Fig 1.
Location of the study area in agro-pastoral ecotone of northwest China.
Fig 2.
Validation scatter plot of the SEBAL model inversion results and meteorological data.
Table 1.
Daily average evapotranspiration in the study area.
Fig 3.
Spatiotemporal distribution of daily evapotranspiration in the agro-pastoral ecotone of northwest China.
Fig 4.
The linear relationship between evapotranspiration and meteorological factors.
Table 2.
Sensitivity classification.
Table 3.
Evapotranspiration changes and sensitivity indices from the changes in water vapor.
Table 4.
Changes in evapotranspiration and sensitivity indices from the changes in hot surface temperature.
Fig 5.
Spatial distribution of the normalized vegetation index, surface temperature, surface albedo and the net radiation flux in the agro-pastoral ecotone of northwest China.
Fig 6.
Correlation between the daily evapotranspiration and surface parameters in the agro-pastoral ecotone of northwest China.
Fig 7.
Spatial distribution of (a) land use types and (b) daily evapotranspiration in agro-pastoral ecotone of northwest China.
Table 5.
Daily evapotranspiration data for different land use types.