Potential crop yield gains under intensive soybean/maize intercropping in China

间作 单作 环境科学 公顷 农学 农业 产量(工程) 土壤肥力 作物产量 农林复合经营 土壤水分 生物 生态学 土壤科学 冶金 材料科学
作者
Guohui Chen,Fahui Jiang,Song Zhang,Qin Zhang,Guanjie Jiang,Bing-Ke GAO,Guojun Cao,Mahbub Ul Islam,Zhen Cao,Xiaomin Zhao
出处
期刊:Plant and Soil [Springer Science+Business Media]
卷期号:506 (1-2): 275-290 被引量:29
标识
DOI:10.1007/s11104-023-06423-7
摘要

Abstract Aims Intensive soybean/maize intercropping, a specific form of intercropping, holds promise in addressing the challenges posed by increasing food demands, diminishing cropland areas, deteriorating soil quality, and escalating environmental pollution. Methods To evaluate the potential of this system, we conducted a national meta-analysis, quantifying its absolute yield gain (net effect, NE) and land use efficacy (land equivalent ratio, LER). We further investigated the underlying mechanisms by examining local climate, soil properties, and field management practices and then developed random forest (RF) models to assess the system's potential, incorporating current information on natural resources. Results In China, an average NE of 3.2 ± 0.1 Mg ha −1 and LER of 1.4 ± 0.02 were achieved by intensive soybean/maize intercropping. The variance of NE was significantly influenced by air temperature (10%), soybean delay days (8%), and maize plant density (9%). Similarly, the LER was strongly driven by soybean delay days (14%), sunshine hours (11%), and maize density (10%). Notably, this intensive intercropping system efficiently utilizes available resources, such as light, temperature (heat), accumulated temperature, and soil nutrients, particularly in regions characterized by low soil fertility and limited agricultural resources. Ultimately, the RF model estimated substantial overyielding of 2 800 kg per hectare, representing approximately 1.4 times the current soybean and maize production under China's monoculture. Conclusions The implementation of intensive soybean/maize intercropping is highly beneficial throughout China, especially in areas with limited agricultural resources. The Yangtze River Basin, in potentially, emerges as the most suitable region for adopting this intensive intercropping practice.
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