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Different mechanisms driving increasing abundance of microbial phosphorus cycling gene groups along an elevational gradient

Yi Li, Jieying Wang, Liyuan He, Xiaofeng Xu, Jun Wang, Chengjie Ren, Yaoxin Guo, Fazhu Zhao

2022iScience27 citationsDOIOpen Access PDF

Abstract

Microbes play an integral role in forest soil phosphorus (P) cycling. However, the variation of microbial P-cycling functional genes and their controlling factors in forest soils is unclearly. We used metagenomics to investigate changes in the abundance of genes involved in P-starvation response regulation, P-uptake and transport, and P-solubilization and mineralization along the five elevational gradients. Our results showed the abundance of three P cycling gene groups increasing along the elevational gradient. Acidobacteria and Proteobacteria were the dominant microbial phyla determining the turnover of soil P-solubilization and immobilization. Along the elevational gradient, soil substrates are the major factor explaining variation in P-starvation response regulation genes. Soil environment is the main driver of P-uptake and transport and P-solubilization and mineralization genes. This study provided insights into the regulation of P-cycling from a microbial functional profile perspective, highlighting the importance of substrate and environmental factors for P-cycling genes in forest soils.

Topics & Concepts

CyclingMineralization (soil science)AcidobacteriaMicrobial population biologySoil waterEcologyAbundance (ecology)BiologyMetagenomicsBotanyChemistryEnvironmental chemistryProteobacteriaGeneBiochemistryBacteriaGenetics16S ribosomal RNAArchaeologyHistoryPlant nutrient uptake and metabolismSoil Carbon and Nitrogen DynamicsMicrobial Community Ecology and Physiology
Different mechanisms driving increasing abundance of microbial phosphorus cycling gene groups along an elevational gradient | Litcius