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Diversity of marine Bivalvia in Greek waters: effects of geography and environment

Published online by Cambridge University Press:  06 October 2009

Argyro Zenetos
Argyro Zenetos
Affiliation:
National Centre for Marine Research, 166 04 - Hellenikon, Greece
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Abstract

The diversity and distribution of the Bivalvia fauna is examined in the various seas of Greek territorial waters. There is a statistically significant correlation between the bibliographical sources and the recorded variety of Bivalvia at any given area, with the deeper areas containing fewer species. Attention is given to some species ‘introduced’ into the area.

Cluster analysis, based on the species present at 30 regions which represent distinct geographical and ecological units, do not show any differentiation that corresponds to a geographical pattern. However, a distinct group is associated with the deeper open areas, which suggests that ecological parameters, such as depth and degree of enclosure, play an important role in the distribution of species.

Type
Research Article
Information
Journal of the Marine Biological Association of the United Kingdom , Volume 77 , Issue 2 , May 1997 , pp. 463 - 472
Copyright
Copyright © Marine Biological Association of the United Kingdom 1997

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References

REFERENCES

Bouchet, P. & Taviani, M., 1992. The Mediterranean deep-sea fauna: pseudopopulations of Atlantic species? Deep-Sea Research, 39, 169184.CrossRefGoogle Scholar
Deshayes, M., 1832. Expedition Scientifique de Moree. (Section des Sciences-Physiques, Mollusques). Tome III, Partie Zoologie, Paris.Google Scholar
Fauchauld, K., 1984. Polychaete distribution patterns, or: can animals with Palaeozoic cousins show large-scale geographical patterns? In Proceedings of the First International Polychaete Conference, Sydney (ed. Hutchings, P.A.), pp. 16. Sydney: The Linnean Society of New South Wales.Google Scholar
Forbes, E., 1843 (1844). Report on the Mollusca and Radiata of the Aegean Sea and on their distribution considered as bearing on geology. Report of the 13th meeting of the British Association for the Advancement of Science, 13, 130238.Google Scholar
Fredj, G., Bellan-Santini, D. & Meinardi, M., 1992. Etat des connaissances sur la faune marine méditerranéenne. Bulletin de l'Institut Océanographique, Monaco, (Special no. 9), 133145.Google Scholar
Georgopoulos, D., Theocharis, A. & Zodiatis, G., 1989. Intermediate water formation in the Cretan Sea (South Aegean Sea). Oceanologica Acta, 12, 353359.Google Scholar
Golikov, A.N., 1985. Zonations and organismic assemblages: comments on the comprehensive review by Pérès (1982). Marine Ecology Progress Series, 23, 203206.CrossRefGoogle Scholar
Grassle, J.F. & Maciolec, N.J., 1992. Deep-sea richness: regional and local diversity estimates from quantitative bottom samples. American Naturalist, 139, 313341.CrossRefGoogle Scholar
Hammond, P., 1992. Species inventory. In Global biodiversity (ed. Jenkins, M. et al. ), pp. 1739. London: Chapman & Hall.CrossRefGoogle Scholar
Jeffreys, J.G., 1879. On the Mollusca procured during the ‘Lightning’ and ‘Porcupine’ expeditions, 1868–70. (Part II.) Proceedings of the Zoological Society of London, 18, 553588.CrossRefGoogle Scholar
Jeffreys, J.G., 1881a. On the Mollusca procured during the ‘Lightning’ and ‘Porcupine’ expeditions, 1868–70. (Part III.) Proceedings of the Zoological Society of London, XLV, 693724.CrossRefGoogle Scholar
Jeffreys, J.G., 1881b. On the Mollusca procured during the ‘Lightning’ and ‘Porcupine’ Expeditions, 1868–70. (Part IV.) Proceedings of the Zoological Society of London, LXI, 922952.CrossRefGoogle Scholar
