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Decapod crustaceans Eucalliacidae in chemoautotrophic bathyal bottoms of the Gulf of Cadiz (Atlantic Ocean), environmental characteristics and associated communities

Published online by Cambridge University Press:  16 May 2018

José Enrique García Raso*
Affiliation:
Departamento de Biología Animal, Universidad de Málaga, Campus de Teatinos s/n, 29071 Málaga, Spain
José Enrique García-Muñoz
Affiliation:
Departamento de Biología Animal, Universidad de Málaga, Campus de Teatinos s/n, 29071 Málaga, Spain
Angel Mateo-Ramírez
Affiliation:
Departamento de Biología Animal, Universidad de Málaga, Campus de Teatinos s/n, 29071 Málaga, Spain
Nieves López González
Affiliation:
Centro Oceanográfico de Málaga, Instituto Español de Oceanografía, Puerto Pesquero s/n, 29640 Fuengirola (Málaga), Spain
Luis Miguel Fernández-Salas
Affiliation:
Centro Oceanográfico de Cádiz, Instituto Español de Oceanografía, Puerto Pesquero, Muelle de Levante s/n, 11006 Cádiz, Spain
José Luis Rueda
Affiliation:
Centro Oceanográfico de Málaga, Instituto Español de Oceanografía, Puerto Pesquero s/n, 29640 Fuengirola (Málaga), Spain
*
Correspondence should be addressed to: José Enrique García Raso, Departamento de Biología Animal, Universidad de Málaga, Campus de Teatinos s/n, 29071 Málaga, Spain email: garciaraso@uma.es

Abstract

During the INDEMARES/CHICA 0610, 0211 and 0412 expeditions, carried out in the northern Spanish sector of the Gulf of Cádiz (Spain), samples were collected with a box-corer in 11 mud volcanoes and their adjacent bottoms. Chemoautotrophic communities were found in nine mud volcanoes. Among Decapoda, a rare eucalliacid, belonging to the genus Calliax and related to the Mediterranean infralittoral species C. lobata (de Gaillande and Lagardère 1966), was present in three of them. Data on its morphology, biogeographic distribution, vertical distribution within the burrows, sediment composition, pH and redox potential values (each in 5 cm intervals) are given; information on the chemoautotrophic communities associated with this species are also provided.

Type
Research Article
Copyright
Copyright © Marine Biological Association of the United Kingdom 2018 

