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ISME J. 2008 Dec;2(12):1221-30. doi: 10.1038/ismej.2008.80. Epub 2008 Aug 28.

Plant host habitat and root exudates shape soil bacterial community structure.

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1
CEA, DSV, iBEB, SBVME, Laboratoire d'Ecologie Microbienne de Rhizosphère et des Environnements extrêmes, UMR 6191 CNRS, CEA, Aix Marseille-Univ, FR ECCOREV Saint-Paul-Lez-Durance, France.

Abstract

The rhizosphere is active and dynamic in which newly generated carbon, derived from root exudates, and ancient carbon, in soil organic matter (SOM), are available for microbial growth. Stable isotope probing (SIP) was used to determine bacterial communities assimilating each carbon source in the rhizosphere of four plant species. Wheat, maize, rape and barrel clover (Medicago truncatula) were grown separately in the same soil under (13)CO(2) (99% of atom (13)C) and DNA extracted from rhizosphere soil was fractionated by isopycnic centrifugation. Bacteria-assimilating root exudates were characterized by denaturing gradient gel electrophoresis (DGGE) analysis of (13)C-DNA and root DNA, whereas those assimilating SOM were identified from (12)C-DNA. Plant species root exudates significantly shaped rhizosphere bacterial community structure. Bacteria related to Sphingobacteriales and Myxococcus assimilated root exudates in colonizing roots of all four plants, whwereas bacteria related to Sphingomonadales utilized both carbon sources, and were identified in light, heavy and root compartment DNA. Sphingomonadales were specific to monocotyledons, whereas bacteria related to Enterobacter and Rhizobiales colonized all compartments of all four plants, used both fresh and ancient carbon and were considered as generalists. There was also evidence for an indirect important impact of root exudates, through stimulation of SOM assimilation by a diverse bacterial community.

PMID:
18754043
DOI:
10.1038/ismej.2008.80
[Indexed for MEDLINE]

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