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Elevated atmospheric CO2 and warming enhance the acquisition of soil-derived nitrogen rather than urea fertilizer by rice cultivars

Jinyuan Zhang, Yansheng Li, Zhenhua Yu, Jonathan M. Adams, Caixian Tang, Guanghua Wang, Xiaobing Liu, Junjie Liu, Ashley E. Franks, Judong Liu, Shaoqing Zhang, Jian Jin

2022Agricultural and Forest Meteorology22 citationsDOI

Topics & Concepts

AgronomyCultivarFertilizerNitrogenEnvironmental scienceUreaYield (engineering)Plant physiologyCropSoil waterOryza sativaCrop yieldChemistryBiologyBotanyMaterials scienceSoil scienceGeneBiochemistryOrganic chemistryMetallurgySoil Carbon and Nitrogen DynamicsPlant responses to elevated CO2Climate change impacts on agriculture
Elevated atmospheric CO2 and warming enhance the acquisition of soil-derived nitrogen rather than urea fertilizer by rice cultivars | Litcius