Plant species identity and soil characteristics determine rhizosphere soil bacteria community composition in European temperate forests

Ma, Shiyu; De Frenne, Pieter; Boone, Nico; Brunet, Jorg; Cousins, Sara A. O.; Decocq, Guillaume; Kolb, Annette; Lemke, Isa; Liira, Jaan; Naaf, Tobias; Orczewska, Anna; Plue, Jan; Wulf, Monika; Verheyen, Kris

doi:10.1093/femsec/fiz063

Research article2019Peer reviewedOpen access

Plant species identity and soil characteristics determine rhizosphere soil bacteria community composition in European temperate forests

Ma, Shiyu; De Frenne, Pieter; Boone, Nico; Brunet, Jorg; Cousins, Sara A. O.; Decocq, Guillaume; Kolb, Annette; Lemke, Isa; Liira, Jaan; Naaf, Tobias; Orczewska, Anna; Plue, Jan; Wulf, Monika; Verheyen, Kris

Abstract

Soil bacteria and understorey plants interact and drive forest ecosystem functioning. Yet, knowledge about biotic and abiotic factors that affect the composition of the bacterial community in the rhizosphere of understorey plants is largely lacking. Here, we assessed the effects of plant species identity (Milium effusum vs. Stachys sylvatica), rhizospheric soil characteristics, large-scale environmental conditions (temperature, precipitation and nitrogen (N) deposition), and land-use history (ancient vs. recent forests) on bacterial community composition in rhizosphere soil in temperate forests along a 1700 km latitudinal gradient in Europe. The dominant bacterial phyla in the rhizosphere soil of both plant species were Acidobacteria, Actinobacteria and Proteobacteria. Bacterial community composition differed significantly between the two plant species. Within plant species, soil chemistry was the most important factor determining soil bacterial community composition. More precisely, soil acidity correlated with the presence of multiple phyla, e.g. Acidobacteria (negatively), Chlamydiae (negatively) and Nitrospirae (positively), in both plant species. Large-scale environmental conditions were only important in S. sylvatica and land-use history was not important in either of the plant species. The observed role of understorey plant species identity and rhizosphere soil characteristics in determining soil bacterial community composition extends our understanding of plant-soil bacteria interactions in forest ecosystem functioning.

Keywords

forest age; herbaceous layer; macroclimate; N deposition; soil acidity; soil bacterial diversity

Published in

FEMS Microbiology Ecology
2019, Volume: 95, number: 6, article number: fiz063
Publisher: OXFORD UNIV PRESS

SLU Authors

Brunet, Jörg
- Southern Swedish Forest Research Centre, Swedish University of Agricultural Sciences

UKÄ Subject classification

Soil Science

Publication identifier

DOI: https://doi.org/10.1093/femsec/fiz063

Permanent link to this page (URI)

https://res.slu.se/id/publ/101066

Plant species identity and soil characteristics determine rhizosphere soil bacteria community composition in European temperate forests

Abstract

Keywords

Published in

SLU Authors

Brunet, Jörg

UKÄ Subject classification

Publication identifier

Permanent link to this page (URI)