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References

REFERENCES

Atkinson, R.J.A. and Taylor, A.C. (2005) Aspects of the physiology, biology and ecology of Thalassinid shrimps in relation to their burrow environment. Oceanography and Marine Biology. An Annual Review 43, 173210.Google Scholar
Cartes, J.E., Maynou, F., Moranta, J., Massutí, E., Lloris, D. and Morales-Nin, B. (2004) Patterns of bathymetric distribution among deep-sea fauna at local spatial scale: comparison of mainland vs. insular areas. Progress in Oceanography 60, 2945.Google Scholar
Cartes, J.E. and Sarda, F. (1992) Abundance and diversity of decapod crustaceans in the deep-Catalan Sea (Western Mediterranean). Journal of Natural History 26, 13051323.Google Scholar
Dando, P.R., Huges, J.A. and Thiermann, F. (1995) Preliminary observations on biological communities at shallow hydrothermal vents in the Aegean Sea. In Parson, L.M., Walker, C.L. and Dixon, D.R. (eds) Hydrothermal vents and processes. Geological Society Special Publication 87. London: Geological Society, pp. 303317.Google Scholar
de Gaillande, D. and Lagardère, J.P. (1966) Description de Callianassa (Callichirus) lobata nov. sp. (Crustacea Decapoda Callianassidae). Recueil des travaux de la Station marine d'Endoume 40, 259265.Google Scholar
de Saint Laurent, M. (1973) Sur la systématique et la phylogénie des Thalassinidea: Définition des familles des Callianassidae et des Upogebiidae et diagnose de cinq genres nouveaux (Crustacea Decapoda). Comptes Rendus de l'Academie des Sciences Paris, (D) 277, 513516.Google Scholar
de Saint Laurent, M. (1979) Sur la classification et la phylogénie des Thalassinides: définitions de la superfamille des Axioidea, de la sous-famille des Thomassiniinae et de deux genres nouveaux (Crustacea Decapoda). Comptes Rendus de l'Académie des Sciences Paris, (D) 288, 13951397.Google Scholar
de Saint Laurent, M. and Božić, B. (1976) Diagnoses et tableaux de determination des Callianasses de I'Atlantique nord oriental et de Mediterranee (Crustacea, Decapoda, Callianasidae). Proc First Colloquium Crustacea Decapoda Mediterranea. Thalassia Jugoslavica 8, 1540.Google Scholar
Dubois-Dauphin, Q., Colin, C., Bonneau, L., Montero-Serrano, J.C., Blamart, D., Van Rooij, D. and Franck, N. (2014) Millennial-scale influence of southern intermediate component water into the North-east Atlantic during the last 40kyr. 2nd Deep-Water Circulation Congress, Ghent, Belgium, pp. 4546.Google Scholar
Dworschak, P.C. and Cunha, M.R. (2007) A new subfamily, Vulcanocalliacinae n.subfam., for Vulcanocalliax arutyunovi n.gen., n.sp. from a mud volcano in the Gulf of Cádiz (Crustacea, Decapoda, Callianassidae). Zootaxa 1460, 3546.Google Scholar
Follesa, M.C., Porcu, C., Gastoni, A., Mulas, A., Sabatini, A. and Cau, A. (2009) Community structure of bathyal decapod crustaceans off South-Eastern Sardinian deep-waters (Central-Western Mediterranean). Marine Ecology 30(Suppl. 1), 188199.Google Scholar
García Raso, J.E. (1996) Crustacea Decapoda (excl. Sergestidae) from Ibero-Moroccan waters. Results of Balgim-84. Expedition. Bulletin of Marine Science 58, 730752.Google Scholar
Génio, L., Johnson, S.B., Vrijenhoek, R.C., Cunha, M.R., Tyler, P.A., Kiel, S. and Little, C.T.S. (2008) New record of “Bathymodiolusmauritanicus Cosel 2002 from the Gulf of Cadiz (NE Atlantic) mud volcanoes. Journal of Shellfish Research 27, 5361.Google Scholar
Hilário, A. and Cunha, M.R. (2008) On some frenulate species (Annelida: Polychaeta: Siboglinidae) from mud volcanoes in the Gulf of Cadiz (Northeast Atlantic). Scientia Marina 72, 361371.Google Scholar
Hourdez, S. and Lallier, F.H. (2007) Adaptations to hypoxia in hydrothermal-vent and cold-seep invertebrates. Reviews in Environmental Science and Bio/Technology 6, 143159.Google Scholar
