The maize evapotranspiration in the background of climate change: a case study in arid area     

Buchun Liu  Xurong Mei  Guohua Lv  Youlu Yang  Meilan Bai  Yongfeng Wu  Jiqing Song  Wenbo Bai 《水文研究》2012,26(5):633-639

  相似文献   

Estimation of land surface evapotranspiration over the Heihe River basin based on the revised three‐temperature model     

Xinping Luo  Keli Wang  Hao Jiang  Jia Sun  Qingliang Zhu 《水文研究》2012,26(8):1263-1269

  相似文献   

Spatial modelling of reference evapotranspiration using adjusted Blaney-Criddle equation in an arid environment     

Hossein Tabari  B. Shifteh Some'e 《水文科学杂志》2013,58(2):408-420

Abstract

The Blaney-Criddle (BC) temperature-based equation is used in areas where the complete weather data to estimate reference evapotranspiration (ET₀) by the Penman-Monteith FAO-56 (PMF-56) standard model is complex. In this study, the BC equation was first tested and calibrated against the ET₀ values computed by the PMF-56 method using data from 17 weather stations in arid regions of Iran. Then, geographical information systems (GIS)-based spatially-distributed maps of ET₀ were prepared by means of geographic/topographic factors derived from a digital elevation model (DEM) for all months, separately. The results indicate that the original BC equation overestimated PMF-56 ET₀ by 4% at the study sites. The BC equation produced closer ET₀ estimates to the PMF-56 method after it was calibrated. The error rate of <3% for the spatial modelling approach suggests that the developed ET₀ maps are reliable.

Editor D. Koutsoyiannis; Associate editor D. Yang

Citation Tabari, H., Hosseinzadeh Talaee, P., and Shifteh Some'e, B., 2013. Spatial modelling of reference evapotranspiration using adjusted Blaney-Criddle equation in an arid environment. Hydrological Sciences Journal, 58 (2), 408–420.  相似文献   

Characteristics of canopy interception loss in Moso bamboo forests of Japan     

Yoshinori Shinohara  Kohei Kuramoto  Kyoichi Otsuki 《水文研究》2013,27(14):2041-2047

In recent years, Moso bamboo (Phyllostachys pubescens) forests have rapidly expanded in Japan by replacing surrounding coniferous and/or broadleaved forests. To evaluate the change in water yield from forested areas because of this replacement, it is necessary to examine evapotranspiration for Moso bamboo forests. However, canopy interception loss, one of the major components of evapotranspiration in forested areas, has been observed in only two Moso bamboo forests in Japan with relatively high stem density (~7000 stems/ha). There are, in fact, many Moso bamboo forests with much lower stem density. Thus, we made precipitation (Pr), throughfall (Tf) and stemflow (Sf) observations for 1 year in a Moso bamboo forest with stem density of 3611 stems/ha and quantified canopy interception loss (Ic). Pr and Ic for the experimental period were 1636 and 166 mm, respectively, and Ic/Pr was 10%. The value was approximately the same as values for the other two Moso bamboo forests and lower than values for coniferous and broadleaved forests. On the other hand, Tf/Pr and Sf/Pr for our forest (86% and 4%, respectively) were approximately 10% of Pr larger and smaller than values for the other two Moso bamboo forests. These results suggest that the difference in stem density greatly affects precipitation partitioning (i.e. Tf/Pr and Sf/Pr) but does not greatly change Ic/Pr. Copyright © 2012 John Wiley & Sons, Ltd.  相似文献   

Estimation of actual evapotranspiration from an alluvial aquifer of the Kouris catchment (Cyprus) using continuous streamflow records     

Anastasia Boronina  Sergey Golubev  Werner Balderer 《水文研究》2005,19(20):4055-4068

The Kouris catchment is located in the south of the Troodos massif in Cyprus. The hydrology is driven by a Mediterranean climate, a mountainous topography, and a complex distribution of hydrogeological properties resulting from complex geology. To quantify the regional water balance further, a simple method using continuous streamflow records in the River Limnatis (Kouris catchment) was applied to calculate the actual evapotranspiration rate in the dry seasons. It was found that daily cycles of streamflow, recorded by automatic pressure logger, were caused by direct evaporation from the groundwater table and by transpiration of riparian forest. The daily amounts of ‘missing’ streamflow were calculated for the period 30 October–4 November 2001 and were extrapolated to the entire dry season and to the whole Kouris catchment. The actual evapotranspiration rate from the alluvial aquifer of the region is 2·4 ± 0·5 Mm³ for April–September 2001. The validity of the assumptions and the uncertainties in the estimates used in the method are discussed. Copyright © 2005 John Wiley & Sons, Ltd.  相似文献   

