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Soil acidification induced variation of nitrifiers and denitrifiers modulates N2O emissions in paddy fields

硝化作用 矿化(土壤科学) 氮气循环 土壤水分 环境化学 土壤酸化 反硝化 土壤pH值 环境科学 自行车 水田 一氧化二氮 农学 化学 氮气 土壤科学 生物 历史 有机化学 考古
作者
Chaobiao Meng,Yating Xing,Yu Ding,Qichun Zhang,Hongjie Di,Caixian Tang,Jianming Xu,Yong Li
出处
期刊:Science of The Total Environment [Elsevier BV]
卷期号:882: 163623-163623 被引量:32
标识
DOI:10.1016/j.scitotenv.2023.163623
摘要

Soil acidification is a major land degradation process globally, and impacts soil nitrogen (N) transformation. However, it is still not well known how soil acidification affects net N mineralization and nitrification, especially N-cycling microbes and nitrous oxide (N2O) emissions. Hence, three soils characterized by different soil pH values (5.5, 6.3, and 7.7) were collected from the paddy fields, and experiments were conducted to evaluate the effect of soil acidification on net N mineralization and nitrification, and N2O emissions. Compared to those in the soils with pH 7.7 and 6.3, net N mineralization, net nitrification, and N2O emissions were decreased by 75-76 %, 89-91 %, and 19-48 %, respectively, in the soil with pH 5.5, while net N nitrification and N2O emissions decreased by 18 % in the soil with pH 6.3 when compared to those in the soil with pH 7.7. The significantly decreased net nitrification in the soils with pH 6.3 and 5.5 was mainly attributed to the limited N availability and abundance of nitrification-related microbes including ammonia-oxidizing bacteria and complete ammonia-oxidizers. The decrease in N2O emissions of soils with pH 6.3 and 5.5 had mainly resulted from decreasing nitrification and denitrification via suppressing microbes including nirS and fungal nirK and limiting N availability. Hence, this study provides new insights and improves our understanding of how soil acidification regulates N mineralization, nitrification, and N2O emissions in paddy soils, which gives guidance on developing N management strategies for sustainable production and N2O mitigation in acid soils.
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