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Advances in Geosciences An open-access journal for refereed proceedings and special publications

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Adv. Geosci., 29, 77-84, 2011
© Author(s) 2011. This work is distributed
under the Creative Commons Attribution 3.0 License.
01 Mar 2011
The use of MOGREPS ensemble rainfall forecasts in operational flood forecasting systems across England and Wales
J. Schellekens1, A. H. Weerts1, R. J. Moore2, C. E. Pierce3, and S. Hildon4 1Inland Water Systems, Deltares, Delft, The Netherlands
2Joint Centre for Hydro-Meteorological Research, Centre for Ecology and Hydrology, Wallingford, UK
3Joint Centre for Hydro-Meteorological Research, Met Office, Wallingford, UK
4Flood Risk Science, Environment Agency, Leeds, UK
Abstract. Operational flood forecasting systems share a fundamental challenge: forecast uncertainty which needs to be considered when making a flood warning decision. One way of representing this uncertainty is through employing an ensemble approach. This paper presents research funded by the Environment Agency in which ensemble rainfall forecasts are utilised and tested for operational use. The form of ensemble rainfall forecast used is the Met Office short-range product called MOGREPS. It is tested for operational use within the Environment Agency's National Flood Forecasting System (NFFS) for England and Wales. Currently, the NFFS uses deterministic forecasts only. The operational configuration of the NFFS for Thames Region is extended to trial the use of the new ensemble rainfall forecasts in support of probabilistic flood forecasting. Evaluation includes considering issues of model performance, configuration (how to fit the ensemble forecasts within the current configurations), data volumes, run times and options for displaying probabilistic forecasts. Although ensemble rainfall forecasts available from MOGREPS are not extensive enough to fully verify product performance, it is concluded that their use within current Environment Agency regional flood forecasting systems can provide better information to the forecaster than use of the deterministic forecasts alone. Of note are the small number of false alarms of river flow exceedance generated when using MOGREPS as input and that small flow events are also forecasted rather well, notwithstanding the rather coarse resolution of the MOGREPS grid (24 km) compared to the studied catchments. In addition, it is concluded that, with careful configuration in NFFS, MOGREPS can be used in existing systems without a significant increase in system load.

Citation: Schellekens, J., Weerts, A. H., Moore, R. J., Pierce, C. E., and Hildon, S.: The use of MOGREPS ensemble rainfall forecasts in operational flood forecasting systems across England and Wales, Adv. Geosci., 29, 77-84, doi:10.5194/adgeo-29-77-2011, 2011.