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Straw type and nitrogen-water management balance rice yield and methane emissions by regulating rhizosphere microenvironment
Field Crops Research ( IF 5.6 ) Pub Date : 2024-08-30 , DOI: 10.1016/j.fcr.2024.109555
Jun Wang , Fan Ye , Yangbeibei Ji , Zhou Zhou , Xingyu Zhang , Yuanqing Nie , Li Qin , Yang Zhou , Yule Wang , Weilu Wang , Jianchang Yang , Yun Chen , Lijun Liu
Field Crops Research ( IF 5.6 ) Pub Date : 2024-08-30 , DOI: 10.1016/j.fcr.2024.109555
Jun Wang , Fan Ye , Yangbeibei Ji , Zhou Zhou , Xingyu Zhang , Yuanqing Nie , Li Qin , Yang Zhou , Yule Wang , Weilu Wang , Jianchang Yang , Yun Chen , Lijun Liu
Straw incorporation improves soil fertility but also poses environmental challenges due to increasing methane (CH4 ) emissions in paddy fields. Whether nitrogen (N) and water management can balance rice yield and CH4 emissions under different crop straw incorporation is still not well-documented.
中文翻译:
秸秆类型和氮水管理通过调节根际微环境来平衡水稻产量和甲烷排放
秸秆掺入可以提高土壤肥力,但由于稻田甲烷 (CH4) 排放量增加,也带来了环境挑战。氮 (N) 和水管理是否可以在不同作物秸秆掺入下平衡水稻产量和 CH4 排放仍未得到充分记录。
更新日期:2024-08-30
中文翻译:
秸秆类型和氮水管理通过调节根际微环境来平衡水稻产量和甲烷排放
秸秆掺入可以提高土壤肥力,但由于稻田甲烷 (CH4) 排放量增加,也带来了环境挑战。氮 (N) 和水管理是否可以在不同作物秸秆掺入下平衡水稻产量和 CH4 排放仍未得到充分记录。