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Integrating crop redistribution and improved management towards meeting China's food demand with lower environmental costs.

Zihan WangYulong YinYingcheng WangXingshuai TianHao YingQingsong ZhangYanfang XueOene OenemaShengli LiFeng ZhouMingxi DuLin MaWilliam David BatchelorFusuo ZhangZhenling Cui
Published in: Nature food (2022)
China feeds 19.1% of the world's population with 8.6% of the arable land. Here we propose an integrated approach combining crop redistribution and improved management to meet China's food demand in 2030. We simulated the food demand, estimated the national crop production through the productivity of the top 10% of producers in each county, and optimized the spatial distribution of 11 groups of crop types among counties using the data of the top producers. Integrating crop redistribution and improved management increased crop production and can meet the food demand in 2030, while the agricultural inputs (N and P fertilizers and irrigation water) and environmental impacts (reactive N loss and greenhouse gas emissions) were reduced. Although there are significant socio-economic and cultural barriers to implementing such redistribution, these results suggest that integrated measures can achieve food security and decrease negative environmental impacts. County-specific policies and advisory support will be needed to achieve the promises of combining optimization strategies.
Keyphrases
  • climate change
  • human health
  • risk assessment
  • quality improvement
  • life cycle
  • deep learning