Plant total phosphorus concentration and species diversity drive bacterial community diversity under acid deposition in alkaline desert coal-mining regions in Northwestern China

Abstract

AimsIndustrial emissions have increased acid deposition in the desert coal-mining regions of northwestern China. Empirical evidence indicates that acid deposition could impact ecosystem stability by altering microbial community. However, as these experiments fail to accurately replicate actual depositions, these impacts observed in high-intensity, short-period experiments may overestimate the long-term effects under real-world, gradual deposition conditions. Therefore, field studies focusing on major emission sources in these regions are needed to accurately assess the variations of microbial communities under ambient acid deposition.MethodsThis study investigated the composition and diversity of bacterial community through high-throughput sequencing technology, while examining how bulk deposition characteristics, plant characteristics, and soil properties influence bacterial community composition and diversity in the Ningdong Energy and Chemical Industry Base in northwest China.ResultsAmbient acid deposition shapes bacterial keystone taxa (Oxyphotobacteria) and diversity mainly through its effects on plant phosphorus (P) uptake and community diversity. Plant total P concentration affected the keystone taxa by altering soil organic carbon (C) and Shannon diversity regulated bacterial alpha diversity by altering soil particulate organic C. Ambient deposition had a positive effect on bacterial alpha diversity in moderate alkaline desert.ConclusionsThis study did not reveal a direct association between ambient deposition and keystone taxa. The main taxon and bacterial alpha diversity in the research region were changed as a result of plant total P concentration and species diversity impacted by exchangeable cation deposition. To elucidate delayed impacts of acid deposition on microbial keystone taxa, long-term monitoring and experiments are essential.

Keywords

Bacterial diversity; Acid deposition; Coal-mining region; Alkaline desert; Plant-bacteria interaction

Published in

Plant and Soil
2026
Publisher: SPRINGER

SLU Authors

• He, Sijia

  • Department of Forest Ecology and Management, Swedish University of Agricultural Sciences
    
  • Ningxia University

• Peichl, Matthias

  • Department of Forest Ecology and Management, Swedish University of Agricultural Sciences
    

UKÄ Subject classification

Soil Science

Publication identifier

• DOI: https://doi.org/10.1007/s11104-026-08369-y

Permanent link to this page (URI)

https://res.slu.se/id/publ/146312