缓释施肥条件下辣椒土壤氨挥发特性及氮、磷、钾的吸收利用

Q3 Agricultural and Biological Sciences
Wang Chongl
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引用次数: 1

摘要

通过室内扩散模拟试验,研究了施用大颗粒尿素(PUR)、特种复合肥(LCCF)、特种缓释复合肥(LSRF)和不施肥对照下土壤氨挥发特性。同时进行了盆栽试验,研究了LSRF、LCCF、普通复混肥(OCCF)和市售无包衣缓释复混肥(MSRF)对‘改亮造峰’和‘椒椒5号’辣椒产量和氮、磷、钾的吸收利用情况。分析了土壤有机质含量和土壤酶活性的变化。结果表明,室内扩散模拟试验前28 d土壤氨挥发速率的变化顺序为:无施肥(CK);试验28 d后,LSRF的土壤氨挥发速率高于PUR和LCCF。室内扩散模拟试验下,PUR、LSRF和LCCF 70 d累积土壤氨挥发量分别为71.87 mg·kg-1、54.29 mg·kg-1和63.49 mg·kg-1。在相同施氮量下,与PUR和LCCF相比,LSRF的累积氨挥发量分别下降了24.5%和11.7%。在盆栽试验中,‘育焦5号’和‘改亮早峰’的产量分别比对照增产64.7%和33.8%,土壤有机质含量和脲酶、转化酶和过氧化氢酶活性均有所提高,植株对N、P、K的吸收和利用均有所提高。‘玉椒5号’和‘改亮早峰’氮肥表观利用率分别比OCCF提高了62.5%和123.1%。LSRF处理下‘改亮早峰’的磷肥和钾肥表观利用率分别比OCCF提高了14.0倍和28.7%。LSRF处理‘玉椒5号’的磷肥和钾肥表观利用率分别比OCCF处理提高了3.2倍和120.9%。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Characteristics of soil ammonia volatilization and the absorption and utilization of nitrogen,phosphorus and potassium of pepper under slow-release fertilizer application
Laboratory diffusion simulation experiment was conducted to investigate the characteristics of soil ammonia volatilization under the application of large particle urea(PUR), special compound fertilizer(LCCF), special slow-release compound fertilizer(LSRF), with no fertilization as the control. The pot experiment was meantime carried out to investigate yield, and uptake and utilization of nitrogen(N), phosphorus(P) and potassium(K) of ‘Gailiangzaofeng' and ‘Yujiao5' peppers under the application of LSRF, LCCF, common compound fertilizer(OCCF) and commercially non-coated slow-release compound fertilizer(MSRF). Changes in soil organic matter content and soil enzyme activity were also analyzed. The results showed that the order of the soil ammonia volatilization rate in the first 28 days of laboratory diffusion simulation experiment was as follows: PUR LCCF LSRF no fertilizer(CK). Then soil ammonia volatilization rate of LSRF after 28 days of the experiment was higher than those of PUR and LCCF. Cumulative soil ammonia volatilization from PUR, LSRF and LCCF at 70 days were 71.87 mg·kg-1, 54.29 mg·kg-1 and 63.49 mg·kg-1 respectively under laboratory diffusion simulation experiment. Cumulative ammonia volatilization from LSRF respectively dropped by 24.5% and 11.7% compared with PUR and LCCF under the same dose of N fertilizer. For the pot experiment, yield of ‘Yujiao5' and ‘Gailiangzaofeng' under LSRF respectively increased by 64.7% and 33.8% compared with OCCF, While the content of soil organic matter and activities of urease, invertase and catalase increased, plant uptake and utilization of N, P and K were enhanced under LSRF treatment. Apparent N fertilizer utilization rates of ‘Yujiao5' and ‘Gailiangzaofeng' respectively increased by 62.5% and 123.1% compared with that of OCCF. Apparent P and K fertilizer utilization rates of ‘Gailiangzaofeng' under LSRF treatment respectively enhanced by 14.0 times and 28.7% compared with OCCF. Also apparent P and K fertilizer utilization rates of ‘Yujiao5' under LSRF treatment respectively increased by 3.2 times and 120.9% compared with OCCF treatment.
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来源期刊
Chinese Journal of Eco-agriculture
Chinese Journal of Eco-agriculture Environmental Science-Ecology
CiteScore
2.70
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