王永亮, 王琦, 杨治平, 郭军玲, 郭彩霞. 轻度盐碱地玉米专用肥缓效氮不同添加比例的研究[J]. 中国生态农业学报(中英文), 2016, 24(12): 1614-1622. DOI: 10.13930/j.cnki.cjea.160489
引用本文: 王永亮, 王琦, 杨治平, 郭军玲, 郭彩霞. 轻度盐碱地玉米专用肥缓效氮不同添加比例的研究[J]. 中国生态农业学报(中英文), 2016, 24(12): 1614-1622. DOI: 10.13930/j.cnki.cjea.160489
WANG Yongliang, WANG Qi, YANG Zhiping, GUO Junling, GUO Caixia. Analysis of slow-release nitrogen fraction in maize specialized fertilizer for mild-saline alkaline soils[J]. Chinese Journal of Eco-Agriculture, 2016, 24(12): 1614-1622. DOI: 10.13930/j.cnki.cjea.160489
Citation: WANG Yongliang, WANG Qi, YANG Zhiping, GUO Junling, GUO Caixia. Analysis of slow-release nitrogen fraction in maize specialized fertilizer for mild-saline alkaline soils[J]. Chinese Journal of Eco-Agriculture, 2016, 24(12): 1614-1622. DOI: 10.13930/j.cnki.cjea.160489

轻度盐碱地玉米专用肥缓效氮不同添加比例的研究

Analysis of slow-release nitrogen fraction in maize specialized fertilizer for mild-saline alkaline soils

  • 摘要: 针对山西省晋北区域盐碱耕地玉米生产中存在肥料施用针对性不强的问题, 本试验利用已有的山西省晋北区域盐碱地玉米缓释专用肥配方, 探索适合该区域玉米生产的缓效氮和速效氮适当配比, 并在春玉米生产中验证其肥效。试验设不施氮肥(CK)、100%速效氮、25%缓效氮、33%缓效氮、50%缓效氮、67%缓效氮、75%缓效氮和100%缓效氮8个处理, 分别测定各处理玉米产量、各生育时期干物质量、植株吸氮量、氮素转运及利用以及收获后对土壤硝态氮积累量的影响。结果表明, 随着缓效氮添加比例的增加, 玉米各生育时期分析指标均呈现先增加后减小的波动性变化, 其中添加33%缓效氮处理为最大波峰处。添加缓效氮33%较100%速效氮处理能够有效增加玉米产量、地上部干物质积累量和吸氮量, 提高玉米对氮素的利用, 获得最高产量(14 897.46 kg?hm-2), 比100%速效氮处理增产42.23%; 同时添加33%缓效氮处理产量构成因素优于其他处理, 和100%速效氮处理相比, 穗长、穗粒数、穗直径和百粒重分别提高55.34%、39.30%、53.57%和52.57%, 平均秃尖缩短0.38 cm; 玉米成熟期地上部干物质积累量和吸氮量最大, 分别为26 787.53 kg?hm-2和239.72 kg?hm-2; 该处理的氮肥利用率、氮肥偏生产力及氮肥农学效率均最大, 分别为39.79%、66.20 kg.kg-1和47.03 kg.kg-1。添加33%缓效氮处理玉米叶氮转运率和茎氮转运率分别为76.08%和49.39%, 氮转移率为67.76%、氮收获指数为77.40%, 显著高于100%速效氮处理。添加缓效氮有效改善了各土层土壤硝态氮的积累量, 其中缓效氮添加比例为33%处理各土层硝态氮积累量均匀, 深层土壤淋溶最小。可见, 在山西晋北区域盐碱耕地春玉米生产中, 在已有配方中选择添加33%缓效氮能达到玉米增产增效、保护环境的效果, 在该地区玉米生产中应用前景广阔。

     

    Abstract: Currently, the fertilization of maize is not pertinent to actual local situations in northern Shanxi. To solve this problem, a maize specialized fertilizer formula for mild-saline-alkaline soils in northern Shanxi was studied to explore the proper ratio of slow-release nitrogen (SRN) and rapid-release nitrogen (RRN) in maize production in this region and the effectiveness of the formula validated for spring maize. The treatments were 100% RRN and 25%, 33%, 50%, 67%, 75% and 100% SRN, and no nitrogen application was the control. The grain production and dry matter weight at different growth stages, nitrogen uptake, transport and utilization of maize plant, as well as post-harvest nitrate nitrogen accumulation in soil were analyzed. The results showed that with increasing SRN ratio in the maize specialized fertilizer, physiological parameters of maize increased and then decreased at different growth stages. The peaked values of different indicators all occurred under the treatment with 33% SRN. The addition of 33% SRN effectively increased grain production, dry matter weight, nitrogen uptake and nitrogen use efficiency of maize, and with the highest yield of maize of 14 897.46 kg?hm-2. The yield of maize increased by 42.23% compared with 100% RRN treatment. Meanwhile compared with 100% RRN, yield components such as ear length, ear grain number, diameter, 100-seed weight in 33% SRN treatment were higher by 55.34%, 39.30%, 53.57% and 52.57%, respectively. Moreover, in the same treatment, the length of bald tip was shorten by 0.38 cm, while nitrogen use efficiency, nitrogen partial productivity and agronomic efficiency of nitrogen fertilizer were 39.79%, 66.20 kg.kg-1 and 47.03 kg.kg-1, respectively; all of which were the highest in the treatments. The transport rate of nitrogen in different organs of maize was higher in 33% SRN treatment compared with 100% RRN treatment. Specifically, the rates of nitrogen transport in leaf and stem were respectively 76.08% and 49.39%, and the rate of nitrogen transfer and nitrogen harvest index were 67.76% and 77.40%, respectively; all of which were significantly higher than those in 100% RRN treatment. The 33% SRN treatment effectively improved nitrate nitrogen accumulation in the soil, which was different at different soil depths with the least in deep soil layers. It was therefore concluded that for spring maize cultivated in mild-saline-alkali soils in northern Shanxi, the addition of 33% of SRN to the existing maize specialized fertilizer increased maize production and fertilizer use efficiency, and protected the environment. This method was promising in enhancing the conditions (yield and environment) of maize production of the region.

     

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