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Caprellids (Crustacea: Amphipoda) associated with the intertidal alga Corallina elongata along the Iberian Peninsula

Published online by Cambridge University Press:  10 May 2010

José M. Guerra-García*
Affiliation:
Laboratorio de Biología Marina, Departamento de Fisiología y Zoología, Facultad de Biología, Universidad de Sevilla, Avenida Reina Mercedes 6, E-41012, Sevilla, Spain
Daviz Izquierdo
Affiliation:
Laboratorio de Biología Marina, Departamento de Fisiología y Zoología, Facultad de Biología, Universidad de Sevilla, Avenida Reina Mercedes 6, E-41012, Sevilla, Spain
*
Correspondence should be addressed to: J.M. Guerra-García, Laboratorio de Biología Marina, Departamento de Fisiología y Zoología, Facultad de Biología, Universidad de Sevilla, Avenida Reina Mercedes 6, E-41012, Sevilla, Spain email: [email protected]
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Abstract

Abundance patterns of intertidal caprellids associated with the alga Corallina elongata were studied along the Iberian Peninsula. Nineteen stations were selected. The Mediterranean coast showed higher seawater temperature and conductivity and lower dissolved oxygen and turbidity than the Atlantic coast. Cover of C. elongata was negatively correlated with seawater temperature and decreased towards the Mediterranean sites. Number of caprellid species and abundances were higher in stations in the Strait of Gibraltar, probably related with the currents' dynamic around this area. In general, caprellids associated with C. elongata were more abundant along the Mediterranean than along the Atlantic, in spite of the lower algal cover in Mediterranean stations. Caprella hirsuta and C. liparotensis were restricted to the Mediterranean coast whereas C. penantis was only found in the Atlantic and the Strait of Gibraltar. Although C. grandimana has been reported along the Mediterranean, its presence on Corallina elongata was restricted to the Strait of Gibraltar. Oppositely, Caprella liparotensis, which usually inhabits Atlantic and Mediterranean intertidal ecosystems, was only present in the Mediterranean and did not coexist with C. penantis along the Atlantic. Probably, competence process among C. grandimana, C. hirsuta, C. liparotensis and C. penantis are regulating the distribution patterns on the intertidal alga Corallina elongata. On the other hand, canonical correspondence analysis showed a clear preference of Caprella penantis at sites with high oxygen concentrations, whereas C. hirsuta was mainly influenced by higher temperature and conductivity.

Type
Research Article
Copyright
Copyright © Marine Biological Association of the United Kingdom 2010