Hyžný, M. and Gašparič, R. (2014) Ghost shrimp Calliax de Saint Laurent, 1973 (Decapoda: Axiidea: Callianassidae) in the fossil record: systematics, palaeoecology and palaeobiogeography. Zootaxa 3821, 3757.Google Scholar
Komai, T. and Fujiwara, Y. (2012) New records of callianassid ghost shrimp (Crustacea: Decapoda: Axiidea) from reducing environments in Kyushu, southwestern Japan. Zootaxa 3271, 5567.Google Scholar
Labropoulou, M. and Kostikas, I. (1999) Patterns of resource use in deep-water decapods. Marine Ecology Progress Series 84, 171182.Google Scholar
Latreille, P.A. (1802) Histoire naturelle, generate et particuliere, des crustaces et des insectes. Volume 3. Paris: F. Dufart.Google Scholar
León, R., Somoza, L., Medialdea, T., Vázquez, J.T., González, F.J., López-González, N., Casas, D., Mata, M.P., Fernández-Puga, M.C., Jiménez-Moreno, C.J. and Díaz-del-Río, V. (2012) New discoveries of mud volcanoes on the Moroccan Atlantic continental margin (Gulf of Cadiz): morpho-structural characterization. Geo-Marine Letters 32, 473488.Google Scholar
Lin, F.J., Komai, T. and Chan, T.Y. (2007) A new species of callianassid shrimp (Crustacea: Decapoda: Thalassinidea) from deep-water hydrothermal vents off Taiwan. Proceedings of the Biological Society of Washington 120, 143158.Google Scholar
Manning, R.B. and Felder, D.L. (1991) Revision of the American Callianassidae (Crustacea: Decapoda: Thalassinidea). Proceedings of the Biological Society of Washington 104, 764792.Google Scholar
Martin, J.W. and Haney, T.A. (2005) Decapod crustaceans from hydrothermal vents and cold seeps: a review through 2005. Zoological Journal of the Linnean Society 145, 445522.Google Scholar
Medialdea, T., Somoza, L., Pinheiro, L.M., Fernández-Puga, M.C., Vázquez, J.T., León, R., Ivanov, M.K., Magalhaes, V., Díaz del Río, V. and Vegas, R. (2009) Tectonics and mud volcano development in the Gulf of Cadiz. Marine Geology 261, 4863.Google Scholar
Milkov, A.V. (2000) Worldwide distribution of submarine mud volcanoes and associated gas hydrates. Marine Geology 167, 2942.Google Scholar
Ngoc-Ho, N. (2003) European and Mediterranean Thalassinidea (Crustacea, Decapoda). Zoosystema 25, 439555.Google Scholar
Oliver, G., Rodrigues, C.F. and Cunha, M.R. (2011) Chemosymbiotic bivalves from the mud volcanoes of the Gulf of Cadiz, NE Atlantic, with descriptions of new species of Solemyidae, Lucinidae and Vesicomyidae. ZooKeys 113, 138.Google Scholar
Olu-Le Roy, K., Sibuet, M., Fiala-Médioni, A., Gofas, S., Salas, C., Mariotti, A., Foucher, J.P. and Woodside, J. (2004) Cold seep communities in the deep eastern Mediterranean Sea: composition symbiosis and spatial distribution on mud volcanoes. Deep-Sea Research Part I 51, 19151936.Google Scholar
Oporto, T., Marina, P., López, F.J., Fernández-Zambrano, A., Bruque, G., González-García, E., Sánchez, O., López, E., Moreira, J., Gofas, S., García Raso, J.E., Fernández-Salas, L.M., López-González, N., Rueda, J.L. and Díaz del Río, V. (2012) Caracterización sedimentológica y faunística de las cimas de volcanes de fango del margen español (Golfo de Cadiz). In Freitas, M.C., Cascalho, J., Taborda, R., Ribeiro, M., Drago, T., Andrade, C., Fatela, F. and Cruces, A. (eds) Actas do VII Simpósio sobre Margem Iberica Atlântica – MIA12, Lisboa: Ed. Dep. Geologia, Fac. Ciências da Univ. Lisboa, pp. 131136.Google Scholar
Rodrigues, C.F., Hilário, A. and Cunha, M.R. (2013) Chemosymbiotic species from the Gulf of Cadiz (NE Atlantic): distribution, life styles and nutritional patterns. Biogeosciences 10, 25692581.Google Scholar
Rodrigues, C.F., Oliver, P.G. and Cunha, M.R. (2008) Thyasiroidea (Mollusca: Bivalvia) from the mud volcanoes of the Gulf of Cadiz (North-east Atlantic). Zootaxa 1572, 4156.Google Scholar
