Combined Mineral and Organic Fertilizer Application Enhances Soil Organic Carbon and Maize Yield in Semi-Arid Kenya: A DNDC Model-Based Prediction
Stephen Okoth Aluoch(Chinese Academy of Sciences), Chunsheng Hu(Chinese Academy of Sciences), Fiston Bizimana(Center for Agricultural Resources Research), Xiaoxin Li(Chinese Academy of Sciences), Zhuoting Li(Nanning Normal University), Peter Semba Mosongo(Chinese Academy of Sciences), Geofrey Waweru(Jomo Kenyatta University of Agriculture and Technology), David Mwehia Mburu(Jomo Kenyatta University of Agriculture and Technology), Wenxu Dong(Chinese Academy of Sciences), Md Raseduzzaman(Chinese Academy of Sciences)
Cited by 6
Related Papers
Does intercropping enhance yield stability in arable crop production? A meta-analysis
|European Journal of Agronomy|2017|437
Visual assessment of soil structure: Evaluation of methodologies on sites in Canada, China and Germany
|Soil and Tillage Research|2009|106
Electron shuttle potential of biochar promotes dissimilatory nitrate reduction to ammonium in paddy soil
|Soil Biology and Biochemistry|2022|81
Soil microbes, carbon, nitrogen, and the carbon to nitrogen ratio indicate priming effects across terrestrial ecosystems
|Journal of Soils and Sediments|2023|28
Microbial mechanisms regulate soil organic carbon mineralization under carbon with varying levels of nitrogen addition in the above-treeline ecosystem
|The Science of The Total Environment|2024|25