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Optimizing soil microbial functions under long-term straw return enhances nutrient acquisition, thereby improving nutrient availability and crop productivity in tobacco–rice rotation systems of southern China

Bianhong Zhang, R.F. Li, Zhicheng Chen, Chunli Zeng, Songquan Liao, Yazhou Liu, Ting Cheng, Yifei Liu, Tang Lina, Wenxiong Lin, Jinwen Huang

2025Agriculture Ecosystems & Environment7 citationsDOI

Topics & Concepts

RhizosphereAgronomyNutrientStrawEnvironmental scienceSoil organic matterSoil carbonPhosphorusCrop residueOrganic matterCrop rotationSoil fertilityCropGrowing seasonSoil waterNitrogenSoil respirationNutrient cycleChemistrySoil pHMicrobial population biologyNitrogen cycleProductivityCarbon fibersBulk soilBiologyNutrient managementBiomass (ecology)Soil Carbon and Nitrogen DynamicsPlant-Microbe Interactions and ImmunityPlant nutrient uptake and metabolism
Optimizing soil microbial functions under long-term straw return enhances nutrient acquisition, thereby improving nutrient availability and crop productivity in tobacco–rice rotation systems of southern China | Litcius