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Inhibition of methane emissions from Chinese rice fields by nitrogen deposition based on the DNDC model

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  • Wang, Zhen
  • Zhang, Xiuying
  • Liu, Lei
  • Wang, Shanqian
  • Zhao, Limin
  • Wu, Xiaodi
  • Zhang, Wuting
  • Huang, Xianjin

Abstract

Nitrogen (N) deposition has rapidly increased in China, and its impact on ecosystems has received extensive attention. In the present study, the net effect of increased N deposition on methane (CH4) emissions from rice fields across China was evaluated using the validated DNDC (DeNitrification-DeComposition) model. The results showed that N deposition produces a slight increase in rice biomass and weakly inhibits CH4 emissions, under the current N fertilizer application practices (excessive N fertilizer) in paddy fields. Nationally, N deposition reduces total CH4 emissions by 0.04 Tg yr−1. CH4 emissions are reduced by 1.38 and 1.69 kg CH4 ha−1 yr−1 (accounting for 0.6% and 0.2% of the average CH4 emissions) in a mid-season drainage water regime for single- and double-cropping rice, respectively. N deposition showed significantly influence on CH4 emission reduction (R = 0.86 and 0.74 for single- and double-cropping rice, respectively, p < 0.01). The largest reduction in the CH4 flux of single-cropping rice was mainly concentrated in AEZ (agroecological zone) 6A and AEZ 7, while the largest reduction for double-cropping rice was mainly distributed in the Poyang Lake Basin and Dongting Lake Basin. It should be noticed that the net response of CH4 emissions to N deposition (−0.07 and − 0.14 kg CH4 ha−1 kg−1 N for single- and double-cropping rice, respectively) was greater than that to N fertilizers (−0.05 kg CH4 ha−1 kg−1 N) under the same water management practices, which mainly because the nitrate nitrogen in N deposition increases the soil redox potential, thus inhibiting the production of CH4. These results provide a new understanding of the ecological effect of N deposition on agricultural ecosystems.

Suggested Citation

  • Wang, Zhen & Zhang, Xiuying & Liu, Lei & Wang, Shanqian & Zhao, Limin & Wu, Xiaodi & Zhang, Wuting & Huang, Xianjin, 2020. "Inhibition of methane emissions from Chinese rice fields by nitrogen deposition based on the DNDC model," Agricultural Systems, Elsevier, vol. 184(C).
    • Handle: RePEc:eee:agisys:v:184:y:2020:i:c:s0308521x20307800
    DOI: 10.1016/j.agsy.2020.102919
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    1. Xuejun Liu & Ying Zhang & Wenxuan Han & Aohan Tang & Jianlin Shen & Zhenling Cui & Peter Vitousek & Jan Willem Erisman & Keith Goulding & Peter Christie & Andreas Fangmeier & Fusuo Zhang, 2013. "Enhanced nitrogen deposition over China," Nature, Nature, vol. 494(7438), pages 459-462, February.
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    1. Fu, Zhaopeng & Zhang, Ke & Zhang, Jiayi & Zhang, Yu & Cao, Qiang & Tian, Yongchao & Zhu, Yan & Cao, Weixing & Liu, Xiaojun, 2023. "Optimizing nitrogen application and sowing date can improve environmental sustainability and economic benefit in wheat-rice rotation," Agricultural Systems, Elsevier, vol. 204(C).
    2. Nittaya Cha-un & Amnat Chidthaisong & Kazuyuki Yagi & Sirintornthep Towprayoon, 2021. "Simulating the Long-Term Effects of Fertilizer and Water Management on Grain Yield and Methane Emissions of Paddy Rice in Thailand," Agriculture, MDPI, vol. 11(11), pages 1-22, November.

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