The benefits of using remotely sensed soil moisture in parameter identification of large-scale hydrological models

N. Wanders*, M. P F Bierkens, S. M. de Jong, A. de Roo, Derek Karssenberg

*Corresponding author for this work

Research output: Contribution to journalArticleAcademicpeer-review

Abstract

Large-scale hydrological models are nowadays mostly calibrated using observed discharge. As a result, a large part of the hydrological system, in particular the unsaturated zone, remains uncalibrated. Soil moisture observations from satellites have the potential to fill this gap. Here we evaluate the added value of remotely sensed soil moisture in calibration of large-scale hydrological models by addressing two research questions: (1) Which parameters of hydrological models can be identified by calibration with remotely sensed soil moisture? (2) Does calibration with remotely sensed soil moisture lead to an improved calibration of hydrological models compared to calibration based only on discharge observations, such that this leads to improved simulations of soil moisture content and discharge? A dual state and parameter Ensemble Kalman Filter is used to calibrate the hydrological model LISFLOOD for the Upper Danube. Calibration is done using discharge and remotely sensed soil moisture acquired by AMSR-E, SMOS, and ASCAT. Calibration with discharge data improves the estimation of groundwater and routing parameters. Calibration with only remotely sensed soil moisture results in an accurate identification of parameters related to land-surface processes. For the Upper Danube upstream area up to 40,000 km2, calibration on both discharge and soil moisture results in a reduction by 10-30% in the RMSE for discharge simulations, compared to calibration on discharge alone. The conclusion is that remotely sensed soil moisture holds potential for calibration of hydrological models, leading to a better simulation of soil moisture content throughout the catchment and a better simulation of discharge in upstream areas.

Original languageEnglish
Pages (from-to)6874-6891
Number of pages18
JournalWater Resources Research
Volume50
Issue number8
DOIs
Publication statusPublished - Aug 2014

Keywords

  • Calibration
  • Ensemble Kalman Filter
  • Hydrological modeling
  • Microwave remote sensing
  • Soil moisture

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