JMA s Ensemble Prediction System for One-month and Seasonal Predictions

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JMA s Ensemble Prediction System for One-month and Seasonal Predictions Akihiko Shimpo Japan Meteorological Agency Seasonal Prediction Modeling Team: H. Kamahori, R. Kumabe, I. Ishikawa, T. Tokuhiro, S. Yabu, A. Shimpo, H. Sato, T. Motoyama, Y. Naruse, Y. Takaya, T. Soga, H. Mori

Contents Introduction Outline of EPS for one-month / seasonal forecasts Products on Tokyo Climate Center (TCC) web site Verification Recent developments Physics (cumulus parameterization, radiation) Initial perturbation Future Plan Introducing a CGCM into seasonal forecast

Outline of EPS One-month Forecast TL159: 1.125deg ~110km L40: model top=0.4hpa Ensemble size: 50 I. Perturbation: BGM/LAF Frequency: Once a week Forecast period: 34 days Land: SiB SST: Persisted anomaly Seasonal Forecast TL95: 1.875deg ~180km L40: model top=0.4hpa Ensemble size: 51 I. Perturbation: SV Frequency: Once a month Forecast period: 120/210 days Land: SiB SST: Prescribed using persisted anomaly, climatology and ENSO prediction by CGCM

Products on TCC web site Tokyo Climate Center (TCC) http://ds.data.jma.go.jp/tcc/tcc/index.html -> NWP Model Prediction One-month Forecast 28-day average (1 st,2 nd,3 rd &4 th weeks) Elements: Z500, T850, Psea, VP200, RAIN, SF200, SF850, T2m, SST (persisted) Three-month Forecast Initial: 25 Oct, 2007 Warm/Cold season (JJA/DJF) Forecast

Products on TCC web site Experimental Probabilistic forecasts (three-month average) T2m, Precipitation NP NDJ 2007/08 Issued: Oct 2007 EQ T2m Precip SP 30W 30W 30W

Products on TCC web site Verification is also available on TCC web site operationally. One-month forecast ANAL FCST ERROR 28-day average Initial: 27 Sep, 2007

Products on TCC web site Verification is also available on TCC web site operationally. 0.740 0.789 One-month forecast 9-15 day 2-29 day For Z500 during 2006/07 winter (Anomaly>0)

Verification: Setting of Hindcast One-month Forecast 1982-2001 (20 years) Initial date: 10 th, 20 th and the end of each month Ensemble size: 5 Seasonal Forecast 1984-2005 (22 years) Initial date: 10 th of each month SVS-LRF Ensemble size: 11 Initial condition: JRA-25 SST: COBE-SST (Ishii et al. 2005) (ENSO prediction by JMA-CGCM is also used for hindcast of seasonal forecast) Data for verification: JRA-25/JCDAS, ERA15-GANAL, ERA40, GPCP, CMAP

Verification: One-month Forecast Anomaly Correlation: Z500 over NH W1 W2 M1 (JUL) initial date: 30 Jun (JAN) initial date: 31 Dec

Verification: One-month Forecast ROC scores : Z500, Anom>0 over NH (from operational prediction; each season) <-W2 <-W3-4 <-M1 Average (SPR/2001 -SUM/2007) <-M1 <-W2 <-W3-4 2001 2002 2003 2004 2005 2006 2007

Verification: Seasonal Forecast ROC for T2m / 3-month average Upper tercile / Northern Hemisphere / all season 0.691 0.658 1-month lead 4-month lead

Verification: Seasonal Forecast ROC for Precipitation / 3-month average Upper tercile / Northern Hemisphere / all season 0.600 0.586 1-month lead 4-month lead

Recent Developments Cumulus parameterization Trigger function (DCAPE) Radiation Shortwave absorption by water vapor Aerosol Climatology Initial Perturbation (BGM; for one-month forecast) Extract growing mode associated with the instability of the MJO (Chikamoto et al. 2007) Implementation One-month forecast : Mar. 2007~ Seasonal forecast : Sep. 2007~

