Abstract
Spatially distributed actual evapotranspiration (ETa) val- ues were estimated based on satellite data and the Surface Energy Balance System (SEBS) approach for the Karkheh River Basin, Iran. Nineteen cloud free MODIS (Moderate Resolution Imaging Spec- troradiometer) images, representing a complete cropping year from November 2002 to October 2003 were acquired and processed. Esti- mated ETa values were verified using sub-catchment scale water bal - ance analysis. The results revealed that during the study period ETa was estimated at 16680x10 6 m 3 and that the water balance closure terms at sub-basin scale ranged from 0.6% to 7.2% of precipitation. This implies that water balance is sufficiently understood. Estimated outflow from the basin was 7.8% of precipitation and indicates that water is a very scarce resource in the Karkheh. Rain fed areas con- sume about 3720 x10 6 m 3 /year and are mainly located in the sub- catchments of the upper Karkheh while irrigated areas consume 2680x 10 6 m 3 /year and are mainly located in the lower areas in the basin. Total water consumption by forest is about 2070×10 6 m 3 /year, mainly in the middle parts of the basin. The range lands are scattered mainly all over the Upper Karkheh and together with areas in the Lower Karkheh consume about 3360×10 6 m 3 /year. ETa from other land uses is 4110×10 6 m 3 /year, of which ETa from open water surfac- es is the main contributor. The Karkheh Dam evaporates 80×10 6 m 3 / year while wetlands located in the lower area of the basin evaporate 660×10 6 m 3 /year. Satellite data along with the SEBS algorithm and geo-statistical techniques are effective to estimate spatial patterns of water consumption and availability. These facilitate the introduction of diverse management interventions to different areas in the basin based on the real ground situation.
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