Abstract
Accurate estimation of evaporation (E0) over open water bodies in arid regions (e.g., lakes in the desert) is of great importance for local water resource management. Due to the ability to accurately determine sensible (H) and latent (LE) heat fluxes over scales of hundreds to thousands of meters, scintillometers are more and more appreciated. In this study, a scintillometer was installed on both sides of the shore over the Sumu Barun Jaran Lake in the Badain Jaran Desert and was applied to estimate the sensible and latent heat fluxes and evaporation to be compared with the data of an evaporation pan and an aerodynamic model. Based on the field data, we further analyzed the seasonal differences in the flux evaluation using water temperature at different depths at half-hour and daily time scales, respectively. The results showed that in cold seasons, values of H were barely affected by the changes of shallow water temperature, whereas in hot seasons, the values were changed by 20%–30% at the half-hour time scale and 6.2%–18.3% at the daily time scale. In different seasons, shallow water temperature at different depths caused changes in the range of 0%–20% of LE (E0). This study contributes to a better understanding of uncertainties in measurements by large-aperture scintillometers in open-water environments.
Highlights
Open water bodies such as reservoirs, dams, and lakes are indispensable components in regional-scale hydrological systems
To valid the reliability of scintillometer in the estimation of evaporation for water bodies, we compared its results with E601 evaporation pan measurements
The average daily evaporation measured by the evaporation pan and estimated by the scintillometer was 5.18 and 4.20 mm from May to June, and 5.89 and 4.90 mm from July to August, respectively
Summary
Open water bodies such as reservoirs, dams, and lakes are indispensable components in regional-scale hydrological systems. Accurate estimation of evaporation from water bodies is key in surface and subsurface hydrology and plays a crucial role in water resources management in arid regions [1,2,3,4,5,6]. In the past two decades, the eddy covariance system was developed to directly estimate the evaporation of open water bodies; its reliability has been verified by a large number of studies [9,10,11,12]. The scintillometer was developed and became popular in quantifying the heat fluxes over a greater spatial coverage, mostly applied to vegetation surfaces [13,14]. Researchers began to use the scintillometer to estimate latent heat fluxes in open water bodies [5,6,15,16]
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