Trigger Function (DCAPE) Incorporated a trigger function based on DCAPE (dynamic CAPE generation rate; Xie and Zhang 2000) into the cumulus parameterization. Convective precipitation occurs when DCAPE>0. DCAPE= [CAPE(T*,q*)-CAPE(T,q)]/ t T*=T+( T/ t) adv t q*=q+( q/ t) adv t Xie and Zhang (2004) / ARM 97 Summer IOP

Trigger Function (DCAPE) Trigger function is expected to suppress weak precipitation. The number of no precipitation days becomes closer to those of observation (GPCP-1DD) in tropics. Distribution of the number of no precipitation days per month (July) NEW OBS 1 30 [days/month] OLD

Shortwave Absorption by Water Vapor Shortwave absorption increases in troposphere. Low temperature bias seen in mid-latitude is reduced. Zonal mean temperature error in JJA 100 NEW OLD [hpa] 200 500 1000 SP EQ NP SP EQ NP [K]

Aerosol Climatology Use realistic aerosol distribution based on satellite observations with seasonal change. NP Optical thickness associated with aerosol at 850hPa NEW EQ SP NP JUL JAN OLD EQ JUL JAN SP 0 180 180 0

Aerosol Climatology Improvement in bias of clear-sky shortwave radiation flux at TOA over the ocean. NP NEW OLD EQ NP EQ Difference of clear-sky shortwave radiation flux at TOA between model and observation (ERBE) 0 180 0 [W/m 2 ]

Initial Perturbation (BGM) Growing mode associated with the instability of the MJO is able to be obtained selecting appropriate magnitudes of norm. (Chikamoto et al. 2007) Velocity Potential at 200hPa Initial perturbation (1 st BV) on 26 Nov. 2003 Large scale mode(3.3%) Convective mode(0.33%)

Initial Perturbation (BGM) Forecast skill around equator using the new initial perturbations is better than that using the old perturbations. 1 Anomaly correlation [20 S-20 N] V.P.200 S.F.200 0 OLD / NEW 0 25 Forecast time (day) 0 25 Initial date: 21 Dec, 2006 50 members

Future Plan In 2010, JMA plans to introduce a CGCM into seasonal forecast, which is a new version of JMA s operational ENSO forecast model from Mar 2008. AGCM JMA/MRI Unified AGCM TL95L40 (horizontal resolution ~ 180km) OGCM MRI.COM Ishikawa et al. (2005) 75S-75N, 0-360E horizontal resolution: lon 1.0, lat 0.3-1.0 vertical resolution : 50 levels (23 levels in the upper 200m) Coupler coupling interval : 1 hour flux adjustment for heat and momentum flux

Forecast Skill of SSTs Forecast skill of SSTs with the new version of CGCM is better than that with the current CGCM for ENSO forecast. WTP JMA/MRI-CGCM Current model Persistence NINO3.4 *Period:1979-2005 *1 member forecast started from the end of every month (NOT ensemble forecast)

Forecast Skill of Precipitation JMA/MRI-CGCM shows better skill than the current seasonal prediction model NP ROC for Precipitation in JJA Four months lead Upper tercile EQ SP 180 CGCM Tier-two 0 180 0 180 *Period:1984-2005(22 years) *10-member ensemble forecast started from the end of January

Forecast Skill of T2m JMA/MRI-CGCM shows better skill than the current seasonal prediction model NP ROC for T2m in DJF Four months lead Upper tercile EQ SP CGCM 180 0 180 Tier-two 0 180 *Period:1984-2005(22 years) *10-member ensemble forecast started from the end of January

Summary JMA s products and verifications for one-month and seasonal forecasts are available on TCC web site. http://ds.data.jma.go.jp/tcc/tcc/index.html Developments for one-month and seasonal forecast models have been done to improve forecast skills. Future Plan: In 2010, JMA plans to introduce a CGCM into seasonal forecast.

Thanks! Harerun, JMA s mascot

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