有机肥替代化肥对旱作饲用玉米产量及农田CO2排放的影响

doi:10.13287/j.1001-9332.202511.014

应用生态学报 ›› 2025, Vol. 36 ›› Issue (11): 3378-3386.doi: 10.13287/j.1001-9332.202511.014

有机肥替代化肥对旱作饲用玉米产量及农田CO₂排放的影响

杨通¹, 谢军红^1,2,3*, 汤昕悦¹, 田野¹, 魏瑞芳¹, 张康康¹, 王婷婷³, UMAR, Daraz¹

¹省部共建干旱生境作物学重点实验室, 兰州 730070;
²甘肃农业大学农学院, 兰州 730070;
³甘肃农业大学实验室与基地管理中心, 兰州 730070

收稿日期:2025-01-21 接受日期:2025-09-30 出版日期:2025-11-18 发布日期:2026-06-18
通讯作者: * E-mail: xiejh@gsau.edu.cn
作者简介:杨通, 男, 1997年生, 硕士研究生。主要从事旱地与绿洲农作制研究。E-mail: 1126895655@qq.com
基金资助:
甘肃省高校科研创新平台重大培育项目(2024CXPT-01)、国家自然科学基金项目(32360545)、国家重点研发计划项目(2022YFD1900300)和甘肃省教育厅-优秀研究生“创新之星”项目(2023CXZX-650)

Effects of replacing chemical fertilizers with organic fertilizers on yield of dryland forage maize and farmland CO₂ emissions

YANG Tong¹, XIE Junhong^1,2,3*, TANG Xinyue¹, TIAN Ye¹, WEI Ruifang¹, ZHANG Kangkang¹, WANG Tingting³, UMAR Daraz¹

¹Provincial-Ministry Joint Key Laboratory of Crop Science in Arid Habitat, Lanzhou 730070, China;
²College of Agriculture, Gansu Agricultural University, Lanzhou 730070, China;
³Laboratory and Base Management Center, Gansu Agricultural University, Lanzhou 730070, China

Received:2025-01-21 Accepted:2025-09-30 Online:2025-11-18 Published:2026-06-18

摘要/Abstract

摘要： 全膜双垄沟播玉米是黄土高原半干旱区典型高产模式,探寻有利于作物增产与CO₂减排的有机肥替代化肥比例对饲用玉米生产具有重要意义。本研究基于黄土高原半干旱区有机肥替代化肥饲用玉米定位试验,设置不施氮肥(S₁)、单施化肥(S₂,无机氮200 kg·hm^-2)、25%有机肥替代化肥(S₃,有机氮25%＋无机氮75%)和50%有机肥替代化肥(S₄,有机氮50%＋无机氮50%)4个处理,于2023—2024年测定了饲用玉米干物质积累、土壤呼吸、产量和农田CO₂排放量,分析了碳排放效率和碳平衡状况。结果表明: 有机肥替代化肥较单施化肥增加了饲用玉米灌浆期和成熟期的干物质积累,其中S₃和S₄处理灌浆期平均干物质积累量分别较S₁增加了88.0%和79.1%,较S₂增加了79.1%和6.4%;收获期分别较S₁增加了81.3%和78.7%,较S₂增加了15.3%和13.6%。合理的有机肥替代化肥显著增加了饲用玉米产量,其中S₃处理2023、2024年分别较S₁和S₂增产84.9%、9.9%和140.1%、17.9%,较S₄处理增产18.1%、14.5%。饲用玉米生育期农田呼吸速率及处理间的差异均大于休闲期,有机肥替代化肥较单施化肥提高了土壤呼吸速率,且有机肥替代比例越高土壤呼吸速率越大,其中S₃和S₄处理周年平均呼吸速率较S₁分别增加46.3%和53.9%,较S₂分别增加5.4%和10.9%;总CO₂排放量较S₁分别增加43.9%和51.9%,较S₂分别增加5.7%和11.5%;合理的有机肥替代化肥提高了碳排放效率,其中S₃处理碳排放效率最高,较S₁和S₂提高了42.7%和7.7%,较S₄提高了18.8%。综上,25%有机肥替代化肥有效促进了饲用玉米灌浆期和成熟期的干物质积累,协同提高产量和农田碳排放效率,具有较强的碳汇效应,可作为一种“碳友好型”施肥方式在黄土高原半干旱区全膜双垄沟播饲用玉米生产中应用。

