Affiliation:
1. Anhui Science and Technology University
Abstract
Abstract
Background and aims
Nitrogen (N) deposition is a global driver of change that affects microbial biomass and ecosystem processes. However, it remains unclear whether N enrichment impacts microbial biomass in soil across ecosystems.
Methods
In this study, we synthesized 1,385 paired observations from 125 studies worldwide to evaluate the effects of N addition on soil microbial biomass.
Results
We found that N enrichment substantially suppresses total microbial biomass, including bacterial, fungal, and arbuscular mycorrhizal fungi biomass. Importantly, we found strong negative effects on microbial biomass globally caused by N-enrichment-induced soil acidification. Moreover, N enrichment mainly shapes the acidification of soil through the increased concentration of ammonium and by changing exchangeable cations in soil, including magnesium, calcium, sodium, manganese, and aluminum ions.
Conclusions
Overall, our findings demonstrate that N-enrichment-induced soil acidification is a crucial factor to consider for preserving microbial communities and ecosystem function under future trends of increasing N enrichment.
Publisher
Research Square Platform LLC