首页|期刊导航|植物营养与肥料学报|菜油两用油菜采薹-追氮协同管理:产量、氮效率与经济效益的优化策略

菜油两用油菜采薹-追氮协同管理:产量、氮效率与经济效益的优化策略OA

Integrated topping and nitrogen topdressing management in dual-purpose rapeseed:Optimization of yield,nitrogen efficiency,and economic benefit

中文摘要英文摘要

[目的]菜油两用是提高油菜生产效益的重要途径,采薹量和氮(N)肥追施量是影响其生产的重要因素.本研究探明菜油两用油菜系统中采薹量与氮肥追施量对油菜籽产量、氮素利用效率和经济效益的影响,明确兼顾菜薹采收收益与油菜籽高产高效的优化管理策略,为区域油菜绿色生产提供理论依据.[方法]2023-2025年,在华中农业大学沙洋实验站开展两年双因素田间试验,设置采薹量(0、3.00、6.00 t/hm2)和追施N量(0、22.5、45.0、67.5、90.0 kg/hm2)处理,分析了油菜籽产量、产量构成因子、氮素利用效率和经济效益.[结果]采薹量和氮肥追施量对油菜籽产量、产量构成因子、氮素利用效率和经济效益均有影响.采薹显著降低油菜籽产量,与不采薹处理相比,采薹量为 3.00 和 6.00 t/hm2 处理油菜籽产量分别平均降低 3.1%和 21.6%.但适量追氮可部分补偿减产效应,相同采薹量下,油菜籽产量随氮肥追施量的增加呈现先增加后下降的趋势,采薹量为0 和 3.00 t/hm2 时,油菜籽产量在 N45.0 处理达到最大值,较不施氮(N0)分别增产 17.1%和 17.3%;采薹量为6.00 t/hm2 时,油菜籽产量在 N67.5 处理达到最大值,较 N0 增产 21.5%.与不采薹处理相比,采薹会使收获密度、单株角果数、千粒重降低,其中采薹量 3.00 和 6.00 t/hm2 处理单株角果数分别平均降低 7.3%和 27.8%,但每角粒数分别平均提高 12.2%和 14.8%.追施氮肥显著影响除油菜收获密度外的其他产量构成因子,对单株角果数影响最大,平均提高 20%以上.采薹降低油菜地上部氮素吸收量,追施氮肥则会使之提高.与不采薹处理相比,采薹量为 3.00 和 6.00 t/hm2 时地上部氮素吸收量平均减少 5.9%和 23.0%.采薹量为 0、3.00 和 6.00 t/hm2时,与 N0 相比,追施氮肥后地上部氮素总吸收量分别平均增加 21.6%、24.5%和 29.6%.随着氮肥追施量的增加,茎秆和角壳相对氮素吸收量占比增加,籽粒相对氮素吸收量占比减少.采薹降低氮肥农学效率但增大氮肥增产效果,N45.0 处理氮肥贡献率最高(14.5%),而采薹量 6.00 t/hm2 需追氮 67.5 kg/hm2 才能获得最大贡献率(17.6%).采薹和采薹后追施氮肥分别可使净收入提高 90%以上和 10.0%左右.[结论]推荐采薹量 3.00 t/hm2配合追施氮 45.0 kg/hm2 为最优模式,其可实现产量和经济效益的协同提升,氮肥农学效率较高(8.1 kg/kg),净收入达 12664 元/hm2.采薹量 6.00 t/hm2 需追施氮 67.5 kg/hm2 达到高产的目的,但油菜籽产量损失达 18.5%,氮素利用效率显著下降.

