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Metagenomics reveals N-induced changes in carbon-degrading genes and microbial communities of tea (Camellia sinensis L.) plantation soil under long-term fertilization

Xiangde Yang, Kang Ni, Yuanzhi Shi, Xiaoyun Yi, Lingfei Ji, Sirou Wei, Yanyan Jiang, Yongli Zhang, Yanjiang Cai, Qingxu Ma, Sheng Tang, Lifeng Ma, Jianyun Ruan

2022The Science of The Total Environment82 citationsDOI

Topics & Concepts

Soil carbonHuman fertilizationMicrobial population biologyLitterMetagenomicsRelative species abundanceBiologyEcosystemCamellia sinensisBotanyAbundance (ecology)ChemistrySoil waterEcologyAgronomyBacteriaGeneBiochemistryGeneticsSoil Carbon and Nitrogen DynamicsAgriculture, Soil, Plant SciencePlant nutrient uptake and metabolism
Metagenomics reveals N-induced changes in carbon-degrading genes and microbial communities of tea (Camellia sinensis L.) plantation soil under long-term fertilization | Litcius