Altered microbial P cycling genes drive P availability in soil after afforestation

酸杆菌 自行车 刺槐 矿化(土壤科学) 芽单胞菌门 微生物种群生物学 生物 植树造林 生态演替 生态系统 土壤微生物学 浮霉菌门 生态学 植物 拟杆菌 土壤水分 基因 细菌 16S核糖体RNA 林业 生物化学 地理 遗传学
作者
Ruochen Zhi,Jian Deng,Yuling Xu,Miaoping Xu,Shuohong Zhang,Xinhui Han,Gaihe Yang,Chengjie Ren
出处
期刊:Journal of Environmental Management [Elsevier BV]
卷期号:328: 116998-116998 被引量:59
标识
DOI:10.1016/j.jenvman.2022.116998
摘要

Soil Phosphorous (P) availability is a limiting factor for plant growth and regulates biological metabolism in plantation ecosystems. The effect of variations in soil microbial P cycling potential on the availability of soil P during succession in plantation ecosystems is unclear. In this study, a metagenomics approach was used to explore variations in the composition and diversity of microbial P genes along a 45-year recovery sequence of Robinia pseudoacacia on the Loess Plateau, as well soil properties were measured. Our results showed that the diversity of P cycling genes (inorganic P solubilization and organic P mineralization genes) increased significantly after afforestation, and the community composition showed clear differences. The gcd and ppx genes were dominant in inorganic P transformation, whereas phnM gene dominated the transformation of organic P. The abundance of genes involved in inorganic P solubilization and organic P mineralization was significantly positively correlated with P availability, particularly for phnM, gcd, ppx, and phnI genes, corresponding to the phyla Gemmatimonadetes, Acidobacteria, Bacteroidetes, and Planctomycetes. The critical drivers of the microbial main genes of soil P cycling were available P (AP) and total N (TN) in soil. Overall, these findings highlight afforestation-induced increases in microbial P cycling genes enhanced soil P availability. and help to better understand how microbial growth metabolism caused by vegetation restoration in ecologically fragile areas affects the soil P cycling.
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