Citation Information

  • Title : Trade-offs between high yields and greenhouse gas emissions in irrigation wheat cropland in China
  • Source : Biogeosciences
  • Publisher : European Geosciences Union
  • Volume : 11
  • Issue : 8
  • Pages : 2287-2294
  • Year : 2014
  • DOI : 10.5194/bg-11-22
  • ISBN : 10.5194/bg-11-22
  • Document Type : Journal Article
  • Language : English
  • Authors:
    • Zhang, F. S.
    • Chen, X. P.
    • Ma, W. Q.
    • Ye, Y. L.
    • Wu, L.
    • Cui, Z. L.
  • Climates: Temperate (C). Hot summer continental (Dsa, Dfa, Dwa).
  • Cropping Systems: Wheat.
  • Countries: China.

Summary

Although the concept of producing higher yields with reduced greenhouse gas (GHG) emissions is a goal that attracts increasing public and scientific attention, the tradeoff between high yields and GHG emissions in intensive agricultural production is not well understood. Here, we hypothesize that there exists a mechanistic relationship between wheat grain yield and GHG emission, and that could be transformed into better agronomic management. A total 33 sites of on-farm experiments were investigated to evaluate the relationship between grain yield and GHG emissions using two systems (conventional practice, CP; high-yielding systems, HY) of intensive winter wheat (Triticum aestivum L.) in China. Furthermore, we discussed the potential to produce higher yields with lower GHG emissions based on a survey of 2938 farmers. Compared to the CP system, grain yield was 39% (2352 kg ha(-1)) higher in the HY system, while GHG emissions increased by only 10%, and GHG emission intensity was reduced by 21%. The current intensive winter wheat system with farmers' practice had a median yield and maximum GHG emission rate of 6050 kg ha(-1) and 4783 kg CO2 eq ha(-1), respectively; however, this system can be transformed to maintain yields while reducing GHG emissions by 26% (6077 kg ha(-1), and 3555 kg CO2 eq ha(-1)). Further, the HY system was found to increase grain yield by 39% with a simultaneous reduction in GHG emissions by 18% (8429 kg ha(-1), and 3905 kg CO2 eq ha(-1), respectively). In the future, we suggest moving the trade-off relationships and calculations from grain yield and GHG emissions to new measures of productivity and environmental protection using innovative management technologies.

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