关键词: 有机肥替代化肥, 饲用玉米, 产量, CO₂排放

Abstract: The fully mulched double ridge-furrow planting of maize is a typical high-yield model in the Loess Pla-teau's semi-arid region. Exploring the optimal substitution ratio of organic fertilizer for chemical fertilizer is important to enhance crop yield of forage maize and reduce CO₂ emissions. We conducted an experiment on organic fertili-zer substitution for chemical fertilizer in forage maize in the semi-arid region of the Loess Plateau between 2023 and 2024. There were four treatments, including no nitrogen application (S₁), chemical fertilizer alone (S₂, inorganic nitrogen 200 kg·hm^-2), 25% organic fertilizer substitution for chemical fertilizer (S₃, organic nitrogen 25% + inorganic nitrogen 75%), and 50% organic fertilizer substitution for chemical fertilizer (S₄, organic nitrogen 50% + inorganic nitrogen 50%). We measured the dry matter accumulation of forage maize, soil respiration, yield, and farmland CO₂ emissions, as well as carbon emission efficiency and carbon balance. The results showed that substituting chemical fertilizers with organic fertilizers increased the dry matter accumulation of forage maize during the filling and maturity stages compared to the application of chemical fertilizer alone. Specifically, the average dry matter accumulation during the filling stage under treatments S₃ and S₄ increased by 88.0% and 79.1%, respectively, compared to S₁, and by 79.1% and 6.4% compared to S₂. At harvest, the increases were 81.3% and 78.7% compared to S₁, and 15.3% and 13.6% compared to S₂. The rational substitution of chemical fertilizers with organic fertilizers significantly increased the yield of forage maize. In 2023 and 2024, the yield of treatment S₃ increased by 84.9%, 9.9% and 140.1%, 17.9% compared to S₁ and S₂ respectively, and by 18.1% and 14.5% compared to S₄. Soil respiration rate and the differences among treatments during the growth period of forage maize were greater than those during the fallow period. The substitution of chemical fertilizer with organic fertilizer increased soil respiration rate compared to the application of chemical fertilizer alone. The higher the proportion of organic fertilizer substitution, the greater the soil respiration rate. Specifically, the annual average respiration rates of treatments S₃ and S₄ increased by 46.3% and 53.9% compared to S₁, and by 5.4% and 10.9% compared to S₂, respectively. The total CO₂ emissions increased by 43.9% and 51.9% compared to S₁, and by 5.7% and 11.5% compared to S₂, respectively. The rational substitution of chemical fertilizer with organic fertilizer improved carbon emission efficiency, with the highest value under treatment S₃, which was 42.7%, 7.7%, and 18.8% higher than that of S₁, S₂, and S₄, respectively. Collectively, the partial substitution of 25% chemical fertilizer with organic fertilizer significantly enhanced dry matter accumulation in forage maize during the grain-filling and maturation stages, synergistically increased both yield and farmland carbon emission efficiency, and demonstrated a strong carbon sequestration effect. This approach offered a carbon-friendly fertilization strategy for forage maize production under whole plastic film mulching and double ridge-furrow planting in the semi-arid regions of the Loess Plateau.

Key words: organic fertilizer substitution for chemical fertilizer, forage maize, yield, CO₂ emission

杨通, 谢军红, 汤昕悦, 田野, 魏瑞芳, 张康康, 王婷婷, UMAR, Daraz. 有机肥替代化肥对旱作饲用玉米产量及农田CO₂排放的影响[J]. 应用生态学报, 2025, 36(11): 3378-3386.

YANG Tong, XIE Junhong, TANG Xinyue, TIAN Ye, WEI Ruifang, ZHANG Kangkang, WANG Tingting, UMAR Daraz. Effects of replacing chemical fertilizers with organic fertilizers on yield of dryland forage maize and farmland CO₂ emissions[J]. Chinese Journal of Applied Ecology, 2025, 36(11): 3378-3386.

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有机肥替代化肥对旱作饲用玉米产量及农田CO₂排放的影响

Effects of replacing chemical fertilizers with organic fertilizers on yield of dryland forage maize and farmland CO₂ emissions

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