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  • Title: [Influence of a new phosphoramide urease inhibitor on urea-N transformation in different texture soil].
    Author: Zhou X, Wu LH, Dai F.
    Journal: Ying Yong Sheng Tai Xue Bao; 2016 Dec; 27(12):4003-4012. PubMed ID: 29704361.
    Abstract:
    Addition of urease inhibitors is one of the important measures to increase nitrogen (N) use efficiency of crop, due to retardant of urea hydrolysis and reduction of ammonia volatilization loss. An incubation experiment was conducted to investigate the urease inhibition effect of a new phosphoramide urease inhibitor, NPPT (N-(n-propyl) thiophosphoric triamide) in different texture soils under dark condition at 25 ℃, and NBPT (N-(n-butyl) thiophosphoric triamide) was obtained to compare the inhibition effect on urease in different soil textures by different dosages of urea adding. Results showed that the effective reaction time of urea was less than 9 d in the loamy and clay soil. Addition of inhibitors for retardation of urea hydrolysis was more than 3 d. In sandy soil, urea decomposition was relatively slow, and adding inhibitor significantly inhibited soil urease acti-vity, and reduced NH4+-N content. During the incubation time, the inhibition effect of high dosage urea in the soil was better than that of low dosage. At day 6, the urease inhibition rate of NBPT and NPPT (N 250 mg·kg-1) were 56.3% and 53.0% in sandy soil, 0.04% and 0.3% in loamy soil, 4.1% and 6.2% in clay soil; the urease inhibition rate of NBPT and NPPT (N 500 mg·kg-1) were 59.4% and 65.8% in sandy soil, 14.5% and 15.1% in loamy soil, 49.1% and 48.1% in clay soil. The urease inhibition effects in different texture soil were in order of sandy soil > clay soil> loamy soil. The soil NH4+-N content by different inhibitors during incubation time increased at first and then decreased, while soil NO3--N content and apparent nitrification rate both showed rising trends. Compared with urea treatment, addition of urease inhibitors (NBPT and NPPT) significantly increased urea-N left in the soil and reduced NH4+-N content. In short, new urease inhibitor NPPT in different texture is an effective urease inhibitor. 施用脲酶抑制剂是降低尿素水解、减少氨气挥发损失、提高作物氮(N)肥利用率的重要途径之一.采用室内恒温、恒湿模拟试验方法,在25 ℃黑暗条件下培养,研究新型磷酰胺类脲酶抑制剂N-丙基磷酰三胺(NPPT)的脲酶抑制效果,比较其与N-丁基磷酰三胺(NBPT)在不同尿素用量条件下不同质地土壤中对脲酶的抑制差异.结果表明: 在壤土和黏土中,尿素作用时间≤9 d,添加抑制剂可以将尿素水解时间延长3 d以上.砂土中,尿素分解过程相对缓慢,添加抑制剂显著降低土壤脲酶活性,抑制NH4+-N生成.在培养期间,不同尿素用量条件下,脲酶抑制剂在不同质地土壤中的抑制效果表现为高施N量优于低施N量.培养第6天,在尿素用量250 mg N·kg-1条件下,NBPT和NPPT在砂土中脲酶抑制率分别为56.3%和53.0%,在壤土中分别为0.04%和0.3%,在黏土中分别为4.1%和6.2%;尿素用量500 mg N·kg-1,NBPT和NPPT在砂土中脲酶抑制率分别为59.4%和65.8%,在壤土中分别为14.5%和15.1%,在黏土中分别为49.1%和48.1%.不同质地土壤中脲酶抑制效果表现为砂土>黏土>壤土.不同抑制剂处理在培养期间土壤NH4+-N含量呈现先上升后下降的趋势,而NO3--N含量和表观硝化率均呈现逐渐上升的趋势.与单施尿素处理相比,添加脲酶抑制剂NBPT和NPPT显著增加土壤中的残留尿素态N,降低NH4+-N生成.新型脲酶抑制剂NPPT在不同质地土壤中的抑制效果与NBPT相似,是一款有效的脲酶抑制剂.
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