Substrate-driven microbial response: A novel mechanism contributes significantly to temperature sensitivity of N2O emissions in upland arable soil
文献类型: 外文期刊
第一作者: Song, Alin
作者: Song, Alin;Wang, Boren;Wen, Shilin;Li, Dongchu;Fan, Fenliang;Liang, Yongchao;Zeng, Xibai;Yin, Huaqun;Xu, Duanyang
作者机构:
关键词: Nitrous oxide; Temperature sensitivity; Microbial response; Nitrification; Denitrification; Anaerobic-zone development
期刊名称:SOIL BIOLOGY & BIOCHEMISTRY ( 影响因子:7.609; 五年影响因子:8.312 )
ISSN: 0038-0717
年卷期: 2018 年 118 卷
页码:
收录情况: SCI
摘要: The mechanism by which temperature sensitivity (TS) of soil N2O emissions is increased by agricultural management with application of nitrogen fertilizer (AMN) is unclear. We hypothesized that a higher TS of N2O emission induced by AMN is the result of the faster growth of specific microorganisms in response to faster nitrogen (N) mineralization at higher temperatures. To test this hypothesis, we used reciprocal transplants to separate the contributions of abiotic and microbial components to the TS of N2O emissions in an arable soil receiving organic and inorganic fertilizers and its neighboring natural grassland soil treated with two levels of N. N2O sources were separated with acetylene, and the abundances of N2O-producing microbes were assessed by quantifying the copy numbers of the associated functional genes. Compared with natural soil, only changes in abiotic properties increased the Q(10) (the factor by which the rate increases with a 10 degrees C rise in temperature) by 105.7%, while changes in both abiotic and the microbiome increased the Q(10) by 225.2%. Higher TS of N2O emission in the arable soil induced by a microbiome shift was associated with faster N mineralization, increased proportion of nitrification-N2O emission, and faster growth of ammonia-oxidizing bacteria at higher temperatures. Addition of ammonium nitrate further enhanced the TS of N2O emissions, the proportion of nitrification N2O emission, and the increased extent of the growth of ammonia-oxidizing bacteria in the soil with AMN compared to the natural grassland soil. Substrate-driven growth of ammonia-oxidizing bacteria with higher substrate preference contributes significantly to the higher TS of N2O emission caused by AMN.
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