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Literature DB >> 23385579

Turnover of soil bacterial diversity driven by wide-scale environmental heterogeneity.

L Ranjard¹, S Dequiedt, N Chemidlin Prévost-Bouré, J Thioulouse, N P A Saby, M Lelievre, P A Maron, F E R Morin, A Bispo, C Jolivet, D Arrouays, P Lemanceau.

Abstract

Spatial scaling and determinism of the wide-scale distribution of macroorganism diversity has been largely demonstrated over a century. For microorganisms, and especially for soil bacteria, this fundamental question requires more thorough investigation, as little information has been reported to date. Here by applying the taxa-area relationship to the largest spatially explicit soil sampling available in France (2,085 soils, area covered ~5.3 × 10(5) km(2)) and developing an innovative evaluation of the habitat-area relationship, we show that the turnover rate of bacterial diversity in soils on a wide scale is highly significant and strongly correlated with the turnover rate of soil habitat. As the diversity of micro- and macroorganisms appears to be driven by similar processes (dispersal and selection), maintaining diverse and spatially structured habitats is essential for soil biological patrimony and the resulting ecosystem services.

Mesh：

Substances：
Soil

Year: 2013 PMID： 23385579 DOI： 10.1038/ncomms2431

Source DB: PubMed Journal: Nat Commun ISSN： 2041-1723 Impact factor: 14.919

26 in total

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5. Bacteria as Emerging Indicators of Soil Condition.

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6. Improving soil bacterial taxa-area relationships assessment using DNA meta-barcoding.

Authors: S Terrat; S Dequiedt; W Horrigue; M Lelievre; C Cruaud; N P A Saby; C Jolivet; D Arrouays; P-A Maron; L Ranjard; N Chemidlin Prévost-Bouré
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7. Environmental Filtering Process Has More Important Roles than Dispersal Limitation in Shaping Large-Scale Prokaryotic Beta Diversity Patterns of Grassland Soils.

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