EMS Annual Meeting Abstracts
Vol. 18, EMS2021-146, 2021
https://doi.org/10.5194/ems2021-146
EMS Annual Meeting 2021
© Author(s) 2021. This work is distributed under
the Creative Commons Attribution 4.0 License.

Evaluating sub-seasonal heatwave reforecasts of the ECMWF over Europe

Natalia Korhonen, Otto Hyvärinen, Matti Kämäräinen, and Kirsti Jylhä
Natalia Korhonen et al.
  • Weather and Climate Change Impact Research, Finnish Meteorological Institute, Finland

Severe heatwaves have harmful impacts on ecosystems and society. Early warning of heat waves help with decreasing their harmful impact. Previous research shows that the Extended Range Forecasts (ERF) of the European Centre for Medium-Range Weather Forecasts (ECMWF) have over Europe a somewhat higher reforecast skill for extreme hot summer temperatures than for long-term mean temperatures. Also it has been shown that the reforecast skill of the ERFs of the ECMWF was strongly increased by the most severe heat waves (the European heatwave 2003 and the Russian heatwave 2010).

Our aim is to be able to estimate the skill of a heat wave forecast at the time the forecast is given. For that we investigated the spatial and temporal reforecast skill of the ERFs of the ECMWF to forecast hot days (here defined as a day on which the 5 days running mean surface temperature is above its summer 90th percentile) in the continental Europe in summers 2000-2019. We used the ECMWF 2-meter temperature reforecasts and verified them against the ERA5 reanalysis. The skill of the hot day reforecasts was estimated by the symmetric extremal dependence index (SEDI) which considers both hit rates and false alarm rates of the hot day forecasts. Further, we investigated the skill of the heatwave reforecasts based on at which time steps of the forecast the hot days were forecasted. We found that on the mesoscale (horizontal scale of ~500 km) the ERFs of the ECMWF were most skillful in predicting the life cycle of a heat wave (lasting up to 25 days) about a week before its start and during its course. That is, on the mesoscale those reforecasts, in which hot day(s) were forecasted to occur during the first 7…11 days, were more skillful on lead times up to 25 days than the rest of the heat wave forecasts. This finding is valuable information, e.g., in the energy and health sectors while preparing for a coming heat wave.

The work presented here is part of the research project HEATCLIM (Heat and health in the changing climate) funded by the Academy of Finland.

How to cite: Korhonen, N., Hyvärinen, O., Kämäräinen, M., and Jylhä, K.: Evaluating sub-seasonal heatwave reforecasts of the ECMWF over Europe, EMS Annual Meeting 2021, online, 6–10 Sep 2021, EMS2021-146, https://doi.org/10.5194/ems2021-146, 2021.

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