首页|期刊导航|植物营养与肥料学报|控释尿素一次性基施比例对陇中旱作春玉米产量及氮素利用效率的影响

控释尿素一次性基施比例对陇中旱作春玉米产量及氮素利用效率的影响OA

Effects of controlled-release urea blending ratios in one-time basal application on yield and nitrogen use efficiency of dryland spring maize in central Gansu Province

中文摘要英文摘要

[目的]研究陇中旱农区不同比例控释尿素一次性基施对旱作春玉米干物质和氮(N)素累积量及其运转效率的影响,为旱作春玉米高产高效施肥提供理论支撑.[方法]以高产春玉米品种'先玉 335'为研究对象,于2023-2024 年在甘肃省白银市连续开展两年田间试验.设置不施氮肥对照(CK)和施 N 180、225 和 300 kg/hm2 4 个处理.其中,3 个普通尿素处理作为常规对照(N180-U1、N225-U1 和 N300-U1);控释尿素和普通尿素一次性基施只采用 180 和 225 kg/hm2 两个施氮量,均设置 3 个控释尿素与普通尿素配施比例,分别为 1∶2(N180-C1 和 N225-C1)、1∶1(N180-C2 和 N225-C2)、2∶1(N180-C3 和 N225-C3).在玉米 6 叶期(V6)、10 叶期(V10)、吐丝期(R1)、乳熟期(R3)、成熟期(R6)采集植株样品,测定不同部位的氮含量和生物量,计算氮素利用效率.[结果]随常规尿素施用量的增加产量呈先增后降的趋势,以 N 225 kg/hm2 时产量最高.控释尿素与普通尿素 1∶1 掺混一次性基施处理 N180-C2 和 N225-C2 显著增加了玉米穗粒数和百粒重,两年平均玉米产量分别达 7.92 和 8.44 t/hm2,分别较等量常规氮处理 N180-U1 和 N225-U1 增产 4.76%和 8.34%;N225-C2 处理较N180-C2 处理增产 6.57%,净收益和产投比分别提高了 35.71%和 7.09%.配施比例显著影响收获期茎、叶、籽粒、苞叶、穗轴氮含量以及茎、叶氮素转移量,以 N 225 kg/hm2 按 1∶1 比例掺混处理(N225-C2)的效果最优.掺混比例显著影响氮肥农学效率、偏生产力和表观回收率,在1∶1掺混比例(N180-C2,N225-C2)下,N180-C2处理的氮肥农学效率和偏生产力显著高于 N225-C2 处理,两年平均分别高于 N225-C2 处理 11.36%和 17.32%.与常规施肥处理 N225-U1 相比,当施氮量为 225 kg/hm2 时 N225-C2 施肥处理的氮肥农学效率、偏生产力、氮素表观回收率和氮素吸收效率分别增加了 14.72%、7.36%、34.25%、29.49%(2023 年)和 16.37%、8.94%、39.89%、19.78%(2024 年).[结论]陇中旱农区适宜施氮量(N 225 kg/hm2)下,普通尿素与控释尿素掺混一次性基施,不仅提高了春玉米的氮素吸收和利用,而且较常规尿素分次施用更有利于花前和花后干物质的积累,且普通尿素与控释尿素 1∶1 掺混较其他比例可有效地促进花前氮素和干物质的转移,实现春玉米较大产量和氮素累积量,显著提高氮素表观回收率,因此,可作为陇中旱农区春玉米高产高效的氮肥运筹模式.

