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Article Dans Une Revue Journal of Biogeography Année : 2009

Spatial species-richness gradients acrossscales : a meta-analysis

Richard Field
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Bradford A. Hawkins
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Howard V. Cornell
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David J. Currie
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J. Alexandre F. Diniz-Filho
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Dawn M. Kaufman
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Jeremy T. Kerr
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Gary G. Mittelbach
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Eileen M. O'Brien
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John R. G. Turner
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Résumé

Aim  We surveyed the empirical literature to determine how well six diversity hypotheses account for spatial patterns in species richness across varying scales of grain and extent. Location  Worldwide. Methods  We identified 393 analyses (‘cases') in 297 publications meeting our criteria. These criteria included the requirement that more than one diversity hypothesis was tested for its relationship with species richness. We grouped variables representing the hypotheses into the following ‘correlate types': climate/productivity, environmental heterogeneity, edaphics/nutrients, area, biotic interactions and dispersal/history (colonization limitation or other historical or evolutionary effect). For each case we determined the ‘primary' variable: the one most strongly correlated with taxon richness. We defined ‘primacy' as the proportion of cases in which each correlate type was represented by the primary variable, relative to the number of times it was studied. We tested for differences in both primacy and mean coefficient of determination of the primary variable between the hypotheses and between categories of five grouping variables: grain, extent, taxon (animal vs. plant), habitat medium (land vs. water) and insularity (insular vs. connected). Results  Climate/productivity had the highest overall primacy, and environmental heterogeneity and dispersal/history had the lowest. Primacy of climate/productivity was much higher in large-grain and large-extent studies than at smaller scales. It was also higher on land than in water, and much higher in connected systems than in insular ones. For other hypotheses, differences were less pronounced. Throughout, studies on plants and animals showed similar patterns. Coefficients of determination of the primary variables differed little between hypotheses and across the grouping variables, the strongest effects being low means in the smallest grain class and for edaphics/nutrients variables, and a higher mean for water than for land in connected systems but vice versa in insular systems. We highlight areas of data deficiency. Main conclusions  Our results support the notion that climate and productivity play an important role in determining species richness at large scales, particularly for non-insular, terrestrial habitats. At smaller extents and grain sizes, the primacy of the different types of correlates appears to differ little from null expectation. In our analysis, dispersal/history is rarely the best correlate of species richness, but this may reflect the difficulty of incorporating historical factors into regression models, and the collinearity between past and current climates. Our findings are consistent with the view that climate determines the capacity for species richness. However, its influence is less evident at smaller spatial scales, probably because (1) studies small in extent tend to sample little climatic range, and (2) at large grains some other influences on richness tend to vary mainly within the sampling unit.

Dates et versions

hal-00542160 , version 1 (01-12-2010)

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Richard Field, Bradford A. Hawkins, Howard V. Cornell, David J. Currie, J. Alexandre F. Diniz-Filho, et al.. Spatial species-richness gradients acrossscales : a meta-analysis. Journal of Biogeography, 2009, 36 (1), pp.132-147. ⟨10.1111/j.1365-2699.2008.01963.x⟩. ⟨hal-00542160⟩
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