Cleaner tillage and irrigation options for food-water-energy-carbon synergism in wheat−maize cropping systems

The conventional wheat−maize systems in the North China Plain are energy and water intensive with high carbon emissions. It is imperative to find cleaner production technologies for sustainable food-water-energy-carbon synergism. Here, a three-year field experiment was performed to explore the effects of two tillage modes and four irrigation regimes during wheat season on crop yield, economic profile, water use efficiency, energy utilization, and carbon footprint in typical wheat–maize cropping systems in the North China Plain. Pre-sowing irrigation resulted in the lowest crop yield and benefit profile. Pre-sowing + anthesis irrigation decreased economic benefit and water use efficiency with higher carbon footprint. Pre-sowing + jointing + anthesis irrigation led to the greatest energy consumption and greenhouse gas emissions. However, pre-sowing + jointing irrigation increased yield by 2.3–8.7%, economic benefit by 4.0–11.1%, water use efficiency by 7.4–10.9%, and net energy by 6.5–12.0% but reduced carbon footprint by 9.8–14.3% compared to pre-sowing + anthesis irrigation and pre-sowing + jointing + anthesis irrigation. The corresponding metrics in rotary tillage improved by 9.6%, 13.9%, 7.0%, and 14.2%, respectively, relative to subsoiling, whereas carbon footprint decreased by 12.4–17.2%. Besides, rotary tillage coupled with additional jointing irrigation obtained the highest value based on a Z-score method, which was recommended as a cleaner management practice to improve benefit return and water use efficiency with lower energy consumption and carbon footprint. This work provides valuable insights into food-water-energy-carbon nexus for ensuring food security and achieving environmental sustainability in the wheat−maize cropping systems. [Display omitted] •Food-water-energy-carbon nexus were quantified in wheat-maize systems.•Fertilizer and electricity were major contributors to energy and carbon inputs.•Rotary tillage led to higher economic return and lower carbon footprint.•Jointing irrigation raised water and energy use while reducing carbon emission.•Rotary tillage + additional jointing irrigation obtained the highest Z-score value.