Verification of LAMI (Local Area Model Italy) using non-GTS Data over Mountainous Regions
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Transcript of Verification of LAMI (Local Area Model Italy) using non-GTS Data over Mountainous Regions
Verification of LAMI (Local Area Model Italy) using non-GTS Data
over Mountainous Regions
Elena Oberto (*), Stefano Bande (*), Massimo Milelli (*)
(*) ARPA Piemonte, Torino, Italy
LAMI model
Non-hydrostatic Limited Area Model (Italian version) developed in the framework of the COSMO (Consortium for Small-Scale Modelling) project between Germany, Poland, Switzerland, Greece and Italy.
Technical aspects:
•Domain: 50°/2°/32°/24° (234*272 grid points)
•Resolution: 0.0625° (7.5 Km)
•Vertical layers: 35
•Forecast time: +48h (+72h available since Dec ‘02: not taken into account because of the poor statistics)
•Model runs: 00,12 UTC
•Boundary conditions: GME (DWD)
•Initial conditions: GME (nudging version available since Dec ‘02: not taken into account because of the poor statistics)
Objectives
• Verification of precipitation above 1000 m:– LAMI model output compared to observations over the
western alpine chain. This is a study of high resolution model reliability in case of complex orography in perspective of the XX Olympic Winter Games in 2006.
– Period considered: Oct ‘02- Feb ‘03.– Standard schemes of precipitation verification:
contingence tables for different thresholds and statistical indices like BIAS, ETS, FAR and HRR.
– Very dense non-GTS network of rain gauges (126) in the north-west part of the Alps (Piemonte, Liguria, Valle d’Aosta, Ticino) above 1000 m.
– Method: comparison between station point and grid point (the one with the closest elevation among the 4 surrounding grid points).
• Verification of vertical profile:– The new radiosounding of Cesana Pariol (1545 m), placed in
the Olympic area, is used to compare the observed and forecasted vertical temperature profiles (at 00UTC every day)
– An other radiosounding in our region is placed near Cuneo Levaldigi Airport (installed in 1999, since 1 year it is a GTS station): we perform the same vertical temperature profile verification to have a comparison with a station in a non-mountainous area.
– Mean error (BIAS) and Root Mean Square Error for each level (averaged levels every 25hPa) of the temperature vertical profile (00UTC LAMI run for +24h and +48h forecast time) from Dec ‘02 to Feb ‘03.
– Cesana Pariol (45° N 6.8° E): station point 1545 m grid point 1970 m– Cuneo Levaldigi (44.5° N 7.6° E): station point 386 m grid point 387 m
Rain gauges network
•126 station above 1000 m
•Regions interested: Piemonte, Valle d’Aosta, Liguria, Ticino
Cesana sounding
Cuneo sounding
LAMI00-LAMI12: comparison between the first and
the second 24h versus thresholds
ETS: results between 0.25-0.35 no significative differences between the two runs and between the two days of integration.
BIAS: globally good results, always greater than 1, for high thresholds the first 24h of both runs perform better especially for 12UTC.
thresholds(mm) 5 10 20 35 50 75OSS 1675 1087 586 303 193 95FOR 2136 1282 677 350 200 122OSS 1499 1009 576 305 191 93FOR 1804 1172 700 434 290 183OSS 1349 895 497 261 158 86FOR 1930 1110 585 308 180 80OSS 1333 867 457 218 121 61FOR 1676 1046 540 309 206 105
LAM00_0024
LAM00_2448
LAM12_0024
LAM12_2448
ROC diagram confirms previous results: small differences between the two runs, but less FAR for the first integration time
LAMI00-LAMI12: comparison of the 12h-QPF performance for 3 fixed thresholds
• For every thresholds there is a diurnal cycle of error.
• The precipitation is generally overestimated
• BIAS influenced by the diurnal cycle more than forecast time
• BIAS better in the morning (00-12UTC)
The same behaviour comes out in ETS index for low thresholds only; for high thresholds (not shown here) the signal is smoothed.
LAMI00-LAMI12: BIAS for the 6h-QPF
Concerning the low thresholds, the same diurnal cycle is evident: the worst results are found during the night (18-00UTC)
Cuneo sounding
• bad agreement with observation close to the ground
• bias > 1 in the first levels probably due to a wrong heat flux parameterisation that gives a colder model forecast
• above 700 hPa: good bias for both forecast times
• above 800 hPA: +24h rmse is better than +48h rmse, slight worsening of the results with time.
Cesana sounding
• 800 hPa - 700 hPa: model T is cooler than observation due to the elevation difference and to a systematic underestimation
• worsening in time: +24h bias is closer to 0 than +48 bias, +24h rmse is higher than +48h.
Conclusions
• Globally good skills for LAMI QPF verification: general overestimation in precipitation, worsening in time.
• Diurnal cycle present and quite evident with worst results during the coldest hours.
• Good results for the vertical temperature profile above 700 hPa.
• Problems close to the ground probably due to the physical parameterisations.
• Next step: verification of the other variables of the sounding (Rh, DwT, wind direction and velocity)