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References

REFERENCES

Bellan-Santini, D. and Ruffo, S. (1998) Faunistics and zoogeography. In Ruffo, S. (ed.) The Amphipoda of the Mediterranean. Mémoires de l'Institut Océanographique, Monaco 13, 895911.Google Scholar
Clarke, K.R. and Gorley, R.N. (2001) Primer (Plymouth Routines in Multivariate Ecological Research) v.5: User Manual /Tutorial. Plymouth: PRIMER-E Ltd, 91 pp.Google Scholar
Grahame, J. and Hanna, F.S. (1989). Factors affecting the distribution of the epiphytic fauna of Corallina officinalis (L.) on an exposed rocky shore. Ophelia 30, 113129.CrossRefGoogle Scholar
Guerra-García, J.M. (2001) Habitat use of the Caprellidea (Crustace: Amphipoda) from Ceuta, North Africa. Ophelia 55, 2738.CrossRefGoogle Scholar
Guerra-García, J.M., Baeza-Rojano, E., Cabezas, M.P., Díaz-Pavón, J.J., Pacios, I. and García-Gómez, J.C. (2009a) The amphipods Caprella penantis and Hyale schmidtii as biomonitors of trace metal contamination in intertidal ecosystems of Algeciras Bay, southern Spain. Marine Pollution Bulletin 58, 783786.CrossRefGoogle ScholarPubMed
Guerra-García, J.M., Cabezas, P., Baeza-Rojano, E., Espinosa, F. and García-Gómez, J.C. (2009b) Is the north side of the Strait of Gibraltar more diverse than the south side? A case study using the intertidal peracarids (Crustacea: Malacostraca) associated with the seaweed Corallina elongata. Journal of the Marine Biological Association of the United Kingdom 89, 387397.CrossRefGoogle Scholar
Guerra-García, J.M., Sánchez, J.A. and Ros, M. (2009c) Distributional and ecological patterns of caprellids (Crustacea: Amphipoda) associated with the seaweed Stypocaulon scoparium in the Iberian Peninsula. Marine Biodiversity Records 2, 18.CrossRefGoogle Scholar
Guerra-García, J.M., Corzo, J. and García-Gómez, J.C. (2002) Clinging behaviour of the Caprellidea (Amphipoda) from the Strait of Gibraltar. Crustaceana 75, 4150.CrossRefGoogle Scholar
Guerra-García, J.M. and García-Gómez, J.C. (2001) Spatial distribution of Caprellidea (Crustacea: Amphipoda): a stress bioindicator in Ceuta (North Africa, Gibraltar area). PSZN Marine Ecology 22, 357367.CrossRefGoogle Scholar
Guerra-García, J.M., Maestre, M.J., González, A.R. and García-Gómez, J.C. (2006) Assessing a quick monitoring method using rocky intertidal communities as a bioindicator: a multivariate approach in Algeciras Bay. Environmental Monitoring and Assessment 116, 345361.CrossRefGoogle ScholarPubMed
Guerra-García, J.M., Sánchez-Moyano, J.E. and García-Gómez, J.C. (2000) Redescription of Caprella hirsuta Mayer, 1890 (Crustacea, Amphipoda, Caprellidea) from the Strait of Gibraltar. Miscellània Zoològica 23, 6978.Google Scholar
Guerra-García, J.M., Sánchez-Moyano, J.E. and García-Gómez, J.C. (2001) Two new hairy species of Caprella (Amphipoda) from the Strait of Gibraltar, with a redescription of Caprella grandimana. Journal of Crustacean Biology 21, 10141030.CrossRefGoogle Scholar
Guerra-García, J.M. and Takeuchi, I. (2002) The Caprellidea (Crustacea: Amphipoda) from Ceuta, North Africa, with the description of three species of Caprella, a key to the species of Caprella, and biogeographical discussion. Journal of Natural History 36, 675713.CrossRefGoogle Scholar
Guerra-García, J.M. and Tierno de Figueroa, J.M. (2009) What do caprellids (Crustacea: Amphipoda) feed on? Marine Biology 156, 18811890.CrossRefGoogle Scholar
Jimeno, A. and Turón, X. (1995) Gammaridea and Caprellidea of the northeast coast of Spain: ecological distribution on different types of substrata. Polskie Archiwum Hydrobiologii 42, 495516.Google Scholar
Krapp-Schickel, T. (1993) Suborder Caprellidea. In Ruffo, S. (ed.) The Amphipoda of the Mediterranean. Mémoires de l'Institut Océanographique, Monaco 13, 773809.Google Scholar
McCune, B. and Mefford, M.J. (1997) PC-ORD. Multivariate analysis of ecological data. Gleneden Beach: MJM Software Design, 77 pp.Google Scholar
Ohji, M., Takeuchi, I., Takahashi, S., Tanabe, S. and Miyazaki, N. (2002) Differences in the acute toxicities of tributyltin between the Caprellidea and the Gammaridea (Crustacea: Amphipoda). Marine Pollution Bulletin 44, 1624.CrossRefGoogle ScholarPubMed
Pereira, S.G., Lima, F.P., Queiroz, N.C., Ribeiro, P.A. and Santos, A.M. (2006) Biogeographic patterns of intertidal macroinvertebrates and their association with macroalgae distribution along the Portuguese coast. Hydrobiologia 555, 185192.CrossRefGoogle Scholar
Vázquez-Luis, M., Guerra-García, J.M., Sánchez-Jerez, P. and Bayle-Sempere, J.T. (2009) Caprellid assemblages (Crustacea: Amphipoda) in shallow waters invaded by Caulerpa racemosa var. cylindracea from southeastern Spain. Helgoland Marine Research 63, 107117.CrossRefGoogle Scholar
Woods, C.M.C. (2009) Caprellid amphipods: an overlooked marine finfish aquaculture resource? Aquaculture 289, 199211.CrossRefGoogle Scholar