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喷灌田间小气候对作物蒸腾影响的田间试验研究 被引量:18

Field evaluating the effect of microclimate modification resulted from sprinkler irrigation on crop transpirations
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摘要 为准确评价喷灌水利用率,以地面灌为对照,利用热平衡茎流计对喷灌冬小麦和夏玉米的蒸腾速率进行了连续2年监测,结果表明,喷灌对田间小气候的改善使得作物的蒸腾受到明显抑制,就一次灌水而言,从喷灌启始至蒸腾抑制作用消失,喷灌处理冬小麦蒸腾量仅占地面灌处理的7%-14%,由冠层截留水量蒸发导致的蒸腾抑制量为1.7~4.1mm;夏玉米喷灌处理蒸腾量占地面灌处理的23%~42%,蒸腾抑制量为0.5~2.8mm。将截留水量与蒸腾抑制量进行比较可知,喷灌夏玉米冠层截留作用可能产生一定量的水分损失,而冬小麦冠层截留水量则在小麦耗水过程中是完全有效的。 The transpiration rates were measured using heat sap flow gauges during growing season of winter wheat and summer corn under sprinkler irrigation condition to evaluate the efficiency of irrigated water. The experimental results demonstrated that crop transpiration was obviously suppressed by microclimate modification resulted from sprinkler irrigation. For one irrigation event, the amounts of transpiration of winter wheat and summer corn were only 7% - 14% and 23% - 42% of those under surface irrigation respectively, and the amounts of transpiration suppression caused by evaporation of canopy intercepted water were 1.7mm - 4. 1 mm and 0.5mm - 2.8mm respectively, from the beginning of spraying to the vanishing of transpiration suppression. The amounts of transpiration suppression increased linearly with daily solar radiation and decreased linearly with daily average relative humidity. The effect of daily average air temperature was not significant. Transpiration suppression can entirely compensate the water losses caused by canopy interception for winter wheat, while the losses can only be partially compensated for summer corn.
作者 王迪 李久生 饶敏杰
机构地区 中国水利水电科学研究院水利研究所 中国农业科学院农业环境与可持续发展研究所
出处 《水利学报》 EI CSCD 北大核心 2007年第4期427-433,共7页 Journal of Hydraulic Engineering
基金 国家自然科学基金项目(50179037) 国家高技术发展计划(2006AA100212)资助
关键词 喷灌 冬小麦 夏玉米 冠层截留 蒸腾抑制 sprinkler irrigation winter wheat summer corn canopy interception transpiration suppression
分类号 S275.5 [农业科学—农业水土工程]
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参考文献20

  • 1Schneider A D, Howell T A. Reducing sprinkler water losses [M]. Sterling, CO. Proceedings of the Central Plains Irrigation Short Course, 1993.
  • 2Seginer I. Net losses in sprinkler irrigation [J]. Agricultural Meteorology, 1967,4:281-291.
  • 3McNaughton K G. Net interception losses during sprinkler irrigation [J]. Agricultural Meteorology, 1981,24:11-27.
  • 4Kraus J H. Application efficiency of sprinkler irrigation and its effects on microclimate [J]. Transactions of the ASAE, 1966,9:642-645.
  • 5杨晓光,陈阜,宫飞,宋冬梅.喷灌条件下冬小麦生理特征及生态环境特点的试验研究[J].农业工程学报,2000,16(3):35-37. 被引量:32
  • 6Frost K R, Schwalen H C. Evapotranspiration during sprinkler irrigation [J]. Transactions of the ASAE, 1960,3:18-24.
  • 7Frost K R. Factors affecting evapotranspiration losses during sprinkling [J]. Transactions of the ASAE, 1963,6:282-287.
  • 8Larsson S. Influence of intercepted water on transpiration and evaportion of salix[J]. Agricultural Meteorology, 1981,23:331-338.
  • 9Tolk J A, Howell T A, Steiner J L, Krieg D R. Role of transpiration suppression by evaporation of intercepted water in improving irrigation efficiency [J]. Irrigtion Science, 1995,16:89-95.
  • 10Goodell B C. A reappraisal of precipitation interception by plants and attendant water loss [J]. J. Soil. Water. Conservation, 1963,18:231-234.

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共引文献232

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引证文献18

二级引证文献252

水利学报
2007年 第4期

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