中文摘要：

Chinese milk vetch（CMV） and rice straw（RS）were incorporated into soil to substitute for synthetic N fertilizers and to maintain soil fertility. However, little is known about the integrated impacts of CMV and RS incorporation on CH4 and N2O emissions in double-rice cropping systems in southern China. A field experiment was conducted to estimate the integrated impacts of CMV and RS incorporation in the early-and late-rice seasons on CH4 and N2O emissions. All treatments received uniform N inputs, 6%–37% of which was replaced by CMV and RS crop residue. CMV and/or RS incorporation produced equivalent or slightly more grain yield, while reducing N2 O emissions by 3%–43%. However, both CMV and RS incorporation increased CH4 emissions. Annual CH4 emissions ranged from 321 to 614 kg·hm–2from CMV and RS amendment treatments, which were 1.5–2.9 times higher than that from synthetic N. Compared with single synthetic N fertilizer, incorporation of CMV and/or RS increased GWP and yield-scaled GWP by 45%–164% and45%–153%, respectively. Our results demonstrate CMV and RS amendments replacing N fertilizer, maintained stable yield, mitigated N2O emission, but enhanced CH4 emission. Further study is needed on crop residue management in double-cropping rice systems.

英文摘要：

Chinese milk vetch (CMV) and rice straw (RS) were incorporated into soil to substitute for synthetic N fertilizers and to maintain soil fertility. However, little is known about the integrated impacts of CMV and RS incorporation on CH4 and N2O emissions in double-rice cropping systems in southern China. A field experiment was conducted to estimate the integrated impacts of CMV and RS incorporation in the early- and late-rice seasons on CH4 and N2O emissions. All treatments received uniform N inputs, 6%-37% of which was replaced by CMVand RS crop residue. CMV and/or RS incorporation produced equivalent or slightly more grain yield, while reducing N2O emissions by 3%-43%. However, both CMV and RS incorporation increased CH4 emissions. Annual CH4 emissions ranged from 321 to 614 kg.hm(-2) from CMV and RS amendment treatments, which were 1.5-2.9 times higher than that from synthetic N. Compared with single synthetic N fertilizer, incorporation of CMV and/or RS increased GWP and yield-scaled GWP by 45%-164% and 45%-153%, respectively. Our results demonstrate CMV and RS amendments replacing N fertilizer, maintained stable yield, mitigated N2O emission, but enhanced CH4 emission. Further study is needed on crop residue management in double-cropping rice systems.