李银坤, 梅旭荣, 武雪萍, 郝卫平, 陈敏鹏, 夏旭, 李昊儒. 不同水氮条件对日光温室冬春茬黄瓜栽培氨挥发的影响[J]. 中国生态农业学报(中英文), 2012, 20(11): 1413-1419. DOI: 10.3724/SP.J.1011.2012.01413
引用本文: 李银坤, 梅旭荣, 武雪萍, 郝卫平, 陈敏鹏, 夏旭, 李昊儒. 不同水氮条件对日光温室冬春茬黄瓜栽培氨挥发的影响[J]. 中国生态农业学报(中英文), 2012, 20(11): 1413-1419. DOI: 10.3724/SP.J.1011.2012.01413
LI Yin-Kun, MEI Xu-Rong, WU Xue-Ping, HAO Wei-Ping, CHEN Min-Peng, XIA Xu, LI Hao-Ru. Effects of irrigation and nitrogen application on ammonia volatilization in solar greenhouse soils in winter-spring cucumber cultivation[J]. Chinese Journal of Eco-Agriculture, 2012, 20(11): 1413-1419. DOI: 10.3724/SP.J.1011.2012.01413
Citation: LI Yin-Kun, MEI Xu-Rong, WU Xue-Ping, HAO Wei-Ping, CHEN Min-Peng, XIA Xu, LI Hao-Ru. Effects of irrigation and nitrogen application on ammonia volatilization in solar greenhouse soils in winter-spring cucumber cultivation[J]. Chinese Journal of Eco-Agriculture, 2012, 20(11): 1413-1419. DOI: 10.3724/SP.J.1011.2012.01413

不同水氮条件对日光温室冬春茬黄瓜栽培氨挥发的影响

Effects of irrigation and nitrogen application on ammonia volatilization in solar greenhouse soils in winter-spring cucumber cultivation

  • 摘要: 通过设置不同灌水、施氮处理, 采用通气法研究了温室土壤施肥带与非施肥带的氨挥发特征, 探讨了节水灌溉、减量施氮处理与传统水氮处理土壤氨挥发的差异及其影响因素。结果表明, 冬春季温室黄瓜土壤在氮肥基施7 d后出现氨挥发峰值, 减施氮25%处理的氨挥发峰值比传统施氮处理降低18.2%~34.3%; 追肥后, 施肥带和非施肥带的氨挥发速率峰值分别在第1 d和第5 d出现, 减施氮25%处理与传统施氮处理相比, 氨挥发速率峰值降低12.3%~37.2%; 节水灌溉处理与传统灌水处理相比, 氨挥发峰值则提高3.9%~47.0%。土壤中铵态氮含量以及温度的升高可促进土壤的氨挥发, 而土壤含水量则与氨挥发速率呈负相关。在黄瓜花期和初瓜期, 施肥带的累计氨挥发量显著高于非施肥带, 而初瓜期之后, 施肥带与非施肥带的氨挥发无显著差异。整个黄瓜生育季的累计氨挥发量为11.4~26.6 kg·hm-2; 与传统施氮和灌水处理相比, 减施氮25%处理的累计氨挥发量可降低20.8%~22.2%, 但节水灌溉处理的累计氨挥发量却有所增加, 增加幅度为0~4.51%。适宜减少灌水和氮肥用量不会降低黄瓜产量, 且可大幅度提高灌水和氮肥利用效率。

     

    Abstract: Ammonia volatilization characteristics in fertilized and non-fertilized belts of greenhouse soils were investigated under different irrigation and nitrogen application treatments during winter-spring cucumber cultivation via the venting method. Also differences in ammonia volatilization among water-saving irrigation, reduced nitrogen treatment and traditional water/nitrogen treatments were analyzed and discussed. From the study, peak ammonia volatilization rate was on 7 days after basal fertilization in the solar greenhouse soil. Compared with traditional nitrogen treatment, the peak value for 25%-reduction in nitrogen fertilization dropped by 18.2%~34.3%. While peak ammonia volatilization rate was on the first day in the fertilization belt, it was on the fifth day in the non-fertilization belt after topdressing. Also compared with traditional treatments, the peak value for 25%-reduction in nitrogen fertilization also dropped by 12.3%~37.2% and that for water-saving irrigation treatment increased by 3.9%~47.0%. Ammonia volatilization and loss in the fertilization belt of greenhouse soils mainly occurred during cucumber blooming and initial fruiting periods, which were respectively 1.07~1.50 and 1.06~1.27 times those of the non-fertilization belt. No significant differences in ammonia volatilization and loss existed between fertilization and non-fertilization belts of greenhouse soils during cucumber full-fruit period and end-fruit periods. Ammonia volatilization rate increased with (0~10 cm) soil ammonium nitrogen content and improvement in (5 cm) soil temperature. However, a negative correlation existed between (0~10 cm) soil water content and ammonia volatilization rate. Cumulative ammonia volatilization was 11.4~26.6 kg·hm-2 during the entire cucumber growth season. Compared with traditional nitrogen and irrigation treatments, cumulative ammonia volatilization in the 25%-reduction in nitrogen fertilization dropped by 20.8%~22.2%. Also water-saving irrigation treatments concurrently improved cumulative ammonia volatilization by 0~4.51%. The analysis showed that appropriate reductions in nitrogen fertilization significantly limited ammonia volatilization and enhanced irrigation/nitrogen fertilizer efficiency in solar greenhouse soils in Hebei Province. While water-saving also significantly improved irrigation/nitrogen fertilizer efficiency, it failed to significantly reduce ammonia volatilization. Irrigation water-use efficiency of the 25%-reduction in nitrogen fertilization improved by 2.6%~5.9% over traditional nitrogen treatment. Compared with traditional irrigation, agronomic efficiency of nitrogen in water-saving irrigation increased by 13.9%~75.0%.

     

/

返回文章
返回