共查询到18条相似文献,搜索用时 78 毫秒
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2005年9月27日,由河北省政协组织的涂层缓控释肥现场发布会,在河北省成安县举办,我会应邀参加了此次现场会。 相似文献
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为探究尿素中添加不同量的腐殖酸对农作物产量和氮素利用率的影响,以冬小麦为试验对象,以施用普通尿素和不施氮肥处理为对照,与施含腐殖酸尿素的处理进行比对,开展了田间小区试验。结果表明:施氮肥处理的冬小麦增产效果较好,与不施氮肥处理的相比差异达极显著水平,但各施氮肥处理间无显著性差异;与施用普通尿素处理相比,施用含腐殖酸尿素的处理均降低了土壤中硝态氮的含量,且硝态氮含量变化趋势基本一致;与施用普通尿素处理相比,施用含腐殖酸尿素的处理对冬小麦的增产效果并不明显,可能是因为腐殖酸添加量过少、施用时间较短。 相似文献
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腐植酸尿素对冬小麦增产效果及氮肥利用率的影响 总被引:3,自引:0,他引:3
以冬小麦为试验材料,研究腐植酸尿素对其产量构成因素、产量及氮肥利用率的影响。试验结果表明:腐植酸尿素能显著提高冬小麦产量、千粒重及氮肥利用率。施用腐植酸尿素I型和腐植酸尿素II型与农民习惯施肥相比,冬小麦产量分别增加753.2、756.9 kg/hm~2,千粒重分别提高1.3、1.4 g,氮肥利用率分别提高11.97、11.60个百分点;与普通BB肥相比,冬小麦产量分别增加897.7、894.0 kg/hm~2,千粒重分别提高0.5、0.6 g,氮肥利用率分别提高10.11、9.74个百分点。 相似文献
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为探索控失尿素的施用方法,发现控失尿素在施用中存在的问题,以冬小麦为试验对象,开展了田间小区试验,考察了不同施肥处理和施肥方式对冬小麦产量、氮素利用率和土壤硝态氮含量的影响。结果表明:施氮处理的冬小麦产量高于不施氮处理的,处理间差异极显著;氮素施用量和施肥方式相同时,控失尿素处理的冬小麦产量高于普通尿素处理的,处理间差异极显著;氮素施用量和肥料品种相同而施肥方式不同时,底施+追施的增产效果优于全底施的,处理间差异显著;控失尿素氮素施用量比普通尿素减少20%的条件下,冬小麦产量无显著性差异;与施用普通尿素的处理相比,施用控失尿素的处理不仅氮素利用率高,且均不同程度地降低了土壤中硝态氮的含量。施用控失尿素可以提高冬小麦的产量和氮素利用率,降低土壤中硝态氮的含量。 相似文献
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缓释肥对冬小麦增产与提高氮肥利用率的研究 总被引:7,自引:0,他引:7
大田条件下以不施氮肥(CK 1)、尿素基施(CK 2)和尿素基追比1∶1(CK 3)3个处理做对照,对施用3种包膜缓释肥(SRF 1、SRF 2和SRF 3)冬小麦产量、不同时期植株含氮量及肥料利用率进行比较。结果表明:与CK 2相比,3种包膜缓释肥料产量提高3.4%~20.2%,肥料利用率提高7.65%~15.45%,除苗期外其他时期冬小麦的植株含氮量也有所提高,但均比CK 3稍低;3种缓释相比较,SRF I和SRF 2各种指标均优于SRF 3。说明缓释肥一次性施用基本可以满足小麦整个生长期的需要。 相似文献
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钙镁磷肥复式包膜尿素对冬小麦产量和氮肥效率的影响 总被引:3,自引:0,他引:3
通过连续 3年 ( 1999~ 2 0 0 0年 )大田试验 ,研究了钙镁磷肥复式包膜尿素对冬小麦产量、氮效率〔包括 :氮素效率比 ( NER) ,氮吸收效率 ( NUp E) ,氮素使用效率 ( NUE)和氮肥利用效率 ( Nf UE)〕的影响。结果表明 ,钙镁磷肥复式包膜尿素与普通尿素的生物量、籽粒和秸秆量均显著大于对照处理 ;氮素使用效率 ( NUE)和氮肥利用率均显著高于对照。包膜尿素处理的产量和氮效率最高 ,其籽粒、秸秆、生物量平均值比普通尿素处理分别高 9.0 9%~15 .0 6 %、13.11%~ 14 .96 %、11.73%~ 14 .99% ,氮肥利用率高 15~ 16个百分点。在本试验条件下 ,相对于通常氮肥施用量 ( 15 0 kg N/hm2 ) ,少量增加氮肥施用量 (氮肥用量增加 8% )对产量和氮效率 ( NE)没有显著影响 ;而大量增加氮肥施用量 (增加 2 0 % ) ,能明显增加小麦产量、吸氮量和氮肥利用率 相似文献
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Phosphoroamide urease inhibitors were evaluated for their ability to increase grain protein and yield of winter wheat (Triticum aestivum L.) when added to surfaceapplied urea-based fertilizers. Six urease inhibitors [trichloroethyl phosphorodiamidate, diethyl phosphoric triamide, dimethyl phosphoric triamide, N-(diaminophosphinyl)-cyclohexylamine, N-benzyl-N-methyl phosphoric triamide, and phenylphosphorodiamide] were evaluated. Nitrogen treatments were urea prills, urea solution, and ureaammonium nitrate (UAN) solution broadcast and UAN solution band applied. Ammonium sulfate and no N