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草田轮作系统中不同施氮梯度下玉米产量和土壤N2O气体排放特征

马沙燕魏向宇张均益邓建强兰剑刘路陆梁志婷

草业科学2026，Vol.43Issue(3)：614-624,11.

草业科学2026，Vol.43Issue(3)：614-624,11.DOI:10.11829/j.issn.1001-0629.2025-0015

草田轮作系统中不同施氮梯度下玉米产量和土壤N2O气体排放特征

Maize yield and soil N2O emission characteristics under different nitrogen application rates in a forage-grain rotation system

马沙燕 ¹魏向宇 ¹张均益 ¹邓建强 ²兰剑 ¹刘路陆 ³梁志婷⁴

作者信息

1. 宁夏大学林业与草业学院,宁夏银川 750021||宁夏草牧业工程技术研究中心,宁夏银川 750021
2. 宁夏草牧业工程技术研究中心,宁夏银川 750021
3. 隆德县腾发牧草专业合作社,宁夏固原 756000
4. 甘肃海创新能源科技有限公司,甘肃兰州 730000
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摘要

Abstract

Nitrogen is an essential nutrient in the crop growing period.Applying an alfalfa and grain crop rotation can reduce the N fertilizer input in the subsequent crop.The impact of a reduction in nitrogen(N)fertilizer use on the yield,agronomic traits,N-use efficiency,and N2O gas emissions of subsequent grain crops in arid regions is unclear.Field experiments were conducted by planting maize after the alfalfa growing period.A completely randomized design was used for three nitrogen application levels:N1(maize was planted with a conventional nitrogen level,180 kg·ha-1),N2(maize was planted with a 30%decrease in the conventional N level),and N3(maize was planted with a 50%decrease in the conventional N level).A maize monoculture system(N0,maize monoculture at a conventional N level)was set as the control.The dry matter yield of maize decreased,and the grain yield increased initially and then decreased with the decrease in the N application.In the forage-grain rotation system,the N-use efficiency and N-partial productivity of maize increased when the N application decreased.The different N application levels had no marked effect on the dry matter and grain yields of maize planted after alfalfa,with an average of 24.3 and 12.3 t·ha-1 among treatments,respectively.Compared to the N0 treatment,the N-use efficiency and N-partial productivity of maize increased by 155.9%and 131.9%,respectively,in the N3 treatment(P<0.05).In the forage-grain rotation system,cumulative soil N2O emissions showed an initial increase followed by a decrease with reducing nitrogen application rates.In N2,the cumulative soil N2O gas emissions increased by 4.7%compared to the N0 treatment(P<0.05).Planting maize after the alfalfa growing period in the arid region of Ningxia can effectively utilize the nitrogen fixation ability of this leguminous crop.Reducing N applications by 50%for subsequent grain crop will not only decrease production costs and N2O gas emissions,but will also improve N-use efficiency and N-partial productivity,which is of great importance in ensuring stable grain production and promoting ecological safety in the southern mountainous areas of Ningxia.

关键词

紫花苜蓿/草田轮作/施氮水平/玉米产量/N2O气体排放/氮肥利用效率/宁南山区

Key words

alfalfa/forage-g rain rotation system/nitrogen application/maize yield/N2O gas emissions/nitrogen-use efficiency/southern Ningxia mountainous area

引用本文复制引用

马沙燕,魏向宇,张均益,邓建强,兰剑,刘路陆,梁志婷..草田轮作系统中不同施氮梯度下玉米产量和土壤N2O气体排放特征[J].草业科学,2026,43(3):614-624,11.

基金项目

国家自然科学青年基金项目(32201474) （32201474）

宁夏全职引进高层次人才科研启动项目(2023BSB03028) （2023BSB03028）

草业科学

ISSN：1001-0629

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