杏树‖大豆对大豆生长发育及产量的影响OA
Effects of Apricot Trees Intercropping with Soybeans on Crop Growth and Crop Yield
我国耕地资源有限,发展高效可持续的农林复合系统对保障粮食安全与农业生态安全具有重要意义.本研究以新疆杏树-大豆间作系统为对象,通过田间试验比较了单作大豆(MS)与杏树‖大豆(IS)模式下作物的干物质积累、光合特性及产量.结果表明:间作大豆各生育时期干物质积累量较单作降低 30%~70%,生殖生长期(R3~R7)干物质向繁殖器官分配比例较高,生殖器官分配比率(RVR)高于单作,茎重比(SMR)亦高于单作;光合指标在生育前期差异不显著,至开始成熟期(R7),间作大豆净光合速率与 SPAD 值显著低于单作,胞间 CO2 浓度显著升高,结合气孔导度变化分析,R3 时期气孔导度是主要限制因素,R7 时期则转为非气孔限制,即光合活性下降所致;间作大豆单株荚数、粒数、百粒重及产量均显著低于单作,但其土地当量比(LER)达 1.496,表明杏树-大豆间作系统整体具有产量优势.综上所述,杏树‖大豆模式虽抑制了间作大豆单株生长与光合效率,但通过资源互补与空间配置,实现了系统总生产力的提升,为干旱区农林复合模式推广提供了理论依据.
China faces limited arable land resources,and developing efficient and sustainable agroforestry systems is crucial for ensuring food security and agricultural ecological sustainability.This study focused on an apricot-soybean intercropping system under drip irrigation in Xinjiang,comparing crop dry matter accumulation,photosynthetic charac-teristics,and yield between monocropped soybean(MS)and apricot/soybean intercropping(IS).The results showed that dry matter accumulation in intercropped soybean was 30%~70%lower than that in monocropped soybean across growth stages,but a higher proportion was allocated to reproductive organs during the R3~R7 stages,with higher reproductive organ allocation ratio(RVR)and generally higher stem mass ratio(SMR)under intercropping.Photosynthetic parameters did not differ significantly in the early growth stages;by the R7 stage,net photosynthetic rate and SPAD value were significantly lower in intercropped soybean,while intercellular CO2 concentration was significantly higher.Combined with stomatal conductance analysis,stomatal limitation dominated at the R3 stage,while non-stomatal limitation—namely re-duced photosynthetic activity—dominated at the R7 stage.Yield components such as pod number per plant,grain number per plant,100-grain weight,and yield were significantly lower in intercropped soybean.However,the land e-quivalent ratio(LER)reached 1.496,indicating overall yield advantage of the intercropping system.In conclusion,al-though the apricot-soybean intercropping model inhibits individual soybean growth and photosynthetic efficiency,it en-hances total system productivity through resource complementarity and spatial configuration,providing a theoretical basis for promoting agroforestry models in arid regions.
刘霏曈;李哲;尉雯雯;张伟
石河子大学农学院 新疆,石河子 832000石河子大学农学院 新疆,石河子 832000石河子大学农学院 新疆,石河子 832000石河子大学农学院 新疆,石河子 832000
农业科技
农林复合大豆干物质光合特性产量
agroforestrysoybeandry matterphotosynthetic characteristicsyield
《现代农业研究》 2026 (4)
49-55,7
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