首页|期刊导航|干旱地区农业研究|饼肥配施γ-聚谷氨酸对玉米产量及土壤水氮分布的影响

饼肥配施γ-聚谷氨酸对玉米产量及土壤水氮分布的影响OA

Effects of applying cake fertiliser combined with γ-polyglutamic acid on maize yield and the distribution of soil water and nitrogen

中文摘要英文摘要

为探讨饼肥配施γ-聚谷氨酸(γ-PGA)对作物产量和土壤水氮的调控效应进而寻求合适的配施量,以玉米为供试作物,设置3个饼肥用量(B1-900 kg·hm-2-低量、B2-1 100 kg·hm-2-中量、B3-1 300 kg·hm-2-高量)和3个γ-PGA用量(R1-200 kg·hm-2、R2-400 kg·hm-2、R3-600 kg·hm-2),研究不同配施处理对玉米产量、土壤水氮分布及利用的影响.2024-2025年田间小区试验结果表明:(1)饼肥配施γ-PGA对土壤水氮调控表现出显著的协同或抑制作用(P<0.05),在低饼肥用量下,适量施用γ-PGA呈现协同促进作用,而高饼肥用量则表现为拮抗抑制,在0~20 cm 土层中尤其明显.在B1处理下,2024年B1R2处理苗期土壤含水率较B1R1显著提高31.58%,2025年B1R3处理苗期和拔节期土壤含水率较B1R1分别提高10.17%和8.75%;2024年B1R3处理土壤全氮含量较B1R1处理在苗期和灌浆期分别增加15.49%和47.34%,2025年B1R3处理苗期土壤全氮含量较B1R1处理增加8.90%.在B3处理下,特别是2024年B3R3处理拔节期土壤含水率和全氮含量较B3R1处理分别减少46.42%和70.15%.(2)在B1处理下,2024-2025年土壤水氮利用效率和玉米产量随着γ-PGA的增加而提高,2024年B1R3处理土壤水分利用效率、氮素利用效率、玉米产量较B1R1处理分别增加10.00%、8.44%、8.43%,2025年B1R3处理土壤水分利用效率、氮素利用效率、玉米产量较B1R1处理分别增加4.66%、6.91%、6.82%,具有显著的协同作用;而在B2和B3处理下土壤水氮利用效率和玉米产量随着γ-PGA的增加而减少,2024年B3R3处理土壤水分利用效率、氮素利用效率、玉米产量较B3R1处理分别减少19.67%、21.34%、21.35%,2025年B3R3处理土壤水分利用效率、氮素利用效率、玉米产量较B3R1处理分别减少5.57%、8.27%、8.21%,具有显著的拮抗作用.(3)基于玉米产量、水氮利用效率、经济效益的熵权-优劣解距离法得出在B2R1处理下综合评分最高.综上所述,饼肥施用1 100 kg·hm-2并配施200 kg·hm-2 γ-PGA是优化土壤养分分布、提高水氮利用效率和产量的最佳施肥策略.

To investigate the effects of combined application of cake fertilizer and poly-γ-glutamic acid(γ-PGA)on crop yield and soil water-nitrogen regulation,and to determine an appropriate application rate,a field plot experiment was conducted in 2024 and 2025 using maize as the test crop.A split-plot design was employed,with three cake fertilizer application rates,namely B1(900 kg·hm-2,low),B2(1 100 kg·hm-2,medium),and B3(1 300 kg·hm-2,high),and three γ-PGA application rates,namely R1(200 kg·hm-2),R2(400 kg·hm-2),and R3(600 kg·hm-2),resulting in a total of nine treatments.The effects of different combined appli-cation treatments on maize yield,as well as the distribution and utilization of soil water and nitrogen,were evalua-ted.The results showed that(1)the combined application of cake fertilizer and γ-PGA had significant synergistic or inhibitory effects on soil water and nitrogen regulation(P<0.05).Under the low cake fertilizer rate,an appropri-ate γ-PGA application exerted a synergistic promoting effect,whereas under the high cake fertilizer rate,it showed an antagonistic inhibitory effect,especially in the 0-20 cm soil layer.Under the B1 treatment,soil moisture content at the seedling stage in 2024 was significantly increased by 31.58%in B1R2 compared with B1R1.In 2025,soil moisture content at the seedling and jointing stages in B1R3 increased by 10.17%and 8.75%,respectively,com-pared with B1R1.In 2024,soil total nitrogen content in B1R3 was 15.49%and 47.34%higher than that in B1R1 at the seedling and filling stages,respectively,while in 2025,soil total nitrogen content at the seedling stage in-creased by 8.90%.In contrast,under the B3 treatment,especially in 2024,soil moisture content and total nitrogen content at the jointing stage in B3R3 were reduced by 46.42%and 70.15%,respectively,compared with B3R1.(2)Under the B1 treatment,soil water use efficiency,nitrogen use efficiency,and maize yield increased with in-creasing γ-PGA application during 2024-2025.In 2024,compared with B1R1,soil water use efficiency,nitrogen use efficiency,and maize yield in B1R3 increased by 10.00%,8.44%,and 8.43%,respectively;in 2025,the corresponding increases were 4.66%,6.91%,and 6.82%,respectively,indicating a significant synergistic effect.However,under the B2 and B3 treatments,soil water and nitrogen use efficiency as well as maize yield decreased with increasing γ-PGA application.In 2024,compared with B3R1,soil water use efficiency,nitrogen use efficien-cy,and maize yield in B3R3 decreased by 19.67%,21.34%,and 21.35%,respectively;in 2025,the correspond-ing decreases were 5.57%,8.27%,and 8.21%,respectively,indicating a significant antagonistic effect.(3)Based on the entropy weight-TOPSIS method integrating maize yield,water and nitrogen use efficiency,and eco-nomic benefit,the B2R1 treatment achieved the highest comprehensive score.Overall,the combined application of 1 100 kg·hm-2 cake fertilizer and 200 kg·hm-2 γ-PGA was identified as the optimal fertilization strategy for im-proving soil nutrient distribution and enhancing water and nitrogen use efficiency as well as maize yield.

韩军桥;谷琼琼;傅渝亮;陈新国

秦皇岛市洋河水库运行中心,河北秦皇岛 066000中国灌溉排水发展中心,北京 100054华北水利水电大学,河南郑州 454600华北水利水电大学,河南郑州 454600

农业科技

饼肥γ-聚谷氨酸土壤水氮分布水氮利用效率玉米产量

cake fertilizerγ-PGAsoil water-nitrogen distributionwater and nitrogen use efficiencymaize yield

《干旱地区农业研究》 2026 (3)

110-126,17

国家自然科学基金(52309066)河南省高等学校重点科研计划项目(25A570004)

10.7606/j.issn.1000-7601.2026.03.11

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