Producing the food required to feed the growing global population will inevitably put pressure on the environment and requires sustainable management of agroecosystems. The management strategies should be context-specific, and will require consideration of different stakeholders' interests, and of the local soil and climatic conditions. We developed a framework to analyse nitrogen (N) management options with the objective of increasing crop production while reducing CO2 and nitrous oxide (N2O) emissions from soil, and applied this framework to Australian rainfed wheat systems using a systems modelling approach. The results indicated that modified N management strategies in Australian rainfed wheat systems could increase average grain yield by up to 76% (from 1.7 to 3.0 Mg ha(-1)) while substantially reducing net soil and N2O emissions (expressed in CO2 equivalents, CO2-eq), compared with current farming practice. Meta-modelling of the simulation results from 613 sites across the Australian wheat growing regions indicated that site-specific best N management aimed at increasing yield and reducing net soil CO2-eq emissions significantly correlated with water availability, temperature, and antecedent soil carbon content. The results emphasise the opportunity for well-managed intensification to simultaneously increase yield and reduce soil CO2 and N2O emissions in Australian rainfed cropping regions. The 'win-win' N management recommendations should, and can be specified according to local climate and soil conditions.

• 出版日期2017-1-15
• 单位CSIRO; 中国科学院大气物理研究所