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Tree diversity and soil chemical properties drive the linkages between soil microbial community and ecosystem functioning

Environmental Studies and Forestry

Tree diversity and soil chemical properties drive the linkages between soil microbial community and ecosystem functioning

R. Beugnon, J. Du, et al.

Discover how tree diversity can transform soil microbial communities and influence ecosystem functioning! This fascinating study by Rémy Beugnon, Jianqing Du, Simone Cesarz, Stephanie D. Jurburg, Zhe Pang, Bala Singavarapu, Tesfaye Wubet, Kai Xue, Yanfen Wang, and Nico Eisenhauer reveals the critical role of microbial biomass in regulating soil carbon dynamics in a subtropical forest in China.

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Playback language: English
Abstract
This study investigated the relationship between tree diversity, soil microbial communities, and ecosystem functioning in a subtropical forest in China. The researchers found that increased tree diversity led to a significant increase in microbial biomass, bacterial diversity, and physiological potential. Microbial biomass and physiological potential, but not diversity, were the key drivers of microbial respiration. While soil chemical properties strongly influenced the microbial community, tree diversity primarily enhanced respiration by increasing microbial biomass. The study highlights the importance of microbial biomass over diversity in regulating soil carbon dynamics.
Publisher
ISME Communications
Published On
Aug 23, 2021
Authors
Rémy Beugnon, Jianqing Du, Simone Cesarz, Stephanie D. Jurburg, Zhe Pang, Bala Singavarapu, Tesfaye Wubet, Kai Xue, Yanfen Wang, Nico Eisenhauer
Tags
tree diversity
soil microbial communities
ecosystem functioning
microbial biomass
subtropical forest
carbon dynamics
bacterial diversity

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