机构地区:[1]中国农业科学院农田灌溉研究所农业部作物需水与调控重点开放实验室,新乡453002 [2]中国电建集团中南勘测设计研究院有限公司,长沙410014
出 处:《农业工程学报》2016年第S1期63-70,共8页Transactions of the Chinese Society of Agricultural Engineering
基 金:国家高新技术研究发展计划项目(2011AA100502);公益性行业(农业)科研专项(201203077);现代农业小麦产业技术体系建设专项资金项目(CARS-3-1-30)资助
摘 要:为了提高Hargreaves公式在不同地区的适用性和准确性,提高区域作物需水量的估算精度和罐区灌溉管理水平,该文基于黄淮海地区54个气象站1961-2012年的逐日气象资料,以最高温度、最低温度、大气顶太阳辐射为自变量,以Penman-Monteith公式计算的参考作物蒸发蒸腾量为因变量,对Hargreaves公式主要参数进行拟合,并采用普通克里格方法进行空间化处理。结果表明:黄淮海地区全年和夏季转换系数K变化趋势相同,均从西北向东南逐渐增大,春、秋、冬季变化趋势则相反;全年和夏季指数系数n变化趋势相同,均从黄淮海的东南向西北逐渐增加,春、秋、冬季则从东北向西南逐渐增加;温度偏移量Toff总体表现为从西南向东北逐渐增加。率定后的Hargreaves公式与P-M公式的相关指数,全年最大,为0.79,春秋次之,分别为0.70和0.71,冬季最小,为0.46,拟合后相应参数的标准误表明拟合值全年最准确,冬季最差。In order to improve the applicability and accuracy of Hargreaves formula in different regions, and improve the estimation precision of regional crop water requirement and the level of irrigation management, the nonlinear fitting for the main parameters of the Hargreaves model in typical time scales(annual scale and quarter scale) was combined with the Kriging method in this study. The dependent variable was the reference crop evapotranspiration(ET0) calculated with the Penman-Monteith model, and the independent variables were the maximum and minimum temperature, and the atmospheric solar radiation. The long series of daily weather data from 1961 to 2012 was collected from 54 meteorological stations in the Huang-Huai-Hai Plain. Results indicated that the annual dynamics of the transformation coefficient K of the Hargreaves model was similar with the variation of K in summer. The K value increased gradually from the northwest to southeast in the Huang-Huai-Hai Plain. The key geographic factors controlling the distribution of K in the scale of year and summer were longitude and latitude, the correlation coefficient between K value and longitude all were 0.42, and which between K value and latitude were-0.37 and-0.47. However, the K value in spring, autumn and winter was opposite to the variation in summer, decreasing gradually from the northwest to southeast in this region, the correlations between K value and latitude in spring, between K value and elevation in autumn, between K value and longitude in winter were better, and the correlation coefficients were 0.43, 0.38,-0.48, respectively. The main meteorological factors controlling the distribution of K were the minimum temperature, sunshine hour and relative humidity. Changes in the exponential coefficient n in the scale of year and summer were similar, which increasing from the southeast to northwest in the Huang-Huai-Hai Plain gradually. The key geographic factors controlling the distribution of n in the scale of year was longitude, the correlation coefficient
关 键 词:作物 灌溉 估算 参考作物需水量 Hargreaves公式 黄淮海地区
分 类 号:S274[农业科学—农业水土工程]
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