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On the predictability of the extreme summer 2003 over Europe

On the predictability of the extreme summer 2003 over Europe. Antje Weisheimer ECMWF and Oxford University Francisco Doblas-Reyes, Thomas Jung and Tim Palmer Thanks to Gianpaolo Balsamo, Peter Bechtold, Martin K ö hler and Jean-Jacques Morcrette.

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On the predictability of the extreme summer 2003 over Europe

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  1. On the predictability of the extreme summer 2003 over Europe Antje Weisheimer ECMWF and Oxford University Francisco Doblas-Reyes, Thomas Jung and Tim Palmer Thanks to Gianpaolo Balsamo, Peter Bechtold, Martin Köhler and Jean-Jacques Morcrette

  2. the summer (JJA) 2003 was the hottest summer in historical records over Central and Southern Europe • very dry conditions over land • quasi-barotropic atmospheric structure with positive geopotential anomaly in middle troposphere and heat low 2m temp (ERA-40/oper.anal) precipitation (GPCP) Z500 (ERA-40/oper.anal) observed anomalies wrt 1991-2005

  3. Sources of seasonal predictability Atmospheric predictability arises through slow fluctuations in the evolution of atmospheric boundary conditions. • IMPORTANT FACTORS: • El Niño variability  biggest singlesignal • other tropical ocean - important, but multifacetedtemperatures • climate change - trends in midlatitudes • local land surface - e.g. soil moisture in 2003conditions • OTHER FACTORS: • ocean temperatures in - controversialmid latitudes • snow cover - not well known • sea ice anomalies - not well known • atmospheric dynamic memory - approx. 1-2 months • stratospheric influences - downward propagation of anomalies

  4. Seasonal retrospective forecast lead time: 2-4 months (JJA) • Initialisation on 1st May: • ERA-40/oper.analysis • ocean re-analysis ORA-S3 • 9 ensemble members by sampling: • ocean analysis + SSTs • singular vectors • stochastic physics IFS atmosphere T159L62 CY31R1 HOPE ocean 1˚ OASIS2 coupled model Seasonal forecasting at ECMWF

  5. probability density T2m anomaly r=0.79 hit rate analysis model ROCSS= 0.74 false alarm rate Re-forecasts for JJA T2m over Southern Europe (land) 1960-2005 re-forecasts ROC diagrams upper tercile

  6. r=0.40 hit rate analysis model ROCSS= 0.15 false alarm rate Re-forecasts for JJA T2m over Southern Europe (land) 1960-2005 re-forecasts detrended (1978-2005) ROC diagrams upper tercile

  7. forecast (50 ensemble members) observed anomaly analysis climate model climate ******* Z500 2m Temp precipitation Seasonal re-forecast of JJA 2003 with the operational system S3 T2m anomaly over Southern Europe land points re-forecast period: 1991-2005 model obs

  8. Seasonal re-forecast of JJA 2003 with the operational system S3 total soil moisture JJA model climatology 1991- 2005 anomaly JJA 2003 anomaly June 2003 anomaly July 2003 anomaly August 2003 anomaly May 2003

  9. land surface vertical diffusion radiation convection CY33R1 – an improved cycle of the atmospheric model H-TESSEL • new soil hydrology • H-TESSEL • global soil texture • new hydraulic properties • variable infiltration (capacity and surface run-off) Balsamo et al. (2009) McRad: new (RRTM) SW scheme, McICA cloud-radiation interaction,MODIS land surface albedo reduced vertical mixing convective entrainment  more active scheme

  10. forecast (9 ensemble members) observed anomaly analysis climate model climate ******* CY33R1 – an improved cycle of the atmospheric model T2m anomaly over Southern Europe land points hindcast period: 1991-2005

  11. forecast (50 ensemble members) observed anomaly analysis climate model climate ******* Z500 2m Temp precipitation model obs CY33R1 – an improved cycle of the atmospheric model T2m anomaly over Southern Europe land points re-forecast period: 1991-2005

  12. land surface vertical diffusion sensitivity experiments by switching back individual physics schemes to their CY31R1 versions radiation convection total soil moisture anomalies June 2003 May 2003 July 2003 August 2003

  13. land surface July 2003 May 2003 June 2003 August 2003 Sensitivity to land surface parametrisation T2m anomaly over Southern Europe land points CY33R1 with HTESSEL  TESSEL Z500 2m temp precipitation soil moisture

  14. convection Z500 2m temp precipitation July 2003 May 2003 June 2003 August 2003 Sensitivity to parametrisation of convection T2m anomaly over Southern Europe land points CY33R1 with CY31R1 convection

  15. radiation Z500 2m temp precipitation May 2003 July 2003 June 2003 August 2003 Sensitivity to radiation parametrisation T2m anomaly over Southern Europe land points CY33R1 with CY31R1 radiation

  16. Summary • Predictive skill for 2m temperature in summer over Southern Europe is relatively high, partly due to the warming trend • Seasonal re-forecasts of JJA 2003 with the still operational model version (S3) showed no sign of an unusual warm summer • Combined improved physical parameterization schemes (HTESSEL, convection, radiation) from NWP have remarkable positive impact on re-forecast near the surface and in the free atmosphere • H-TESSEL is able to persist initial soil moisture anomaly into summer • Interplay of local (atmosphere-land) and remote processes (large- scale dynamics, convection over Sahel?)

  17. Weisheimer, A., F. Doblas-Reyes, T. Jung and T. Palmer (2011): On the predictability of the extreme summer 2003 over Europe. Geophys. Res. Lett., 38, L05704, doi:10.1029/2010GL046455

  18. forecast (50 ensemble members) observed anomaly analysis climate model climate ******* Seasonal re-forecast of JJA 2003 with the uncoupled operational system hindcast period: 1991-2005 Wrong signal! Z500 2m Temp precipitation

  19. total soil moisture anomalies June 2003 May 2003 July 2003 August 2003 May 2003 JJA 2003 JJA climatology SW surface radiation LW surface radiation

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