| 控失尿素对稻田氨挥发、氮素转运及利用效率的影响 |
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| 引用本文: | 薛欣欣,吴小平,张永发,罗雪华,邹碧霞,王大鹏,王文斌.控失尿素对稻田氨挥发、氮素转运及利用效率的影响[J].应用生态学报,2018,29(1):133-140. |
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| 作者姓名: | 薛欣欣 吴小平 张永发 罗雪华 邹碧霞 王大鹏 王文斌 |
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| 作者单位: | 中国热带农业科学院橡胶研究所/土壤肥料研究中心, 海南儋州 571737 |
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| 基金项目: | 本文由农业部植物营养与肥料学科群开放基金项目(APF2015038)资助 |
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| 摘 要: | 通过田间试验,以普通尿素分次施用处理(CU)为对照,研究了控失尿素分次施用(LCUS)和一次施用(LCUB)对水稻田土壤氨挥发特征、水稻氮素营养状况、稻谷产量及氮肥利用效率的影响. 结果表明: 普通尿素分次施用、控失尿素分次施用和控失尿素一次施用条件下,生育期氨挥发总量占总施氮量的比例分别为15.8%、13.4%和19.7%. 与普通尿素分次施用处理相比,控失尿素分次施用处理可降低土壤氨挥发损失量4.4 kg N·hm-2,降幅达18.0%,而控失尿素一次施用处理稻田土壤氨挥发总量却增加了7.2 kg N·hm-2,增幅达24.7%. 与普通尿素分次施用处理相比,控失尿素分次施用处理的水稻叶片叶绿素、籽粒和茎叶氮含量与氮素积累量、稻谷产量均有不同程度提高,氮肥利用率显著提高了7.6%,但氮素转运量、转运率和对穗氮贡献率均显著降低,而控失尿素一次施用处理的水稻叶片叶绿素、籽粒和茎叶氮含量与氮素积累量以及氮肥利用率均显著降低,氮素转运量、转运率、对穗氮贡献率以及稻谷产量无显著差异. 综上所述,控失尿素分次施用处理可以在保证稻谷稳产的同时,有效降低稻田土壤氨挥发损失,改善植株氮素营养状况,显著提高氮肥利用效率.
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| 收稿时间: | 2017-02-17 |
Effects of loss-controlled urea on ammonia volatilization,N translocation and utilization efficiency in paddy rice. |
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| XUE Xin-xin,WU Xiao-ping,ZHANG Yong-fa,LUO Xue-hua,ZOU Bi-xia,WANG Da-peng,WANG Wen-bin.Effects of loss-controlled urea on ammonia volatilization,N translocation and utilization efficiency in paddy rice.[J].Chinese Journal of Applied Ecology,2018,29(1):133-140. |
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| Authors: | XUE Xin-xin WU Xiao-ping ZHANG Yong-fa LUO Xue-hua ZOU Bi-xia WANG Da-peng WANG Wen-bin |
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| Institution: | Rubber Research Institute/Soil and Fertilizer Center, Chinese Academy of Tropical Agriculture Science, Danzhou 571737, Hainan, China |
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| Abstract: | With the common urea split application (CU) as the control, a field experiment was conducted to examine the effects of loss-controlled urea by split application (LCUS) and loss-controlled urea by basal application (LCUB) on ammonia volatilization (NH3), nitrogen (N) nutrition status, grain yield and N utilization efficiency in rice plants. The results showed that the ratio of NH3 volatilization loss to total N application were 15.8%, 13.4% and 19.7% under the conditions of CU, LCUS and LCUB treatments, respectively. Compared to CU, LCUS significantly reduced the NH3 emission by 4.4 kg N·hm-2, with a decrease of 18.0%, while the LCUB significantly increased the NH3 emission by 7.2 kg N·hm-2, which increased by 24.7%. Compared to CU, LCUS increased the chlorophyll contents of leaf, the N content and N accumulation of seed and straw and grain yield, and significantly increased the N recovery efficiency by 7.6%, while significantly reduced the amount of N translocation, apparent N translocation rate and the rate of contribution to N in spike, respectively. However, compared to CU, LCUB significantly reduced the chlorophyll contents of leaf, the N content and accumulation of seed and straw as well as N utilization efficiency, but the grain yield, the amount of N translocation, apparent N translocation rate and the rate of contribution to N in spike were not affected. In conclusion, LCUS could maintain stable production, as well as decrease NH3 emission, improve N nutrition status and increase N utilization efficiency in rice plants. |
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