水氮周年优化对豫北灌区小麦玉米轮作系统产量和氮迁移的影响OA
Effects of Annual Water and Nitrogen Optimization on Yield and Nitrogen Migration of Wheat-Maize Rotation System in Irrigation Area of Northern Henan
[目的]针对豫北灌溉区过度施氮和水资源匮乏问题,探究水氮周年优化(水氮减量 25%)对小麦玉米轮作系统作物生长与氮素流失的调控效应,以期为豫北灌区麦玉轮作系统绿色生产提供理论依据与技术支撑.[方法]在河南省安阳市滑县进行了 5 年(2018-2023 年)的田间试验,设置 3 个水氮耦合处理:当地传统水氮处理(TP,年施氮 552.0 kg·hm-2,配合灌水 270 mm)、氮肥优化(OF,年施氮 414.0 kg·hm-2,配合灌水 270 mm)、水氮优化(OWF,年施氮 414.0 kg·hm-2,配合灌水 202.5 mm).研究其对作物产量、生物量、籽粒氮积累量、地上部氮积累量、氮收获指数、氮肥偏生产力、氮素吸收效率、土壤水分和硝态氮含量、氮淋溶和径流量以及周年氮平衡的影响.[结果]OWF 处理相较于 TP和OF处理对小麦和玉米的年平均产量、生物量、籽粒氮积累量和地上部氮积累量没有显著影响,但分别显著提高氮肥偏生产力 31.4%和 0.9%,提高氮素吸收效率 28.5%和 0.1%.产量、生物量、籽粒氮积累量与地上部氮积累量之间存在显著正相关关系.水氮周年优化显著降低了不同生育时期土壤含水量和NO3--N含量,OWF处理相较于TP和OF处理土壤含水量分别显著降低了 6.6%和 9.6%,NO3--N含量分别显著降低了 46.1%和 37.9%.小麦季和玉米季分别占年平均氮淋溶量的 2.9%和 97.1%,TP、OF和OWF处理的年平均氮淋溶量为 52.9、45.8 和 39.6 kg·hm-2,OWF处理相较于TP和OF处理年平均 NO3--N淋溶量分别显著降低了 25.2%和 13.5%、径流量分别显著降低了 32.0%和 18.1%.豫北灌溉区年平均氮盈余量为 60.6 kg·hm-2,OWF 处理相较于 TP处理的氮盈余量降低了 81.9%,相较于 OF处理提高了 20.8%.[结论]水氮周年优化可以保证小麦玉米轮作系统作物产量稳定的同时,促进水氮资源有效利用,显著降低轮作系统 0-100 cm土层的硝态氮含量,减少了 NO3--N 的流失,促进了土壤氮素平衡,减少豫北灌溉区面源污染风险,是豫北灌溉区小麦玉米轮作制度绿色高效的水氮管理措施.
[Objective]To address the issues of excessive nitrogen application and water scarcity in the irrigation area of northern Henan,the aim of this study was to explore the regulating effect of annual water and nitrogen optimization(reducing water and nitrogen by 25%)on crop growth and nitrogen loss in the wheat-maize rotation system,so as to provide a theoretical basis and technical support for the sustainable agricultural practices in the wheat-maize rotation system of this region.[Method]A five-year(2018-2023)field experiment was conducted in Huaxian County,Anyang City of Henan province,and three water and nitrogen management treatments were set up:local traditional water and nitrogen treatment(TP,annual nitrogen application of 552.0 kg·hm-2 combined with irrigation of 270.0 mm),nitrogen factor optimization treatment(OF,annual nitrogen application of 414.0 kg·hm-2 combined with irrigation of 270.0 mm),and water and nitrogen factor optimization treatment(OWF,annual nitrogen application of 414.0 kg·hm-2 combined with irrigation of 202.5 mm).The effects of annual water and nitrogen optimization on the yield,biomass,nitrogen accumulation,nitrogen harvest index(NHI),nitrogen partial factor productivity(NPFP),and nitrogen uptake and physiological efficiency(NUPE),soil moisture and nitrate nitrogen content,nitrogen leaching and runoff,and annual nitrogen balance of the wheat-maize rotation system were studied.[Result]Compared with TP and OF treatments,OWF treatment had no significant effect on the annual average yield,aboveground biomass,grain nitrogen accumulation,and aboveground nitrogen accumulation of wheat and maize,but significantly increased NPFP by 31.4%and 0.9%,NUPE by 28.5%and 0.1%,respectively.There was a significant positive correlation among yield,biomass,grain nitrogen accumulation,and aboveground nitrogen accumulation.The annual optimization of water and nitrogen management significantly reduced soil moisture content and NO3--N content at different growth stages.Compared with TP and OF treatments,OWF treatment resulted in a significant reduction in soil moisture content by 6.6%and 9.6%,respectively,and a significant decrease in NO3--N content by 46.1%and 37.9%,respectively.The wheat season and maize season accounted for 2.9%and 97.1%of the annual average nitrogen leaching loss,respectively.The annual average nitrogen leaching losses under TP,OF,and OWF treatments were 52.9,45.8,and 39.6 kg·hm-2,respectively.Compared with TP and OF treatments,OWF treatment significantly reduced the annual average NO3--N leaching loss by 25.2%and 13.5%,respectively,and decreased NO3--N surface runoff by 32.0%and 18.1%,respectively.The annual average nitrogen surplus in the irrigation area of northern Henan was 60.6 kg·hm-2.Compared with TP treatment,the nitrogen surplus under OWF treatment was reduced by 81.9%,while compared with OF treatment,it was increased by 20.8%.[Conclusion]Annual water and nitrogen optimization could maintain stable crop yields in the wheat-maize rotation system while enhancing the efficient utilization of water and nitrogen resources.This approach significantly reduced soil nitrate nitrogen(NO3--N)content across the 0-100 cm soil layers,mitigated NO3--N leaching,promoted soil nitrogen balance,and reduced the risk of non-point source pollution in the irrigation area of northern Henan.These results demonstrated that water and nitrogen optimization served as a green and efficient management measure for the wheat-maize rotation system in this region.
张志勇;谭世超;熊淑萍;马新明;韦一昊;王小纯
河南农业大学农学院/作物生长发育调控教育部重点实验室,郑州 450046河南农业大学农学院/作物生长发育调控教育部重点实验室,郑州 450046河南农业大学农学院/作物生长发育调控教育部重点实验室,郑州 450046河南农业大学农学院/作物生长发育调控教育部重点实验室,郑州 450046河南农业大学农学院/作物生长发育调控教育部重点实验室,郑州 450046河南农业大学生命科学学院,郑州 450046
小麦玉米轮作氮迁移水氮周年优化产量氮肥偏生产力氮淋溶氮平衡
wheatmaizerotationnitrogen migrationannual water-nitrogen optimizationcrop yieldnitrogen fertilizer partial productivitynitrogen leachingnitrogen balance
《中国农业科学》 2026 (2)
336-353,18
国家重点研发计划(2021YFD1700900)、河南省科技攻关项目(242102111170)
评论