[Objectives]This study investigated the effects of one-time basal application of controlled-release urea(CRU)at different blending ratios on grain yield,dry matter accumulation,and nitrogen use efficiency(NUE)in spring maize under rainfed conditions in the Longzhong semi-arid region.The aim was to provide theoretical support for high-yielding and green and efficient fertilization practices in dryland spring maize.[Methods]Field experiments were conducted in Baiyin of Gansu Province consecutively in 2023 and 2024,using the high-yielding spring maize cultivar'Xianyu 335'.The designed N application amounts included a no-nitrogen control(CK),and three dosages of 180,225,and 300 kg/hm2.Conventional urea treatments included the three N dosages and were applied in two splits,denoted as N180-U1,N225-U1,and N300-U1,respectively;one-time basal application treatments included two N rates(180 and 225 kg/hm2),with the blended ratios of CRU to conventional urea set at 1∶2(N180-C1,N225-C1),1∶1(N180-C2,N225-C2),and 2∶1(N180-C3,N225-C3).Plant samples were collected at the six-leaf(V6),ten-leaf(V10),silking(R1),milky(R3),and physiological maturity(R6)stages.The biomass and nitrogen content in various parts were measured to calculate nitrogen use efficiency parameters.[Results]Under the three conventional urea treatments,the maximum grain yield was obtained at N 225 kg/hm2.At the same N input,the two 1∶1 blending ratio treatments(N180-C2,N225-C2)recorded higher kernel numbers per ear and 100-kernel weight,thereby enhancing both yield and economic returns.Over the two years,the average yields under the N180-C2 and N225-C2 treatments were 7.92 and 8.44 t/hm2,which were 4.76%and 8.34%higher than those under N180-U1 and N225-U1,respectively.Compared with N180-C2,the N225-C2 treatment increased yield by 6.57%,and boosted net income and the output/input ratio by 35.71%and 7.09%,respectively.The nitrogen input and blending ratios also significantly affected N content in stems,leaves,grains,bracts,and cobs at harvest,as well as N translocation from stems and leaves.The N225-C2 treatment recorded the highest values.At the 1∶1 blending ratio,the N180-C2 treatment recorded significantly higher nitrogen agronomic efficiency(NAE)and partial factor productivity(NPFP)than did N225-C2,with two-year average increases of 11.36%and 17.32%,respectively.Compared with the conventional fertilization treatment N225-U1,the N225-C2 treatment increased NAE,NPFP,apparent recovery efficiency,and N uptake efficiency by 14.72%,7.36%,34.25%,and 29.49%in 2023,and by 16.37%,8.94%,39.89%,and 19.78%in 2024.[Conclusions]In the rainfed agricultural region of central Gansu,applying a blend of conventional urea and controlled-release urea as a single basal dressing at the optimal nitrogen rate(225 kg/hm2)enhanced nitrogen uptake and utilization in spring maize and promoted pre-and post-anthesis dry matter accumulation more effectively than split applications of conventional urea.The 1∶1 blending ratio outperformed the other ratios by improving pre-anthesis nitrogen and dry matter translocation,leading to higher grain yield and nitrogen accumulation,along with a significant increase in apparent nitrogen recovery efficiency.Thus,this fertilization strategy can serve as an effective nitrogen management approach for achieving high yield and high efficiency in spring maize production in the rainfed agricultural area of central Gansu.

赵凯;罗珠珠;周鹏;何仁元;刘家鹤;李世清

甘肃农业大学资源与环境学院,甘肃 兰州 730070甘肃农业大学资源与环境学院,甘肃 兰州 730070||干旱生境作物学国家重点实验室,甘肃 兰州 730070甘肃农业大学资源与环境学院,甘肃 兰州 730070甘肃农业大学林学院,甘肃 兰州 730070甘肃农业大学资源与环境学院,甘肃 兰州 730070甘肃农业大学资源与环境学院,甘肃 兰州 730070

陇中地区旱作春玉米一次性基施控释尿素混合比例施氮量产量氮素利用效率

Longzhong regiondryland spring maizeone-time basal applicationcontrolled-release urea mixing rationitrogen application rateyieldnitrogen use efficiency

《植物营养与肥料学报》 2026 (5)

1005-1018,14

甘肃省科技重大专项(25ZDNA007)省部共建干旱生境作物学国家重点实验室开放基金课题(GSCS-2024-09)甘肃省高校研究生"创新之星"项目(2026CXZX-826).

10.11674/zwyf.2025345

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