treatments were included as controls. Fertilizer treatments were applied in the fall and spring. Soils were Ryker silt loam (Typic Paleudalf), Rensselaer loam (Typic Argiaquoll), and Avonburg silt loam (Aeric Fragiaqualf).Grain yield was a more responsive indicator of N addition than was grain N content. Urea prills and ammonium sulfate were more effective fertilizers than was UAN solution. UAN was not more effective applied in a band than broadcast. Urease inhibitors did not improve the efficiency of urea fertilizers since NH3 volatilization did not appear to be a problem following addition of urea fertilizers in spring or fall.Journal Paper No. 10528. This work was supported in part by a grant from Allied Chemical, Solvay, NY 13209. 相似文献
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在湖北省中稻上开展了控释尿素不同施用量的田间试验。研究结果表明,施用控释尿素不仅可以提高中稻产量,而且可以提高氮肥的农学效率及表观利用率,控释尿素70%的用量与普通尿素100%的用量效果相当,并随着控释尿素施用年限的增加,控释尿素施用效果越显著,控释尿素至少可以减少氮肥用量30%。 相似文献
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Babar Azeem Zakaria Man Sayed Ameenuddin Irfan 《Chemical Engineering Communications》2018,205(10):1397-1414
To impede nitrogen loss due to leaching and NH3 volatilization, pristine urea particles are coated with synthetic polymers such as poly(acrylic acid) and polyethylene for the controlled release of nitrogen. However, due to nonbiodegradability and environmental and economic issues, these synthetic polymers are replaced with cheap, biodegradable, and green coating materials. In this study, borax-modified starch biopolymer is used to produce controlled release urea (CRU) in a tumbling fluidized bed. Central composite rotatable design is used to study the interactive effect of process parameters on time and kinetics of nitrogen release. Nitrogen release in distilled water is monitored by the UV–Vis spectrophotometer and soil burial test is used to observe release in soil. The optimum values of process parameters and response objectives generated by the analysis of variance are validated by triplicates of confirmation runs and the % error is reported as a precision indicator. A mathematical model is used to determine the diffusion coefficient of nitrogen release. Biopolymer-coated urea results in much better release performance when compared with starch-based CRU reported in the literature. The most influential process parameter both for time and kinetics of nitrogen release appears to be the coating time. Release time increases linearly with coating time and the diffusion coefficient decreases with increase in coating time. The kinetic study reveals that some of the samples followed non-Fickian diffusion and others followed Case-II transport during the release of nitrogen. 相似文献