| 基于产量、氮效率和经济效益的春玉米控释氮肥掺混比例 |
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| 引用本文: | 王 寅,冯国忠,张天山,茹铁军,袁 勇,高 强.基于产量、氮效率和经济效益的春玉米控释氮肥掺混比例[J].土壤学报,2015,52(5):1153-1165. |
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| 作者姓名: | 王 寅 冯国忠 张天山 茹铁军 袁 勇 高 强 |
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| 作者单位: | 吉林农业大学资源与环境学院,吉林省商品粮基地土壤资源可持续利用重点实验室,吉林农业大学资源与环境学院,中国-阿拉伯化肥有限公司,中国-阿拉伯化肥有限公司,吉林农业大学资源与环境学院,吉林农业大学资源与环境学院 |
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| 基金项目: | 公益性行业(农业)科研专项作物最佳养分管理技术研究与应用(201103003)和国家现代农业玉米产业技术体系项目(CARS-02) |
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| 摘 要: | 设置多年多点大田试验,研究多环境条件下控释氮肥与普通尿素不同掺混比例对春玉米拔节期生长发育、成熟期产量及产量构成因素、氮素利用效率和经济效益的影响,并建立产量、氮肥偏生产力和施肥利润与控释氮肥掺混比例之间的关系以确定最佳掺混比例。结果表明,增加控释氮肥掺混比例可促进春玉米拔节期生长发育,其中显著增加叶片数并改善叶片氮营养状况。9个试验综合显示,春玉米产量和施肥利润随控释氮肥掺混比例的增加而显著提高并均在30%时达到最高,分别为10.12 t hm-2和5 071元hm-2,较普通尿素全施处理分别增加了0.98 t hm-2(10.8%)和1 639元hm-2(47.8%)。提高控释氮肥掺混比例获得增产的主要原因是显著增加了春玉米成熟期的穗粒数,同时对收获穗数也表现出积极影响。控释氮肥掺混比例增加显著提高春玉米的氮肥偏生产力,同时土壤氮素依存率则显著下降,两指标均在掺混比例超过30%后不再明显变化。各试验点春玉米的产量、氮肥偏生产力和施肥利润在整体上与控释氮肥掺混比例均存在极显著的一元二次关系,基于此三项指标推算得出适宜掺混比例平均分别为35.1%、35.2%和33.7%。可见,控释氮肥掺混施用有利于促进春玉米生长发育,获得增产增收并提高氮素效率,综合各方面表现确定控释氮肥的最佳掺混比例为30%~35%。
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| 关 键 词: | 春玉米 控释氮肥掺混比例 生长发育 产量 氮素利用率 经济效益 |
| 收稿时间: | 2014/12/1 0:00:00 |
| 修稿时间: | 3/8/2015 12:00:00 AM |
Optimizing blending ratio of controlled release N fertilizer for spring maize based on grain yield, N efficiency, and economic benefit |
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| Wang Yin,Feng Guozhong,Zhang Tianshan,Ru Tiejun,Yuan Yong and Gao Qiang.Optimizing blending ratio of controlled release N fertilizer for spring maize based on grain yield, N efficiency, and economic benefit[J].Acta Pedologica Sinica,2015,52(5):1153-1165. |
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| Authors: | Wang Yin Feng Guozhong Zhang Tianshan Ru Tiejun Yuan Yong and Gao Qiang |
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| Institution: | College of Resources and Environment,Jilin Agricultural University,College of Resources and Environment,Jilin Agricultural University,Sino-Arab Chemical Fertilizer Company,Sino-Arab Chemical Fertilizer Company,College of Resources and Environment,Jilin Agricultural University,College of Resources and Environment,Jilin Agricultural University |
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| Abstract: | Northeast China is the main spring maize production base of China. It is of great significance to stabilize and keep on raising yield of the crop in this region in guaranteeing development of the maize-related industry and food security in China. The technique of blending controlled release N fertilizer (CRN) with common urea once for ado can be used in fertilization of maize not only to regulate the supply of available and slowly available N so as to meet the demand of the crop for N during its growing season, but also to reduce fertilizer and labor input cost to increase economic profit. However, so far little has been reported on researches on such techniques for spring maize in Northeast China, and is known of effects of the use and proper ratio of such a blend. Therefore, 3-year-long multi-site field experiments were carried out to explore effects of the blending on growth at the jointing stage, grain yield and yield composition at maturity, N use efficiency, and economic profit of spring maize relative to blending ratio and environment, so as to define effect of the use and optimal ratio of the blend by determining relationships of ratio of the blend with grain yield, partial factor productivity of N fertilizer (PFPN), and fertilization profit of spring maize. The 3-year-long (2009 to 2011) multi-site field experiments consisted of nine experiments in the major maize production area in Central Jilin province and were designed to have five fertilization treatments, i.e. Treatment I (No N fertilizer); Treatment II (100% common urea); Treatment III (15% CRN and 85% common urea); Treatment IV (30% CRN and 70% common urea), and Treatment V (45% CRN and 55% common urea). Total N fertilization rate was kept consistent for all the treatments, being 185 kg hm-2 during the growing season. The results showed that a higher proportion of CRN in the blend improved spring maize in plant height and leaves in number and SPAD at the jointing stage, but did not affect much stem diameter. Summary of the nine experiments indicated that both grain yield and fertilization profit of spring maize increased significantly with increasing blending ratio of CRN, and reached the highest, 10.12 t hm-2 and 5 071 Yuan hm-2, respectively, in Treatment IV, being 0.98 t hm-2 (10.8%) and 1 639 Yuan hm-2 (47.8%) higher than that in Treatment II, respectively. The effect of higher blending ratio of CRN increasing grain yield of spring maize was mainly attributed to the significantly increased number of kernels per ear at the maturing stage, and also to the increased ear number. A rising proportion of CRN in the blend increased significantly PFPN of spring maize, but reduced significantly contribution rate of soil N (CRSN), till it reached 30%. In all the nine sites of the experiment, significant quadratic relationships were observed of blending ratio of CRN with grain yield, PFPN, and fertilization profit of spring maize. For the above three parameters, the optimal blending ratio of CRN for spring maize was figured out to be 35.1%, 35.2%, and 33.7%, respectively. Obviously, blending of CRN with common urea in fertilization is conducive to growth of spring maize, higher yield of grains, higher N use efficiency, and higher economic benefit. Based on all the findings in the experiment, the optimal blending ratio of CRN for spring maize production in Northeast China is worked out to be 30%-35%. |
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| Keywords: | Spring maize Blending ratio of controlled release N fertilizer Growth Grain yield Nitrogen efficiency Economic benefit |
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