Novel phosphate-solubilizing bacteria enhance soil phosphorus cycling following ecological restoration of land degraded by mining

Liang, Jie‐Liang; Liu, Jun; Jia, Pu; Yang, Taotao; Zeng, Qingwei; Zhang, Sheng‐chang; Liao, Bin; Shu, Wensheng; Li, Jintian

doi:10.1038/s41396-020-0632-4

articleThe ISME JournalMar 23, 2020HYBRID OA

Novel phosphate-solubilizing bacteria enhance soil phosphorus cycling following ecological restoration of land degraded by mining

JLJie‐Liang Liang JLJun Liu PJPu Jia TYTaotao Yang QZQingwei Zeng

South China Normal University · Sun Yat-sen University

PubMed

Indexed incrossrefdoajpubmed

Abstract

Little is known about the changes in soil microbial phosphorus (P) cycling potential during terrestrial ecosystem management and restoration, although much research aims to enhance soil P cycling. Here, we used metagenomic sequencing to analyse 18 soil microbial communities at a P-deficient degraded mine site in southern China where ecological restoration was implemented using two soil ameliorants and eight plant species. Our results show that the relative abundances of key genes governing soil microbial P-cycling potential were higher at the restored site than at the unrestored site, indicating enhancement of soil P cycling following restoration. The gcd gene, encoding an enzyme that mediates inorganic P…

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498

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Topics & keywords

Topics

Keywords

Cycling
Biology
Metagenomics
Soil microbiology
Phosphorus
Ecosystem
Microbial population biology
Phosphate solubilizing bacteria

UN Sustainable Development Goals

Life in Land

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