Rueda, J.L., González-García, E., Urra, J., Oporto, T., Gofas, S., García-Raso, J.E., López-González, N., Fernández-Salas, L.M. and Díaz del Río, V. (2012a) Chemosymbiotic species associated with mud breccia sediments from mud volcanoes within Spanish waters (Gulf of Cadiz). In Borja, A. (ed.) XVII Iberian symposium on marine biology studies. Revista de Investigación Marina 19, 312314.Google Scholar
Rueda, J.L., Urra, J., Gofas, S., Lopez-Gonzalez, N., Fernandez-Salas, L.M. and Diaz-Del-Río, V. (2012b) New records of recently described chemosymbiotic bivalves for mud volcanoes within the European waters (Gulf of Cadiz). Mediterranean Marine Science 13, 262267.Google Scholar
Sakai, K. (1999) Synopsis of the family Callianassidae, with keys to subfamilies, genera and species, and the description of new taxa (Crustacea: Decapoda: Thalassinidea). Zoologische Verhandelingen 326, 1152.Google Scholar
Sakai, K. (2005) Callianassoidea of the world (Decapoda, Thalassinidea). Crustaceana Monographs 4, 1200.Google Scholar
Sakai, K. (2011) Axioidea of the world and a reconsideration of the Callianassoidea (Decapoda, Thalassinidea, Callianassida). Crustaceana Monographs 13, 1616.Google Scholar
Sakai, K. (2017) Descriptions of eight species from the superfamilies Axioidea Huxley, 1879 and Callianassoidea Dana, 1852, with a revised key to the species of the genus Acanthaxius Sakai & De Saint Laurent, 1989 (Decapoda, Callianassidea). Crustaceana 90, 177197.Google Scholar
Sakai, K. and Türkay, M. (1999) A new subfamily, Bathycalliacinae n. subfam., for Bathycalliax geomar n. gen., n. sp. from the deep water cold seeps off Oregon, USA (Crustacea, Decapoda, Callianassidae). Senckenbergiana Biologica 79, 203209.Google Scholar
Sibuet, M. and Olu, K. (1998) Biogeography, biodiversity and fluid dependence of deep-sea cold-seep communities at active and passive margins. Deep Sea Research II 45, 517567.Google Scholar
Števčić, Z. (1985) New and rarely reported species of decapod Crustacea from the Adriatic Sea. Rapport de la Commission internationale de la Mer Méditerranée 29, 313314.Google Scholar
Števčić, Z. (1990) Check-list of the Adriatic decapod Crustacea. Acta Adriatica 31, 183274.Google Scholar
Taviani, M., Angeletti, L., Ceregato, A., Foglini, A., Froglia, C. and Trincardi, F. (2013) The Gela Basin pockmark field in the strait of Sicily (Mediterranean Sea): chemosymbiotic faunal and carbonate signatures of postglacial to modern cold seepage. Biogeosciences 10, 46534671.Google Scholar
Thessalou-Legakis, M. (1986) Preliminary data on the occurrence of Thalassinidea (Crustacea, Decapoda) in the Greek seas. Biologia Gallo-Hellenica 12, 181187.Google Scholar
Thessalou-Legakis, M. and Zenetos, A. (1985) Autoecological studies on the Thalassinidea (Crustacea, Decapoda) of the Patras Gulf and Ionian Sea (Greece). Rapports et Procès-Verbeaux des Réunions Commission international pour l'Exploration scientifique de la Mér Méditerranée 29, 309312.Google Scholar
Türkay, M. and Sakai, K. (1995) Decapod crustaceans from a volcanic hot spring in the Marianas. Senckenbergiana Maritima 26, 2535.Google Scholar
Van Dover, C.L., German, C.R., Speer, K.G., Parson, L.M. and Vrijenhoek, R.C. (2002) Evolution and biogeography of deep-sea vent and seep invertebrates. Science 295, 12531257.Google Scholar
Vanreusel, A., Andersen, A.C., Boetius, A., Connelly, D., Cunha, M.R., Decker, C., Heeschen, K., Hilario, A., Kormas, K.A., Maigniem, L., Olu, K., Pachiadaki, M., Ritt, B., Rodrigues, C., Sarrazin, J., Tyler, P., Van Gaever, S. and Vanneste, H. (2009) Biodiversity of cold seep ecosystems along the European margins. Oceanography 22, 118135.Google Scholar
Wardiatno, Y. (2009) Physiological adaptation of thalassinidean shrimps (Crustacea: Decapoda) to the burrow environment: a short review. Journal of Tropical Fisheries 3, 3035.Google Scholar
Weaver, P.P.E., Billett, D.S.M., Boetius, A., Danovaro, R., Freiwald, A. and Sibuet, M. (2004) Hotspot ecosystem research on Europe's deep-ocean margins. Oceanography 17, 132143.Google Scholar