Satellite inspired hydrology in an uncertain future: a H SAF and HEPEX workshop

Joint assimilation of soil moisture and flood extent maps retrieved from satellite earth observation into a conceptual hydrological model for improving flood prediction: a proof of concept study.

Speaker

Dr Renaud Hostache (Luxembourg Institute of Science and Technology, Environmental Research and Innovation Department)

Description

The main objective of this study is to investigate how innovative satellite earth observation techniques that allow for the estimation of soil moisture and the mapping of flood extents can help in reducing errors and uncertainties in conceptual hydro-meteorological modelling especially in ungauged areas where potentially no or limited runoff records are available. A spatially distributed conceptual hydrological model is first developed allowing for the simulation of soil moisture and flood extent. Using as forcing of this model rainfall and air temperature time series provided in the globally and freely available ERA5 database it is then possible to carry out long-term simulations of soil moisture, discharge and flood extent. Next, time series of soil moisture and flood extent observations derived from freely available satellite image databases are jointly assimilated into the hydrological model in order to retrieve optimal parameter sets. For this assimilation experiment, we take benefit of recently introduced Particle Filters with tempering that circumvent some of the usual particle filter limitations such as degeneracy and sample impoverishment. As a proof of concept, we set up an identical twin experiment based on synthetically generated observations and we evaluate the performance of the calibrated model.

Which session would you like to present in? 1. Remote sensing, hydrological modelling and data assimilation

Primary authors

Dr Renaud Hostache (Luxembourg Institute of Science and Technology, Environmental Research and Innovation Department) Dr Patrick Matgen (Luxembourg Institute of Science and Technology, Environmental Research and Innovation Department) Prof. Peter-Jan van Leeuwen (University of Reading, Department of Meteorology, Colorado State University, Department of Atmospheric Science) Prof. Nancy Nichols (University of Reading, Department of Meteorology) Dr Marco Chini (Luxembourg Institute of Science and Technology, Environmental Research and Innovation Department) Dr Ramona Pelich (Luxembourg Institute of Science and Technology, Environmental Research and Innovation Department) Dr Carole Delenne (Univ. Montpellier, HydroSciences Montpellier, Inria, Lemon)

Presentation materials