Beitrage 41 (1): 63 - 79.", "Muller H. - G. 1990 b. On some Indo-West-Pacific Pycnogonida from the Zoologisk Museum, Copenhagen. Zoologische Abhandlungen, Staatliches Museum fur Tierkunde Dresden 45 (10): 103 - 110.", "Nakamura K. & Child A. C. 1988. Pycnogonida of the western Pacific Islands. V. A collection by the Kakuyo Maru from Samoa. Proceedings of the Biological Society of Washington 101 (4): 809 - 816. https: // dx. doi. org / 10.5479 / si. 00810282.512", "Stock J. H. 1994. Indo-west Pacific Pycnogonida collected by some major oceanographic expeditions. Beaufortia 44 (3): 17 - 77.", "Ratnasingham S. & Hebert P. D. 2007. BOLD: The Barcode of Life Data System. Molecular Ecology Notes 7 (3): 355 - 364. http: // dx. doi. org / 10.1111 / j. 1471 - 8286.2007.01678. x", "Arnaud F. 1971 a. Acheliana tropicalis n. gen., n. sp., pycnogonide des recifs coralliens du sud-ouest de Madagascar. Beaufortia 18 (241): 199 - 204.", "Arnaud F. 1971 b. Pycnogonides des recifs coralliens de Madagascar. 2. Redescription de Pycnogonum madagascariensis Bouvier, 1911. Tethys 1: 161 - 64.", "Arnaud F. 1972. Pycnogonides des recifs coralliens de Madagascar. 3. Famille des Callipallenidae. Tethys 3: 157 - 64.", "Arnaud F. 1973. Pycnogonides des recifs coralliens de Madagascar. 4. Colossendeidae, Phoxichilidiidae et Endeidae. Tethys 4 (4): 953 - 960.", "Stock J. H. 1974. Medio- and infralittoral Pycnogonida collected during the IIOE near the landbase on Nossi-Be, Madagascar. Bulletin Zoologisch Museum 4 (3): 11 - 18."]}

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