长江流域田间配置对玉米-大豆带状复合种植群体产量和气候资源利用效率的影响  被引量：1

作　　者：刘席文 马淑梅[2] 余常兵[3] 王淑彬[4] 魏亚凤[5] 王小春[1] 杨文钰[1] LIU Xiwen;MA Shumei;YU Changbing;WANG Shubin;WEI Yafeng;WANG Xiaochun;YANG Wenyu(College of Agronomy,Sichuan Agricultural University/Key Laboratory of Crop Ecophysiology and Farming System in Southwest China,Ministry of Agriculture/Sichuan Engineering Research Center for Crop Strip Intercropping System,Chengdu 611130,China;Hunan Crop Research Institute,Changsha 410125,China;Institute of Oil Crops,Chinese Academy of Agricultural Sciences,Wuhan 430062,China;College of Agriculture,Jiangxi Agricultural University,Nanchang 330045,China;Jiangsu Institute of Agricultural Sciences along the Yangtze River,Nantong 226541,Jiangsu,China)

机构地区：[1]四川农业大学农学院/农业农村部西南作物生理生态与耕作重点实验室/四川省作物带状复合种植工程技术研究中心,成都611130 [2]湖南省作物研究所,长沙410125 [3]中国农业科学院油料作物研究所,武汉430062 [4]江西农业大学农学院,南昌330045 [5]江苏沿江地区农业科学研究所,江苏南通226541

出　　处：《四川农业大学学报》2024年第4期724-734,共11页Journal of Sichuan Agricultural University

基　　金：国家重点研究计划项目(2016YFD0300209)。

摘　　要：【目的】探究长江流域各地区群体产量效益与光、温、水资源利用效率最优的生产单元和行比配置。【方法】在长江流域粮食主产区,以当地主栽的带状复合种植模式为主,四川与湖北地区采用春玉米夏大豆带状套作模式,湖南与江西地区采用春玉米春大豆带状间作模式,江苏地区采用鲜食玉米鲜食大豆带状套作模式,以单作玉米(MM)与单作大豆(SS)为对照,设置5个不同的玉米-大豆带状间套作田间配置:生产单元2 m行比2∶2(T1)、生产单元2.4 m行比2∶3 (T2)、生产单元2.4 m行比2∶4 (T3)、生产单元2.8 m行比2∶3 (T4)、生产单元2.8 m行比2∶4 (T5)。【结果】3年试验结果表明各地区玉米产量总体呈现随生产单元宽度增加下降的趋势,大豆产量呈现为相反趋势,群体产量呈现随生产单元宽度增加下降的趋势。不同区域玉米-大豆带状复合种植均表现出明显的间套作优势,土地当量比在不同地区之间尤以长江上游的四川、湖北生态区表现突出,最高达1.64。长江上中下游各田间配置群体产量效益与光温水资源利用均大幅高于单作大豆,在生产单元2 m,行比2∶2的田间配置下相较单作玉米,长江上游四川与湖北试验点平均经济效益分别提高了39.20%、39.34%,光温水生产效率分别提高了31.48%、19.42%、13.85%(四川)和56.90%、41.45%、42.89%(湖北),长江下游江苏试验点3年平均经济效益提高22.22%,光温水生产效率分别提高22.09%、13.16%、14.41%。长江中游湖南试验点在生产单元2.4 m,行比2∶3的田间配置下3年平均经济效益与光温水生产效率较单作玉米分别提高13.07%、13.86%、7.77%和6.45%,长江中游江西试验点在生产单元2.4 m,行比2∶4的田间配置下3年平均经济效益与光温水生产效率较单作玉米无显著差异。【结论】综合3年群体产量效益与资源利用率及主成分分析表明,长江上游(四川、湖北)与长江下游(江苏【Objective】The objective of this study was to explore the optimal production unit and row ra-tio allocation for maximizing population yield benefit and the utilization efficiency of light,temperature,and water resources in various regions of the Yangtze River Basin.【Method】Conducted in the main grain-producing areas of the Yangtze River Basin,this study primarily focused on the local main banded composite planting mode.The Sichuan and Hubei regions adopted a banded intercropping mode of spring maize and summer soybean,the Hunan and Jiangxi regions adopted a banded intercropping mode of spring maize and spring soybean,and the Jiangsu region adopted a banded intercropping mode of sweet corn and soybean.Monoculture maize(MM)and monoculture soybean(SS)served as controls.Five dif-ferent maize-soybean strip intercropping field configurations were established:production unit 2 m with line ratio 2∶2(T1),2.4 m with line ratio 2∶3(T2),2.4 m with line ratio 2∶4(T3),2.8 m with line ratio 2∶3(T4),and 2.8 m with line ratio 2∶4(T5).【Result】The three-year experimental results indicated that maize yield in each region generally showed a downward trend with the increase in the width of the production unit,while soybean yield showed an opposite trend.The population yield also showed a down-ward trend with the increase in the width of the production unit.Maize-soybean strip intercropping in dif-ferent regions exhibited clear intercropping advantages,with the land equivalent ratio being particularly outstanding in the Sichuan and Hubei ecological areas of the upper Yangtze River,reaching a maximum of 1.64.The yield benefit and utilization of light,temperature,and water resources for each field configu-ration group in the upper,middle,and lower reaches of the Yangtze River were significantly higher than those of monoculture soybean.Under the 2 m production unit and 2∶2 row ratio field configuration,com-pared with monoculture maize,the average economic benefits of the Sichuan and Hubei experimental sites in the

关 键 词：玉米-大豆带状间套作 田间配置 群体产量 气候资源利用效率 

分 类 号：S513[农业科学—作物学] S548S5-33