Integrated rice-duck farming mitigates the global warming potential in rice season

旋转系统 环境科学 水田 农学 温室气体 农业 一氧化二氮 甲烷 沼气 稻草 全球变暖 生长季节 野外试验 稻草 氮气 气候变化 化学 生物 生态学 有机化学
作者
Guochun Xu,Xin Liu,Qiangsheng Wang,Xichen Yu,Yuhao Hang
出处
期刊:Science of The Total Environment [Elsevier BV]
卷期号:575: 58-66 被引量:76
标识
DOI:10.1016/j.scitotenv.2016.09.233
摘要

Integrated rice-duck farming (IRDF), as a mode of ecological agriculture, is an important way to realize sustainable development of agriculture. A 2-year split-plot field experiment was performed to evaluate the effects of IRDF on methane (CH4) and nitrous oxide (N2O) emissions and its ecological mechanism in rice season. This experiment was conducted with two rice farming systems (FS) of IRDF and conventional farming (CF) under four paddy-upland rotation systems (PUR): rice-fallow (RF), annual straw incorporating in rice–wheat rotation system (RWS), annual straw-based biogas residues incorporating in rice–wheat rotation system (RWB), and rice-green manure (RGM). During the rice growing seasons, IRDF decreased the CH4 emission by 8.80–16.68%, while increased the N2O emission by 4.23–15.20%, when compared to CF. Given that CH4 emission contributed to 85.83–96.22% of global warming potential (GWP), the strong reduction in CH4 emission led to a significantly lower GWP of IRDF as compared to CF. The reason for this trend was because IRDF has significant effect on dissolved oxygen (DO) and soil redox potential (Eh), which were two pivotal factors for CH4 and N2O emissions in this study. The IRDF not only mitigates the GWP, but also increases the rice yield by 0.76–2.43% compared to CF. Moreover, compared to RWS system, RF, RWB and RGM systems significantly reduced CH4 emission by 50.17%, 44.89% and 39.51%, respectively, while increased N2O emission by 10.58%, 14.60% and 23.90%, respectively. And RWS system had the highest GWP. These findings suggest that mitigating GWP and improving rice yield could be simultaneously achieved by the IRDF, and employing suitable PUR would benefit for relieving greenhouse effect.

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