Improved streamflow simulations by coupling soil moisture analytical relationship in EnKF based hydrological data assimilation framework.

Highlights • Coupled SMAR model with EnKF to update root zone soil moisture for improving streamflow. • Study involves both synthetic and real data experiments. • SMOS and ASCAT soil moisture retrievals are used for assimilation. • Proposed approach enhances the assimilation efficiency for streamflow simulations. • Streamflow simulations are improved but only to a moderate level. Abstract The present study investigates the potential of coupled Soil Moisture Analytical Relationship (SMAR) and Ensemble Kalman Filter (EnKF) based surface soil moisture data assimilation for improving the streamflow simulations. For this purpose, synthetic and real data assimilation experiments were carried out using Soil and Water Assessment Tool (SWAT) hydrological model in two different sub-catchments lying in the Krishna River basin, India. Here, the satellite-based surface soil moisture estimates from Soil Moisture and Ocean Salinity (SMOS) and Advanced Scatterometer (ASCAT) are used for assimilation. Results of the synthetic experiment show that the use of physically based SMAR scheme coupled with EnkF for updating profile soil moisture has better ability to improve the surface flow, groundwater flow and consequently streamflow over the covariance-based updates using EnKF only. Likewise, the real data assimilation experiment also shows SMAR-EnKF assimilation strategy performs better than the EnKF only updates for simulating streamflow. However, in both the synthetic as well as real data experiment, the improvements are only moderate. This restricted success in improving streamflow simulations indicate that updating only the soil moisture through any updating scheme adopted here is not sufficient to reduce the effect of the errors in model forcing on subsequent simulation days. [ABSTRACT FROM AUTHOR]