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Mitigation of methane emission in a rice paddy field amended with biochar-based slow-release fertilizer

肥料 生物炭 水田 修正案 农学 环境科学 温室气体 有机肥料 野外试验 化学 甲烷 氮气 生态学 热解 政治学 法学 生物 有机化学
作者
Da Dong,Jiong Li,Shanshan Ying,Jiasen Wu,Xingguo Han,Yuanxin Teng,Miaorong Zhou,Yi Ren,Peikun Jiang
出处
期刊:Science of The Total Environment [Elsevier BV]
卷期号:792: 148460-148460 被引量:82
标识
DOI:10.1016/j.scitotenv.2021.148460
摘要

Despite improving soil quality and reducing nitrogen (N) loss in paddy soil, replacing chemical fertilizer with organic fertilizer would significantly accelerate greenhouse gas emission in terms of methane (CH4). The application of slow-release fertilizer has been proposed an effective approach to control CH4 emissions, in addition to reducing N loss. Yet, the understanding of CH4 emissions from paddy fields with the additions of different fertilizers is still less known. Therefore, the effects of different fertilizer treatments, including chemical fertilizer treatment (CF), mixed chemical and organic fertilizer treatment (OF), biochar-based slow-release fertilizer treatment (SF), and no fertilizer control treatment (CK) on CH4 emissions and methanogenic community structure in paddy soils were investigated through a field experiment. Results showed that slow-release fertilizer addition significantly decreased CH4 emissions by 33.4%, during the whole rice growing season compared to those in OF. The cumulative CH4 emissions were in a significantly positive relation to soil NH4+-N. Slow-release fertilizer amendment decreased the relative abundances of Methanosarcina and Methanoregula and increased the relative abundances of hydrogenotrophic Methanocella and Rice Cluster I. Reduced CH4 emissions with slow-release fertilizer amendment might be mainly attributed to the different forms of N in the fertilizer and available potassium (K) in the paddy soil. Our findings produce novel insights into the application of slow-release fertilizer in controlling CH4 emissions from rice fields.
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