[Objectives]Producing vegetable and oilseed is an important approach for improving production efficiency of rapeseed.This study aimed to investigate the suitable nitrogen topdressing rate that can mostly promote the rapeseed yield and economic benefits in the vegetable-oilseed dual-purpose rapeseed system.[Methods]Two consecutive field experiments were conducted during the 2023-2025 growing seasons at the Shayang Experimental Station of Huazhong Agricultural University.The experiment adopted a two-factor split-plot design,with topping amount(0,3.00,6.00 t/hm2)and nitrogen topdressing rate(0,22.5,45.0,67.5,90.0 kg/hm2)as the main factors.The rapeseed yield,yield components,aboveground N uptake,nitrogen fertilizer use efficiency and economic benefits were analyzed.[Results]Both topping amount and nitrogen topdressing rate significantly affected seed yield,yield components,aboveground N uptake,nitrogen use efficiency,and economic benefits.Topping significantly reduced seed yield,the seed yields decreased by an average of 3.1%and 21.6%under topping amounts of 3.00 t/hm2and 6.00 t/hm2,respectively,relative to that under non-topping treatment.Nitrogen topdressing partially offset this yield loss,and the seed yield initially increased and then decreased with increasing nitrogen topdressing rate.Compared with N0 treatment,the seed yield peaked at the N45.0 under topping amount of 0 and 3.00 t/hm2,increasing seed yield by 17.1%and 17.3%,respectively;while at a topping amount of 6.00 t/hm2,the seed yield peaked at the N67.5,with a yield increase of 21.5%.Compared with the non-topping treatment,topping decreased harvest density,siliques per plant and 1000-seed weight.Specifically,the treatments with topping yields of 3.00 t/hm² and 6.00 t/hm² reduced the number of siliques per plant by an average of 7.3%and 27.8%,while the seed number per silique increased by 12.2%and 14.8%,respectively.N topdressing did not significantly affect harvest density,but greatly increased siliques per plant by an average of over 20%.Topping reduced aboveground N uptake,whereas nitrogen topdressing promoted it.Compared with the non-topping treatment,topping 3.00 t/hm2 and 6.00 t/hm2 reduced aboveground N uptake by an average of 5.9%and 23.0%,respectively.Relative to N0,nitrogen topdressing increased total aboveground N uptake by an average of 21.6%,24.5%,and 29.6%under topping intensities of 0,3.00,and 6.00 t/hm2,respectively.With increasing nitrogen topdressing,the proportion of nitrogen accumulated in stems and pod shells increased,while the proportion in seeds decreased.Topping reduced nitrogen agronomic efficiency but enhanced the yield-increasing effect of nitrogen.The highest nitrogen contribution rate(14.5%)was achieved at N45.0.However,topping at 6.00 t/hm2 required topdressing N 67.5 kg/hm2 to achieve its maximum contribution rate(17.6%).Topping and nitrogen topdressing after topping increased net income by over 90%and approximately 10.0%,respectively.[Conclusions]The optimal agronomic management strategy for the vegetable-oilseed dual-purpose rapeseed system is a topping amount of 3.00 t/hm2 combined with a N topdressing rate of 45.0 kg/hm2.This rate minimizes seed yield loss and achieves a high income of 12664 yuan/hm2 and a relatively high nitrogen agronomic efficiency.Topping 6.00 t/hm2 of stalks requires a relatively high N topdressing rate of 67.5 kg/hm2 to achieve high yield but still can not offset the resulted rapeseed yield loss,reduced nitrogen use efficiency.

杨佳群;孟孜贞;张洋洋;任涛;鲁剑巍

华中农业大学资源与环境学院/农业农村部长江中下游耕地保育重点实验室/华中农业大学微量元素研究中心,湖北 武汉 430070华中农业大学资源与环境学院/农业农村部长江中下游耕地保育重点实验室/华中农业大学微量元素研究中心,湖北 武汉 430070华中农业大学资源与环境学院/农业农村部长江中下游耕地保育重点实验室/华中农业大学微量元素研究中心,湖北 武汉 430070华中农业大学资源与环境学院/农业农村部长江中下游耕地保育重点实验室/华中农业大学微量元素研究中心,湖北 武汉 430070华中农业大学资源与环境学院/农业农村部长江中下游耕地保育重点实验室/华中农业大学微量元素研究中心,湖北 武汉 430070

油菜菜油两用产量采薹量氮肥追施量氮素利用

rapeseedvegetable-oilseed dual-purposeyieldtopping amountnitrogen topdressing ratenitrogen use efficiency

《植物营养与肥料学报》 2026 (4)

756-767,12

国家重点研发计划项目(2023YFD1901100)湖北省现代农业产业技术体系油菜产业技术体系项目(2023HBSTX4-03)中央高校基本科研业务费专项基金(2662021ZH005).

10.11674/zwyf.2025347

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