loading page

Taxonomic and functional dissimilarities of soil bacterial communities are more related to environmental dissimilarity than geographic distance
  • +9
  • Qingqing Liang,
  • Heidi Mod,
  • Shuaiwei Luo,
  • Beibei Ma,
  • Kena Yang,
  • Beibei Chen,
  • Wei Qi,
  • Zhigang Zhao,
  • Guozhen Du,
  • Antoine Guisan,
  • Xiaojun Ma,
  • Xavier Le Roux
Qingqing Liang
Lanzhou University
Author Profile
Heidi Mod
University of Helsinki
Author Profile
Shuaiwei Luo
Lanzhou University
Author Profile
Beibei Ma
Lanzhou University
Author Profile
Kena Yang
Lanzhou University
Author Profile
Beibei Chen
Lanzhou University
Author Profile
Wei Qi
Lanzhou University
Author Profile
Zhigang Zhao
Lanzhou University
Author Profile
Guozhen Du
Lanzhou University
Author Profile
Antoine Guisan
University of Lausanne
Author Profile
Xiaojun Ma
Lanzhou University

Corresponding Author:[email protected]

Author Profile
Xavier Le Roux
Author Profile

Abstract

The processes governing soil bacteria biogeography are still not fully understood. It remains unknown how the importance of environmental filtering and dispersal differs between bacterial taxonomic and functional biogeography, and whether their importance is scale-dependent. We sampled soils at 195 plots across the Tibet plateau, with distances among plots ranging from 20 m to 1 550 km. Taxonomic composition of bacterial community was characterized by 16S amplicon sequencing, and functional community composition by qPCR targeting 9 functional groups involved in N dynamics. Twelve climatic and soil characteristics were also measured. Both taxonomic and functional dissimilarities were more related to environmental dissimilarity than geographic distance. Taxonomic dissimilarity was mostly explained by soil pH and organic matter, while functional dissimilarity was mostly linked to moisture, temperature and N, P and C availabilities. The roles of environmental filtering and dispersal were, however, scale-dependent and varied between taxonomic and functional dissimilarities, with distance affecting taxonomic dissimilarity over short distances (<~300 km) and functional dissimilarity over long distances (>~600 km). The importance of different environmental predictors varied across scales more for functional than taxonomic dissimilarity. Our results demonstrate how biodiversity dimension (taxonomic versus functional) and spatial scale strongly influence the conclusions derived from bacterial biogeography studies.
29 Dec 2022Review(s) Completed, Editorial Evaluation Pending
29 Dec 2022Submitted to Molecular Ecology
17 Jan 2023Reviewer(s) Assigned
27 Feb 2023Editorial Decision: Revise Minor
26 Mar 20231st Revision Received
27 Mar 2023Submission Checks Completed
27 Mar 2023Assigned to Editor
27 Mar 2023Review(s) Completed, Editorial Evaluation Pending
29 Mar 2023Editorial Decision: Accept