Abstract
Inland water storage change is a fundamental part of the hydrologic cycle, which reflects the impact of climate change and anthropogenic activities on water resources. In this study, we used multisatellite data (from satellite altimetry, remote sensing, and the Gravity Recovery and Climate Experiment (GRACE)) to investigate water storage changes in the Aral Sea and its endorheic basin. The water storage depletion rate in the Aral Sea from calibrated hypsometric curves (CHCs) created by satellite altimetry and image data agrees with the GRACE-derived result using the Slepian space domain inverse method (SSDIM). Compared with the combined filtering method (CFM) and mascon solutions, the SSDIM was shown to be an effective method of reducing the GRACE leakage error and restoring the signal attenuation in the Aral Sea. Moreover, we used the WaterGAP global hydrology model (WGHM) to qualitatively analyze the variations in the water storage components. The results show that the groundwater in the Aral Sea affects the change in the interannual water storage, especially during the extreme dry and humid periods. However, from the long-term water storage trend, the decrease in the surface storage dominates the shrinking of the Aral Sea. In addition, more details of the water storage change pattern in the endorheic basin were revealed by the enhanced GRACE solution. Our findings accentuate the severe water storage states of the Aral Sea endorheic basin under the impact of climate change and human interventions.
Highlights
Lake water storage change is a sensitive indicator of regional climate change and human activities
Previous studies have mainly focused on the overall trend in the terrestrial water storage (TWS) variations derived from GRACE data in the basin [22,23,24], which is insufficient for understanding the variability in the water storage under the impact of human interventions and climate change
Our work focused on the water storage changes in the Aral Sea and its endorheic basin by integrating satellite observations and hydrological model outputs
Summary
Lake water storage change is a sensitive indicator of regional climate change and human activities. Previous studies have mainly focused on the overall trend in the TWS variations derived from GRACE data in the basin [22,23,24], which is insufficient for understanding the variability in the water storage under the impact of human interventions and climate change. Another purpose of this paper was to assess the spatio-temporal variation in the water storage with an enhanced GRACE data processing strategy and to determine possible causes for this pattern in the Aral Sea endorheic basin. We discussed the impact of climate change and human activities on the water storage changes in the endorheic basin
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