1. My Agenda for CFS Diagnostics Glenn.White@noaa.gov Ancient Chinese proverb: “ Even a 9-month forecast begins with a single time step.” --Hua-Lu Pan

2. IMHO --diagnostics of hind-casts and AMIP/CMIP integrations complicated --no atmospheric reanalysis consistent with CFS --significant uncertainties in air-sea fluxes --single global forecast model for weather and seasonal forecasts --operational weather forecasts give larger sample of performance of atmospheric model --should examine carefully short-range CFS forecasts --more insight into model problems from 1-day forecasts than from seasonal forecasts or AMIP/CMIP integrations

3. Hypothesis-- Over last 10 years considerable effort at EMC in improving tropical analyses and short-range forecasts has produced good atmospheric model for seasonal forecasts of equatorial Pacific SST. Better hurricanes Better ENSO Moral-- Don’t separate weather and climate.

4. “Error” in transient eddy kinetic energy in 64 level AMIP run of GFS Sep. 01- Mar.02 1979-2001

5. Difference in analyzed transient eddy kinetic energy Sep.01 –Mar.02 GDAS minus NCEP1

6. NCEP1—T62, 28 levels NESDIS temperature retrievals GDAS—T170, 42 levels Radiances used

7. Transient eddies in AMIP runs cannot be verified in the Southern Hemisphere; error in AMIP transient eddies appears to be less than error in NCEP1 reanalysis.

8. Verifying AMIP runs of the current GFS model against NCEP1 reanalysis can be inappropriate, even for atmospheric fields. Need to compare CDAS to GDAS to see if differences between CDAS and GDAS are insignificant compared to differences between AMIP and CDAS. Need periodic reanalyses with the operational CFS for consistent verification of seasonal forecasts.

9. GODAS (MOM V.3) Forced by wind stress, heat flux, precipitation- evaporation SST is relaxed to weekly NCEP SST analysis surface salinity is relaxed to Levitus monthly SSS climatology. Wind stress is thought to have most impact

10. OGCM MOM Global v.3 Data Assimilation 3D VAR Observations: XBTs TAO P-Floats Altimetry Analyzed Fields: Temperature Salinity Ocean Data Assimilation System (ODAS) Surface Stress Heat Flux P-E From ?

11. -- NCEP-2 reanalysis 1979-present (CDAS-2)T62, 28 levels Used in hind-casts not consistent with CFS What are best air-sea fluxes to initialize ocean assimilation for real-time forecasts?

12. --GDAS T254, 64 levels better data assimilation and atmospheric model than NCEP-2 better fluxes?? Not used in hind-casts More consistent with CFS than NCEP2

13. NCEP2 too many easterly waves (Hodges et al., J Clim)

14. Normalized RMS difference of monthly mean stress over 3 years Normalized bias in 3-year mean stress magnitude GDAS vs. CDAS

15. Nino 3.4 5S-5N 190-240E Equatorial east Pacific

16. Correlation monthly zonal surface stress anomalies 1979-2001 FSU-CDAS2 FSU-ERA40 CDAS2-ERA40

17. 29S-29N5S-5N FSU- NCEP2.63.55 FSU- ERA40.68.65 NCEP2 -ERA40.85.75 Correlation of monthly anomalies in zonal wind stress 122-290E 1979-2001 29S-29N5S-5N FSU- NCEP2.59.58 FSU- GDAS.63.67 NCEP2 -GDAS.87.77 Correlation of monthly anomalies in zonal wind stress 122-290E July 2001- Dec. 2003

18. Bias 0.76 RMS 19.7 SD 19.6 Bias 19.16 RMS 20.8 SD 10.9 2002-2003 minus 1985-1990

22. SOC 80-93 SRB1 83-91 NCEP1 80-93 NCEP2 80-93 ERA15 81-92 CDAS2 Aug02- Jul03 oper Aug02- Jul03 LH90 92103 113109 SH7 1151066 NSW176173165167160169192 NLW49425751505167 NHF30 67-411 Global Mean Ocean Heat Budget

24. Precipitation Annual mean CMAP GDAS CDAS2

25. CONCLUSIONS --GDAS, ERA40 surface stresses agree more with independent estimates than NCEP2, implying progress --disagreement between different estimates in equatorial Pacific implies substantial uncertainty in surface stress --NCEP2 too many easterly waves in Pacific --surface heat flux global balance in NCEP2, not GDAS --GDAS too much sfc NSW; clouds, moisture need work --GDAS better patterns of sfc NSW, NHF --GDAS better precipitation pattern than NCEP2

26. New CFS will use fluxes from NCEP-2 reanalysis to force ocean data assimilation, for consistency with hind-casts Future CFS will conduct reanalyses with new CFS models for consistency of system as well as consistency with hind-casts. (If $$) New CFS every 3-5 years. New global reanalyses 1979 to present every 3-5 years in support of seasonal forecasting.

27. Climate drift in SST in 23 year coupled runs Climate drift with 28 levels Climate drift with 64 levels Much less drift along equator with 64 levels

31. Surface stress Pacific 22 years FSU obs estimates 23 year coupled runs FSU 28 levels 64levels

32. Ekman pumping 28 level run has too much upwelling along equator in Pacific East Pacific

40. 1)Increased Ekman pumping and more upwelling at equator in Pacific with 28 than with 64 levels, probably associated with stronger Pacific ITCZ with 28 levels; doesn’t explain warmer tropical SST in Atlantic 2) Lack of marine stratus with 64 levels compared to 28 levels; more short wave in eastern oceans, possibly warming SST which are advected to equator.