Status of COSMO-ME-EPS system



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Status of COSMO-ME-EPS system Francesca Marcucci, Lucio Torrisi, Stefano Sebastianelli* CNMCA, National Meteorological Center,Italy * ISMAR-CNR, Venice, Italy

Outline The COSMO-ME EPS system Evaluation of EPS scores First probabilistic products A sea state EPS: NETTUNO-EPS Future developments

CNMCA NWP SYSTEM Ensemble Data Assimilation 10 km 45 v.l. LETKF Analysis Control State Analysis COSMO-ME (7km) ITALIAN MET SERVICE COSMO-ME EPS (pre-operational) 2.8 km 65 v.l. - compressible equations - explicit convection 7 km 40 v.l. - compressible equations - parameterized convection Local Area Modelling: COSMO

The COSMO-ME EPS SYSTEM The CNMCA-LETKF data assimilation system is operationally used to initialize the highresolution non-hydrostatic model COSMO integrated over the Mediterranean-European region. The atmospheric short-range ensemble prediction system based on the LETKF system and the COSMO model is under testing at CNMCA since july 2013 MAIN CHARACTERISTICS: Domain and resolution: Mediterranean-European domain 0.09 grid spacing (~10 km) and 45 vertical levels 40+1 ensemble members IC and BC: initial conditions are derived every 6 hours from the CNMCA-LETKF system. Lateral boundaries conditions are from IFS deterministic run perturbed using ECMWF-EPS. Surface perturbations: climatological perturbed sea surface temperature. Model error: stochastics physics perturbation tendencies. Forecast range: the 40+1 COSMO forecast members will run up to 48 hours at 00 UTC. 4

COSMO-ME EPS Calibration First results : 1 jul 2013 31 dec 2013

SPREAD-SKILL DIAGRAM U-WIND (5 BINS, IFS-ANALYSIS) 300 hpa 500 hpa 700 hpa 850 hpa Slide 4 di 30

SPREAD-SKILL DIAGRAM U-WIND (5 (5 BINS, OBS OBS TEMP, NO_ERR_OBS) 300 hpa 500 hpa 700 hpa 850 hpa Slide 5 di 30

COSMO ME EPS - CRPS CDF observation CDF ensemble Hersbach (2000) Slide 6 di 30

CRPS U-WIND (1 BIN, IFS-ANALYSIS) 300 hpa 500 hpa 700 hpa 850 hpa Slide 7 di 30

12 RANK HISTOGRAM U-WIND @ 700 HPA +12h 36 +36h 36840296 IFS-ANALYSIS 24 48 +24h +48h Slide 9 di 30

12 RANK HISTOGRAM U-WIND @ 700 HPA TEMP-OBS 36 +12h +24h NO ERR OBS 24 48 +36h +48h Slide 11 di 30

12 RANK HISTOGRAM U-WIND @ 300 HPA TEMP-OBS 36 +12h +24h NO ERR ERR OBS OBS 24 48 +36h +48h Slide 12 di 30

FORECAST PROBABILITY CNMCA Production using Fieldextra (1/3): INPUT DESCRIZIONE OUTPUT THRESHOLD t (h) fc (h) OPE CLCL Nuvolosità bassa Forecast probability soglie 0.5, 0.875 (%) 0 +0 +48 (+6) - CLCT Nuvolosità totale Forecast probability soglie 0.5, 0.875 (%) 0 +0 +48 (+6) - CLCT_RED Nuvolosità totale (AWI) Forecast probability in range di soglie 0, 5, 25, 65, 95, 101 (%) 0 +6 +48 (+3) - DD_10M Direzione del vento a 10 m Forecast probability in range di soglie 0, 22.5, 67.5, 112.5, 157.5, 202.5, 247.5, 292.5, 337.5, 360 ( ) 0 +0 +48 (+3) - FF_10M Modulo della velocità del vento a 10 m eps_standard_deviation - - +0 +48 (+3) - HS_WAVE Altezza significativa delle onde del mare Forecast probability soglie 0.1, 0.5, 1.25, 2.5, 4, 6, 9, 14 (m) 0 +0 +48 (+6) - HS_WAVE Altezza significativa delle onde del mare eps_standard_deviation - - +0 +48 (+3) - PHEN Fenomeno (AWI) Forecast probability soglie 10, 20, 31, 32, 33, 41, 42, 43, 51, 52, 53 0 +6 +48 (+3) - T_2M Temperatura a 2 m eps_standard_deviation - - +0 +48 (+3) - TMAX_2M Temperatura massima a 2 m Forecast probability soglie -10, 0, 25, 30, 32, 35, 38, ( C) TMAX_2M Temperatura massima a 2 m Forecast probability soglie -10, 0, 25, 30, 32, 35, 38, ( C) 6 +6 +48 (+6) max 12 +12 +48 (+6) max Slide 13 di 30