Jeffreys, J.G., 1883. Mediterranean Mollusca (no. 3) and other Invertebrata. Annals and Magazine of Natural History, London. Series 5, 11, 393401.CrossRefGoogle Scholar
Koutsoubas, D., Koukouras, A., Karakassis, I. & Dounas, C., 1992. Contribution to the knowledge of Gastropoda and Bivalvia (Mollusca) of Crete Island (S. Aegean Sea). Bolletino Malacologico. Milano, 28, 6982.Google Scholar
Lambshead, P.J.D., 1993. Recent developments in marine benthic biodiversity research. Oceanis, 19, 524.Google Scholar
NCMR, 1995. Impact study on the benthic biocoenoses of Korinthiakos Gulf from the residues of bauxite elaboration (ed. Zenetos, A.), pp. 193. Athens: Technical Report, NCMR. [In Greek.]Google Scholar
Papaconstantinou, C., 1988. Check-list of marine fishesof Greece. Fauna Graeciae. Vol. IV. Pisces (ed. Hellenic Zoological Society and NCMR). Athens: NCMR.Google Scholar
Papazacharias, A.S., 1991. Ecological study of the soft substratum macrofauna in the infralittoral and circalittoral zone of the Gidf of Kavala. PhD thesis, University of Thessaloniki, Greece. [In Greek.]Google Scholar
Por, F.D., 1990. Lessepsian migration. An appraisal and new data. Bulletin de l'Institut Océanographique, Monaco, (Special no. 7), 110.Google Scholar
Sabelli, B., Giannuzzi-Savelli, R. & Bedulli, D., 1990. Catalogo annotato dei molluschi marini del Mediterraneo. Libreria Naturalistica Bolognese, 1, 348 pp.Google Scholar
Sakellariou, E.C., 1957. The recent molluscs in the Gulf of Thessaloniki and their contibution in stratigraphy. PhD thesis, University of Thessaloniki, Greece. [In Greek.]Google Scholar
Simboura, N. & Nicolaidou, A., 1994. Checklist and bibliography of polychaetes from Greece with some recent additions. Abstract in: Actes de la 4eme Conference internationale des Polychetes. Memoires du Museum Nationale d'Histoire Naturelle, 16, 640.Google Scholar
Sokal, R.R. & Sneath, P.H.A., 1963. Principles of numerical taxonomy. San Francisco: W.H. Freeman.Google Scholar
Theocharis, A. & Georgopoulos, D., 1993. Dense formation over the Samothraki and Limnos plateau in the North Aegean Sea (eastern Mediterranean Sea). Continental Shelf Research, 13, 919939.CrossRefGoogle Scholar
Zar, H.H., 1984. Biostatistical analysis, 2nd ed. New Jersey: Prentice-Hall Inc. [Biological Science Series.]Google Scholar
Zenetos, A., 1993. Infralittoral macrobenthos of the Patras Gulf and Ionian Sea. Bivalvia, Mollusca. Malacological Review, 26, 5162.Google Scholar
Zenetos, A., 1994a. Records of Bivalvia in Greek waters. Biologia Gallo-hellenica, 22, 293304.Google Scholar
Zenetos, A., 1994b. Scapharca demiri (Piani, 1981): first finding in the North Aegean Sea. La Conchiglia, 271, 3738.Google Scholar
Zenetos, A., 1995. Marine Bivalvia fauna in Greek waters: variety, distribution, ecology and zoogeography. In Abstracts of the Twelfth International Malacological Congress, Vigo, Spain, 3–8 September 1995 (ed. Guerra, A. et al. ), pp. 1530. Vigo, Spain.Google Scholar
Zenetos, A., 1996. The marine Bivalvia (Mollusca) of Greece. In Fauna Greciae, vol. VII (ed. Hellenic Zoological Society and NCMR), pp. 1319. Athens: NCMR.Google Scholar
Zenetos, A. & Aartsen, J.J., , van, 1995. The deep sea molluscan fauna of the SE Aegean Sea and its relation to the neighbouring faunas. Bolletino Malacologico. Milano, 30, 253268.Google Scholar
Zenetos, A., Papathanassiou, E. & Aartsen, J.J., van, 1991. Analysis of benthic communities in the Cyclades plateau (Aegean Sea) using ecological and paleoecological data sets. Marine Ecology, 12, 123137.CrossRefGoogle ScholarPubMed
Zodiatis, G., 1992. Lens formation in the SE Ionian Sea and double diffusion. Annales Geophysicae, 10, 935942.Google Scholar