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Driving mechanisms of soil bacterial α and β diversity under long-term nitrogen addition: Subtractive heterogenization based on the environment selection

Zhu Yang, Handan Dai, Yongtao Huang, Biao Dong, Shenglei Fu, Chenlu Zhang, Xiaowei Li, Yuhua Tan, Xiaoxin Zhang, Xiao Zhang, Xiao Zhang, Xiao Zhang

2024Geoderma16 citationsDOIOpen Access PDF

Abstract

Soil bacterial α and β diversity patterns under nitrogen (N) addition have been intensively examined, but γ diversity patterns remain largely unknown, especially, the mechanisms that concurrently control changes in α, β and γ diversity remain elusive. Therefore, we formulated a conceptual framework that simultaneously considers candidate drivers including ubiquitous species, rare species, and community assembly processes to elucidate the driving mechanisms of α, β and γ diversity under N addition. The conceptual framework was tested by compiling the sequence data of seven studies published from January 1997 to May 2022 and following the same analysis as our own two long-term multilevel N addition experiments. We demonstrate that subtractive heterogenization based on environment selection simultaneously predicts the changes in α, β and γ diversity under long-term N addition. That is, long-term N addition led to the decline of ubiquitous species (subtractive processes) through low soil pH, and promoted the strength of heterogeneous selection (heterogeneous processes) via enhancing environmental heterogeneity, subsequently causing lower α diversity and γ diversity but higher β diversity. These results mean that N addition may lead to a significant loss of soil bacterial diversity around the world. Together, these findings offer a way to simultaneously predict soil bacterial α, β and γ diversity responses to the ongoing atmospheric nitrogen deposition.

Topics & Concepts

Diversity (politics)Selection (genetic algorithm)Term (time)Environmental scienceEcologySubtractive colorBiologyComputer scienceArtificial intelligenceVisual artsArtSociologyPhysicsAnthropologyQuantum mechanicsMicrobial Community Ecology and PhysiologyGut microbiota and healthSoil Carbon and Nitrogen Dynamics
Driving mechanisms of soil bacterial α and β diversity under long-term nitrogen addition: Subtractive heterogenization based on the environment selection | Litcius