Dynamical Tropical Cyclone Forecasts using the COAPS Atmospheric Model
w/ CFS SSTs
Tim LaRowCenter for Ocean Atmospheric Prediction Studies/
Florida State [email protected]
Climate Diagnostic Prediction Workshop October 2009
Experimental Setup
Atlantic hurricane season (June-November) simulations from 1986 to 2008 (23 years).
Daily updated SSTs from the CFS model.
FSU/COAPS global spectral model – T126L27 resolution
4 member ensembles for each year. Time lagged ECMWF atmospheric initial conditions centered on 1 June of the respective year.
RAS Convective Scheme (Hogan and Rosmond 1991)
6 hourly output for detection and tracking
Modified Detection/tracking algorithm from Vitart et al. (2003), see LaRow et al. (2008)
Genesis Density (1986-2005)
Observed
COAPS
Storm Tracks and Numbers
When using climate models to simulate TC activity, two approaches are commonly used:
1. Count the number of hurricane-like vortices directly, using a detection algorithm, and then rescale the counts if necessary.
2. Use the simulated large-scale fields of the model and estimate the number of storms using a statistical procedure such as the Storm Genesis Potential by W. Gray et al. or K. Emmanuel et al.
In this study we use the detection/tracking algorithm developed by F. Vitart, see Vitart et al. (2003)
20-Years of Storm Tracks (1 Member) with Saffir-Simpson Pressure Scale
Blue=TS, Dark Blue=CAT1, Green=CAT2, Red=CAT3, Dark Red=CAT4
Sample Season Storm Tracks Saffir-Simpson Pressure Scale
Blue=TS, Dark Blue=CAT1, Green=CAT2, Red=CAT3, Dark Red=CAT4
(1986-2008)
Atlantic Total Storm Counts Using CFS SSTs
Correlations:Correlations:Ensemble Mean with HURDAT = 0.71Detrended with HURDAT = 0.69Trends are significant at the 95% confident level
Hurricane Numbers
In our climate model, hurricanes are identified using the 850hPa wind maximum determined by the detection code and multiplying the wind speed by 0.8 to extrapolate to 10 meters. If the 10-m wind speed is greater than 32 m/s it is classified a hurricane and counted.
Atlantic Hurricane Counts – with CFS SSTs(1986-2008)
Correlations:Correlations:Ensemble Mean Counts with HURDAT = 0.82Linear detrended correlation = 0.63Model Counts with CFS ASO Niño-3 SSTA = -0.80Model with CFS ASO MDR SSTA = 0.59
Ensemble Member Summary
Dataset Member 1 Member 2 Member 3 Member 4
OBS SSTs 0.76 0.51 0.71 0.62
CFS SSTs 0.71 0.67 0.64 0.50
Dataset Member 1 Member 2 Member 3 Member 4
OBS SSTs 242 234 234 249
CFS SSTs 247 239 262 244
Total Number of Storms (1986-2005)
Interannual TC Correlations (1986-2005)
Total number of observed TCs 245
Model Resolution Atl Corr. GP Atl Corr. NTCCCM T42 0.46
NSIPP 2.5x2.5 0.50 0.38ECHAM3 T42 0.00 0.53ECHAM4 T42 0.36 0.52ECHAM5 T42 0.53ECHAM5 T63 0.33ECHAM5 T85 0.47ECHAM5 T106 0.27ECHAM5 T159 0.43 0.33
GFDL (Knutson) 18km 0.8650km 0.83
FSU(LaRow) T126 0.78T126 0.73/0.82
GFDL (Zhao)1
FSU (LaRow)2
Camargo et al. (2005), Camargo et al. (2007), Bengtsson et al. (2007)Knutson et al. (2007), LaRow et al. (2008), Zhao et al. (2009)1Accepted J. Climate
2Submitted to GRL
Atlantic Seasonal TC Studies
Atlantic Accumulated Cyclone Energy – (1986-2009)
Correlation:Correlation:Using Observed SSTs = 0.85 (Previous Study w/ obs. SSTs)Using CFS SSTs = Using CFS SSTs = 0.69, detrended = 0.57 (Significant @ 95%)
19861987
19881989
19901991
19921993
19941995
19961997
19981999
20002001
20022003
20042005
20062007
2008
0
50
100
150
200
250
300
Atlantic ACE
Years
AC
E/1
00
00
kt^
2
Red=HURDATBlue=COAPS Model
Gates MEM1 MEM2 MEM3 MEM4 OBS
1 6 14 10 12 322 36 35 32 24 433 19 20 18 19 184 5 5 9 10 5
Gates MEM1 MEM2 MEM3 MEM4 OBS
1 12 6 14 10 322 33 33 37 39 433 18 15 17 22 184 5 4 9 8 5
1 2
3
4
Land Falling Numbers(1986-2005)
Underestimates landfalls in westernGulf of Mexico by about a 1/3
CFS SSTs
OBS SSTs
2009 Real-Time Forecast
SETUP SSTs from the May 29, 2009 CFS Forecast 4 Member Atmospheric Ensemble T126L27 FSU/COAPS Model Forecast Issued June 2, 2009
FORECAST 8 Named Storms (stdev 2.2) 4 Hurricanes (stdev 0.8) Mean ACE 65
June 2009 Sea Surface Temperature ForecastsNiño-3.4 Region
Models JJA JAS ASO SON
NASA 1 1.4 1.6 1.7NCEP CFS 1.1 1.3 1.5 1.6
JMA 0.8 1 1.1 1.4SCRIPPS 0.1 0.3 0.4 0.6
LDEO 0.3 0.3 0.4 0.5AUS/POAMA 1.1 1.3 1.5 1.6
ECMWF 0.8 1 1.2 1.3COLA ANOM 0.4 0.6 0.7 0.8ECHAM/MOM 0.5 0.6 0.7 0.8
Atlantic TC Forecast Period
OBS: JJA 0.77CJAS 0.84C
Conclusions
Ensemble hindcast results from a relatively high resolution atmospheric model (T126L27) have been presented for 23 years of the Atlantic Basin hurricane seasons using CFS SSTs.
Rank correlation of the interannual variability of the tropical storm frequency against observation was found to be high (0.73 for tropical cyclones and 0.82 for hurricanes, 0.69 for ACE).
All correlations significant at the 95% confidence level.
Model appears to simulate the ENSO-Atlantic covariation well.
More members in the ensemble are needed to better quantify skill (on order of 20 members).
Conclusions Continued
Factors contributing to increase in interannual skill not fully understood. Higher horizontal resolution models (eg. ECHAM) not always best in interannual variability.
Intensity still underestimated in terms of surface wind speeds, even at high horizontal resolution (18-20km) and will probably continue to be as the cyclostrophic balance is not resolved by climate models.
Our 1 June 2009 Real-time forecast appears to be validating well with only 2 hurricanes thus far in the Atlantic and an ACE value of 42.1