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Impact of alternative cropping systems on groundwater use and grain yields in the North China Plain Region

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Listed:
  • Xiao, Dengpan
  • Shen, Yanjun
  • Qi, Yongqing
  • Moiwo, Juana P.
  • Min, Leilei
  • Zhang, Yucui
  • Guo, Ying
  • Pei, Hongwei

Abstract

Excessive use of groundwater in irrigation (mainly for production of winter wheat) in the North China Plain (NCP) has resulted in markedly decreased groundwater levels. Alternative cropping systems may have potential to reduce groundwater use in the region. The APSIM (Agricultural Production System Simulator) farming systems model was used to simulate long-term (1981–2015) water use, net overdraft and crop yield for eight cropping systems. The wheat-maize double cropping system (WW–SM) in the study area resulted in overdrafts of 258mmyr−1, about 100mmyr−1 more than estimated groundwater recharge. Although six of eight simulated systems reduced overdrafts below the estimated recharge value of 150mmyr−1, a triple-cropping system consisting of winter wheat/summer maize followed by fallow and early maize (WW–SM/F–EM) in two years appears to be the most viable alternative. Annual grain yield under the triple cropping system was only 13% less than that under the current WW–SM double cropping system. Groundwater overdrafts under triple-cropping system were about equal to lateral recharge from the mountains, water brought in via the South-North Water Transfer (SNWT) project and water from other water-saving measures (e.g. plastic film mulching) in the region.

Suggested Citation

  • Xiao, Dengpan & Shen, Yanjun & Qi, Yongqing & Moiwo, Juana P. & Min, Leilei & Zhang, Yucui & Guo, Ying & Pei, Hongwei, 2017. "Impact of alternative cropping systems on groundwater use and grain yields in the North China Plain Region," Agricultural Systems, Elsevier, vol. 153(C), pages 109-117.
    • Handle: RePEc:eee:agisys:v:153:y:2017:i:c:p:109-117
    DOI: 10.1016/j.agsy.2017.01.018
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    3. Yang, Xiaolin & Jin, Xinnan & Chu, Qingquan & Pacenka, Steven & Steenhuis, Tammo S., 2021. "Impact of climate variation from 1965 to 2016 on cotton water requirements in North China Plain," Agricultural Water Management, Elsevier, vol. 243(C).
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    14. Liang, Hao & Qin, Wei & Hu, Kelin & Tao, Hongbing & Li, Baoguo, 2019. "Modelling groundwater level dynamics under different cropping systems and developing groundwater neutral systems in the North China Plain," Agricultural Water Management, Elsevier, vol. 213(C), pages 732-741.
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    16. Zhong, Honglin & Sun, Laixiang & Fischer, Günther & Tian, Zhan & Liang, Zhuoran, 2019. "Optimizing regional cropping systems with a dynamic adaptation strategy for water sustainable agriculture in the Hebei Plain," Agricultural Systems, Elsevier, vol. 173(C), pages 94-106.
    17. Xu, Ruixuan & Zhao, Haiming & Liu, Guibo & Li, Yuan & Li, Shoujiao & Zhang, Yingjun & Liu, Nan & Ma, Lei, 2022. "Alfalfa and silage maize intercropping provides comparable productivity and profitability with lower environmental impacts than wheat–maize system in the North China plain," Agricultural Systems, Elsevier, vol. 195(C).
    18. Sun, Shuang & Yang, Xiaoguang & Lin, Xiaomao & Sassenrath, Gretchen F. & Li, Kenan, 2018. "Climate-smart management can further improve winter wheat yield in China," Agricultural Systems, Elsevier, vol. 162(C), pages 10-18.

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