FORECAST PROBABILITY CNMCA Production using Fieldextra (2/3): INPUT DESCRIZIONE OUTPUT THRESHOLD t (h) fc (h) OPE TMAX_2M Temperatura massima a 2 m Forecast probability soglie -10, 0, 25, 30, 32, 35, 38, ( C) 24 +24 +48 (+6) max TMIN_2M Temperatura minima a 2 m Forecast probability soglie -20, -10, -5, 0, 5, 20 ( C) 6 +6 +48 (+6) min TMIN_2M Temperatura minima a 2 m Forecast probability soglie -20, -10, -5, 0, 5, 20 ( C) 12 +12 +48 (+6) min TMIN_2M Temperatura minima a 2 m Forecast probability soglie -20, -10, -5, 0, 5, 20 ( C) 24 +24 +48 (+6) min TOT_PREC Precipitazione totale (RAIN_GSP + RAIN_CON + SNOW_GSP + SNOW_CON) Forecast probability soglie 10, 20, 30, 40, 50, 80, 100, 150 (mm) 6 +6 +48 (+6) delta TOT_PREC Precipitazione totale (RAIN_GSP + RAIN_CON + SNOW_GSP + SNOW_CON) Forecast probability soglie 10, 20, 30, 40, 50, 80, 100, 150 (mm) 12 +12 +48 (+6) delta TOT_PREC Precipitazione totale (RAIN_GSP + RAIN_CON + SNOW_GSP + SNOW_CON) Forecast probability soglie 10, 20, 30, 40, 50, 80, 100, 150 (mm) 24 +24 +48 (+6) delta TOT_SNOW Precipitazione nevosa totale (SNOW_GSP + SNOW_CON) Forecast probability soglie 1, 5, 10, 15, 20, 25, 30, 35, 40, 50, 80 (cm) 6 +6 +48 (+6) delta TOT_SNOW Precipitazione nevosa totale (SNOW_GSP + SNOW_CON) Forecast probability soglie 1, 5, 10, 15, 20, 25, 30, 35, 40, 50, 80 (cm) 12 +12 +48 (+6) delta Slide 14 di 30

FORECAST PROBABILITY CNMCA Production using Fieldextra (3/3): INPUT DESCRIZIONE OUTPUT THRESHOLD t (h) fc (h) OPE TOT_SNOW Precipitazione nevosa totale (SNOW_GSP + SNOW_CON) Forecast probability soglie 1, 5, 10, 15, 20, 25, 30, 35, 40, 50, 80 (cm) 24 +24 +48 (+6) delta VMAX_10M Velocità massima del vento a 10 m Forecast probability soglie 40, 45, 50.4, 60, 64.8, 75.6, 90, 100, 104.4, 118.8, 140,4 (km/h) 6 +6 +48 (+6) max VMAX_10M Velocità massima del vento a 10 m Forecast probability soglie 40, 45, 50.4, 60, 64.8, 75.6, 90, 100, 104.4, 118.8, 140,4 (km/h) 12 +12 +48 (+6) max VMAX_10M Velocità massima del vento a 10 m Forecast probability soglie 40, 45, 50.4, 60, 64.8, 75.6, 90, 100, 104.4, 118.8, 140,4 (km/h) 24 +24 +48 (+6) max Slide 15 di 30

24 HOURS CUMULATED PRECIPITATION PROBABILI TY FORECAST MEAN STDV NORMALIZED STDV Slide 16 di 30

VMAX_10M PROBABILI TY FORECAST MEAN STDV NORMALIZED STDV Slide 17 di 30

TMIN_2M PROBABILI TY FORECAST MEAN STDV NORMALIZED STDV Slide 18 di 30

TMAX_2M PROBABILI TY FORECAST MEAN STDV NORMALIZED STDV Slide 19 di 30

NETTUNO (Sea State) EPS part of MYWAVE project NETTUNO is a high resolution local scale wave forecast system operational in the Mediterranean Sea based on the COSMO-ME and WAM models (In cooperation with ISMAR-CNR of Venice) The sea state probabilistic forecast is obtained driving the wave model using the hourly COSMO-ME EPS wind forecast members The NETTUNO-EPS consists of 40+1 members, that are integrated at 00 UTC up to 48 hour forecast in the Mediterranean basin Validation of seastate forecast has been done at ISMAR-CNR 20

SIGNIFICANT HEIGHT PROBABILI TY FORECAST MEAN STDV NORMALIZED STDV Slide 20 di 30

Future Developments Calibration/tuning of the COSMO-ME EPS Evaluation of stochastic physics impact over a long period Extension of the validation of the NETTUNO-EPS Soil moisture perturbation

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