Potential of paddy drainage optimization to water and food security in China

• Published in: Resources, conservation and recycling Vol. 171; p. 105624
• Main Authors: Liu, Lianhua, Ouyang, Wei, Liu, Hongbin, Zhu, Jianqiang, Ma, Youhua, Wu, Qixia, Chen, Jingrui, Zhang, Dan
• Format: Journal Article
• Language: English
• Published: Elsevier B.V 01.08.2021
• Subjects: Agricultural water use efficiency; China; Diffuse pollution; Drainage optimization; Paddy fields; Diffuse pollution; Paddy fields; Drainage optimization; China; Agricultural water use efficiency
• ISSN: 0921-3449; 1879-0658
• DOI: 10.1016/j.resconrec.2021.105624

•Characteristics of water and fertilizer use, and nitrogen loss of paddy fields were investigated.•Optimal drainage management was determined considering rice growth and precipitation conditions.•Drainage optimization ensured rice yields and mitigated nitrogen runoff loss. Rice production not only consumes large amounts of irrigation water and fertilizer, but also poses a high risk of water pollution by delivering nitrogen (N) through surface runoff. To ensure sustainable rice production, many water-saving irrigation managements have been proposed and implemented, but drainage water managements receive far less attention and need to be further explored. This study aimed to determine the paddy drainage optimization management and assess its potential to water and food security in China via different scale methods (from pot and field experiments to national assessment). The national investigation of water and N fertilizer use in paddy fields implied that diffuse N pollution was expected to continue increasing, especially in the Yangtze river basin. Two-years field experiments at typical sites identified that the tillering and jointing–booting stages were critical risk stages for N runoff loss, and pot experiments on the critical stages were conducted to determine the optimal drainage water level without yield reduction. Then, the applicability of paddy drainage optimization was verified and evaluated by drainage optimization field experiment and precipitation characteristics analysis. Finally, the potential of drainage optimization on mitigating N runoff loss was estimated by scenario analysis at the national scale. After implementing paddy drainage optimization in field experiments, surface runoff and nitrogen runoff loss decreased by 27.97–78.94% and 35.17–67.95%, respectively, without affecting rice yield. By full implementation of the optimal drainage and fertilization management, N runoff loss could be reduced by 0.19 Tg yr−1 at the national scale. These results suggest that paddy drainage optimization is an agro-ecosystems friendly water management for sustainable rice production, and has notable potential to ensure water and food security in China. [Display omitted]