535-2 Comparison of Estimated Surface Energy Fluxes Using METRIC and Two-Source Algorithms for Advective Conditions.

Poster Number 221

See more from this Division: A03 Agroclimatology & Agronomic Modeling
See more from this Session: Scale and the Water Balance (Posters)

Monday, 6 October 2008
George R. Brown Convention Center, Exhibit Hall E

Osama Akasheh1, Prasanna Gowda2, Terry Howell2, Bridget Scanlon3 and Andrew French4, (1)Biological and Irrigation Engineering, Utah State University, Logan, UT
(2)Conservation and Production Research Laboratory, USDA-ARS, Bushland, TX
(3)Univ. of Texas, Austin, Austin, TX
(4)U.S. Water Conservation Lab, Maricopa, AZ
Abstract:
Evapotranspiration (ET) has been long been recognized as the most important process that plays an essential role in determining exchanges of energy and mass between the hydrosphere, atmosphere and biosphere. In agriculture, it is a major consumptive use of irrigation water and precipitation. In this study, we applied the METRIC (Mapping ET at high resolutions with internal calibration) and Two-Source Model (TSM) to estimate daily ET from the Advanced Spaceborne Thermal Emission and Reflection Radiometer (ASTER) data for the highly advective Texas High Plains where more than 90 percent of the groundwater withdrawals are used for irrigation. Two ASTER images, acquired during the 2007 cropping season (July 11 and September 13), covering a portion of the Texas High Plains including Bushland that houses USDA-ARS Conservation and Production Research Laboratory were used. Atmospheric correction on the ASTER images was done using the MODTRAN, an atmospheric radiative transfer model. Performance of the TSM was evaluated by comparing estimated daily ET with measured data on four large lysimeters in Bushland, TX [350 11' N, 1020 06' W; 1,170 m elevation MSL] managed by the USDA-ARS-Conservation and Production Research Laboratory. Both METRIC and TSM produced similar results and are suitable for estimating ET over Texas High Plains. However, more evaluation is needed for different agroclimatological conditions in the region.

See more from this Division: A03 Agroclimatology & Agronomic Modeling
See more from this Session: Scale and the Water Balance (Posters)