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Danovaro, R.; Gambi, C.; Lampadariou, N.; Tselepides, A. (2008). Deep-sea nematode biodiversity in the Mediterranean basin: testing for longitudinal, bathymetric and energetic gradients. Ecography. 31(2): 231-244.
180788
10.1111/j.0906-7590.2008.5484.x [view]
Danovaro, R.; Gambi, C.; Lampadariou, N.; Tselepides, A.
2008
Deep-sea nematode biodiversity in the Mediterranean basin: testing for longitudinal, bathymetric and energetic gradients
Ecography
31(2): 231-244
Publication
NeMys doc_id: 17897
Available for editors  PDF available [request]
The knowledge of the processes controlling the spatial distribution of species diversity is one of the main challenges of the present ecological research. Spatial patterns of benthic biodiversity in the deep sea are poorly known in comparison with other ecosystems and this limits our understanding of the mechanisms controlling the distribution and maintenance of high biodiversity in the largest ecosystems of our biosphere. Although the Mediterranean basin covers B1% of the world ocean surface, none the less it hosts ?7.5% of the global biodiversity. The high biogeographic complexity and the presence of steep ecological gradients contribute in making the Mediterranean a region of very high diversity. Here we report the results of an investigation on the patterns of nematode biodiversity in the deep-Mediterranean Sea, in relation with bathymetric, longitudinal and energetic gradients. Our results indicate that benthic biodiversity in the deep- Mediterranean decreases significantly with increasing depth. Moreover, at equally deep sites, nematode diversity decreased from the western to the eastern basin and longitudinal gradients were evident when comparing sites at 4000-m depth, with 3000-m depth. The analysis of the available energy (measured as labile organic matter content of the sediments) suggests that biodiversity patterns are not controlled by the amounts of food resources, but instead bioavailability is the key factor. A more detailed analysis revealed an extremely high deep-sea beta-diversity (turnover diversity), both among sites at different depths as well as at similar depths of different longitude or within the same basin. This new finding has not only important implications on the estimates of the overall regional diversity (gamma diversity), but also suggests the presence of high biogeographic complexity in the deep benthic domain of the Mediterranean Sea.
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Acantholaimus Allgén, 1933 (additional source)
Axonolaimidae Filipjev, 1918 (additional source)
Comesomatidae Filipjev, 1918 (additional source)
Desmoscolex Claparède, 1863 (additional source)
Draconematidae Filipjev, 1918 (additional source)
Halalaimus de Man, 1888 (additional source)
Oncholaimidae Filipjev, 1916 (additional source)
Oxystomina Filipjev, 1918 (additional source)
Oxystominidae Chitwood, 1935 (additional source)
Pandolaimidae Belogurov, 1980 (additional source)
Paralongicyatholaimus Schuurmans Stekhoven, 1950 (additional source)
Paramicrolaimidae Lorenzen, 1981 (additional source)
Phanodermatidae Filipjev, 1927 (additional source)
Pierrickia Vitiello, 1970 (additional source)
Pselionema Cobb, 1933 (additional source)
Syringolaimus de Man, 1888 (additional source)
Xyalidae Chitwood, 1951 (additional source)