祁连山北坡水热条件对林草分布的影响     

陈昌毓 《山地学报》1993,(2)

采用气候学方法,计算了祁连山北坡不同海拔处的年降水量和乔木林年蒸散量,据此确定了满足乔木林需水的高度带。分析所得的7月均温10℃和6℃,可分别作为乔木林和灌木林生长的温度下限指标。据祁连山北坡水热条件的分布特点,确定了海拔2500—3200米处适宜发展乔木林,其生长以海拔2700—2900米处为最佳,海拔3200—3700米处适宜发展灌木林,其余山区只能生长草类。  相似文献   

近30年来中国气候的干湿变化   总被引：27，自引：1，他引：27  

张庆云  陈烈庭 《大气科学》1991,15(5):72-81

本文利用1951—1980年的月平均温度,计算了中国各地水分需要量。根据水分需要量和降水量大小,将我国划分成潮湿、湿润、半湿润、半干燥和干燥5类气候区;并对这5个气候区1950年前后各30年时段的气候干湿状况进行讨论;此外还对影响气候干湿变化的重要因子,我国近30年来的降水进行了分析。 近3O多年来,各气候区的降水及气候状况呈现了不同的变化:潮湿和湿润气候区50年代降水较多,60年代降水偏少,70年代降水呈多变态;半湿润和半干燥气候区50年代至60年代中期为多雨时段,1965年始,降水偏少,处于少雨阶段,  相似文献   

A world model of soil carbon dioxide     

George A. Brook  Michael E. Folkoff  Elgene O. Box 《地球表面变化过程与地形》1983,8(1):79-88

Mean growing season soil PCO₂ data were obtained for 19 regions of the world in nine countries. Bivariate and multiple linear regression analysis with soil log(PCO₂) as the dependent variable and TEMP, PRECIP, log(AET), and log(PET) as the four climatic independent variables demonstrated that AET was the best independent predictor of soil PCO₂. An improved soil PCO₂-AET model was developed by assuming (1) that as AET approaches zero, soil PCO₂ approaches the atmospheric value and (2) that there is an upper limit to soil PCO₂ at very high AET. This model has the form log(PCO₂) = ?3·47 + 2·09 (1 ?e^{?0·0172 AET}) where AET is in mm. It explains 67 per cent of the initial variation in the soil PCO₂ data, predicts a soil log(PCO₂) of ? 3·47 at AET = 0, and an upper limit of 3·5 per cent (log(PCO₂) = ? 1·45) for mean growing season soil PCO₂ at AET values of 2000 mm and above. The results of this study suggest that soil PCO₂ levels in tropical areas are, on average, higher than those in temperate, alpine, and arctic regions.  相似文献   

塔里木河流域白杨农田防护林蒸散量估算模型     

李岳坦  胡顺军  李新虎  李修仓 《干旱区地理》2007,30(1):115-120

以水面蒸发量为基础,利用多年的白杨农田防护林试验资料,建立了塔里木河流域白杨农田防护林蒸散量的两种估算模型,并利用白杨林实际蒸散量的测量值,分别对两种模型进行了验证。结果表明,从总体上来说,模型(Ⅰ)计算精度较高,但两种模型的相对误差都不是很大,都可以作为计算塔里木河流域白杨农田防护林蒸散量的方法而使用,但要根据具体情况加以应用。  相似文献   

以黄淮海为例研究农田实际蒸散量   总被引：19，自引：0，他引：19  

王菱  倪建华 《气象学报》2001,59(6):784-794

以田间实验资料为基础 ,建立农田蒸散量和土壤相对含水量与潜在蒸散的函数关系。利用这种函数关系 ,计算黄淮海地区 ,在自然条件下农田蒸散量的变化。结果表明 ,黄淮海农田蒸散量的年变化呈双峰型 ,第一峰值出现在冬小麦抽穗开花期 ,第二高峰出现在夏玉米抽雄开花期。农田蒸散的区域分布趋势与自然降水分布相一致 ,在量值上约等于降水量的 84%  相似文献