1 / 35

Tropical Atlantic studies with SPEEDO

Tropical Atlantic studies with SPEEDO. Wilco Hazeleger Rein Haarsma Camiel Severijns.

lou
Download Presentation

Tropical Atlantic studies with SPEEDO

An Image/Link below is provided (as is) to download presentation Download Policy: Content on the Website is provided to you AS IS for your information and personal use and may not be sold / licensed / shared on other websites without getting consent from its author. Content is provided to you AS IS for your information and personal use only. Download presentation by click this link. While downloading, if for some reason you are not able to download a presentation, the publisher may have deleted the file from their server. During download, if you can't get a presentation, the file might be deleted by the publisher.

E N D

Presentation Transcript


  1. Tropical Atlantic studies with SPEEDO Wilco Hazeleger Rein Haarsma Camiel Severijns

  2. Last year: Mean state of tropical Atlantic in SPEEDO (coupled Speedy-MICOM)This year: Variability in the tropical Atlantic:- What are the mechanisms of tropical Atlantic variability?- What are the teleconnections with Europe?Other projects at KNMI

  3. Interannual variability: Tropical Atlantic Variability Atlantic Nino (T=2-10yrs) Ruiz Barradas et al 2000

  4. Interannual variability: Tropical Atlantic Variability Interhemispheric mode (T=2-10yrs) Ruiz-Barradas et al

  5. SPEEDO (SPEEDy-Ocean) Speedy atmsph. mixed layer ATMOSPHERE (Molteni, ICTP Trieste) LBM LAND FOCEAN SEA SLAB G-MODEL MICOM+ Sea ice LAND DYNAMIC OCEAN PRESCRIBED OCEAN THERMODYNAMIC OCEAN Hazeleger, et al TR-KNMI 2003 New developments: upgrade physics package, dynamic vegatation model, atmospheric chemistry

  6. SpeedO-Atlantic Atmosphere (Speedy, global): T30 (3.5 degree) primitive equations 7 layers Simplified parameterizations Ocean (MICOM-Atlantic: 40S – 70N): Isopycnic coordinate primitive equation model (MICOM) 22 layers 1 degree horizontal resolution SST prescribed outside the Atlantic and nudging at lateral boundaries Land: Prescribed

  7. MEAN STATE: SPEEDO-control SST error Temperature along equator first REOF SST and wind stress second REOF SST and wind stress

  8. The coupled model results SST error in exp with enhanced wind mixing Temp along equator

  9. Rotated EOFs SST and associated wind stress Cold tongue mode Interhemispheric mode Cold tongue mode dominant in late summer, interhemispheric mode in spring

  10. Heat budget of cold tongue mode Entrainment latent heat flux Short wave radiation horizontal advection

  11. Heat budget of interhemispheric mode Entrainment latent heat flux Short wave radiation horizontal advection

  12. Zonally averaged SST anomalies (8 yr filtered) Seasons

  13. Atlantic Subtropical Cell pathways Schott, Stramma

  14. Equatorial Undercurrent correlations with cold tongue mode (unfiltered seasonal data and 4-year filtered) 0.2 0 -0.2 Seasonal data EUC at 35W 0.6 0 -0.2 4-year filtered data • Time series of seasonal data: • 2N-2S, 50-160m positive u averaged • Principal component of REOF 1 • Positive lag, REOF leads

  15. North Brazil Current correlations with cold tongue mode (seasonal data and 4-year filtered data) 0.2 0 Seasonal data NBC at 10S 0.4 0 -0.4 4-year filtered • Time series of seasonal data: • 33W-36W, 40-250m, positive v averaged • Principal component REOF 1 • Positive lag, principal component leads

  16. Lagged SVD of SST (Jul-Aug-Sept) and GH-500 (Oct-Nov-Dec) Expl variance: 33% Correlation: 0.44

  17. Other studies with MICOM at KNMI:Process studies: Agulhas Ring decayrole southern oceans in THC (Drijfhout)Impact diapycnal mixing on THC and sea levelrise (Katsman)Mechanisms of tropical Pacific variability (Zelle,Oldenborgh)

  18. What causes skewness of ENSO?Response of SPEEDY and MICOM to a periodic wind forcing withan ENSO pattern Skewness in thermocline, not in SST! (El Nino state minus La Nina state

  19. Impact of South Atlantic variability on tropical Atlantic circulation in MICOM (ocean-only) Currently: using Lagrangian trajectory methods To trace sources of changes in Equatorial thermocline (Roberto de Almeida, USP)

  20. Summary and conclusions SPEEDO produces realistic patterns and amplitude of Tropical Atlantic climate variability: a) Cold tongue mode generated by thermocline-upwelling feedbacks b) Interhemispheric mode generated by upwelling and short-wave feedbacks (in the east) and by latent heat flux (in the west, a wind-evaporation-SST feedback). Small impact of TAV on Northern Hemisphere variability NBC transport may be a predictor for decadal variations of cold-tongue variations, but correlations are weak NB!! Thermocline variations do not couple well to SST in the eastern parts of the basin (this is only apparent in coupled models, in ocean-only models Tair will generate variability, but surface flux anomaly should damp variability)!!

  21. Heat budget of decadal variations (8yr filtered zonally averaged data) SST anomalies Entrainment latent heat flux

  22. Heat budget of decadal variations SST anomalies Horizonal advection short wave radiation

  23. Zonal velocity differences averaged between 50E and 20W in SPEEDO Enhanced ocean wind mixing efficiency minus Control

  24. First rotated EOF of SST in coupled SPEEDO and related variables

  25. Second rotated EOF of SST in coupled SPEEDO and related variables

  26. SST error along equator depth of 20 degree isotherm Control Wind mixing efficiency enhanced Buoyancy mixing efficiency enhanced Observations

  27. SST budget in MICOM ocean-only (1S,10W): Control Enhanced wind mixing Entrainment Radiation Latent heat flux Sensible heat flux Horizontal advection Diffusion (all in W/m^2)

  28. Heat budget from PIRATA

  29. Seasonal cycle Tropical Atlantic Change in winds and rain in JAS Seasonal cycle SST along equator (colors SPEEDO, contours Da Silva) Idem for JFM Colors SPEEDO Contours Da Silva

  30. MEAN STATE: Observations SST Temperature along equator

  31. Standard deviation of SST : obs : SPEEDO :COLA model

  32. SST error along equator in coupled models Davey et al 2001

  33. Dominant patterns of covariability betweenSST and early winter 500 hPa geopotential height when SST leads by 4 months. (Czaja and Frankignoul 2001)

  34. Users shell for MICOM developed by • Dutch Climate Research Center (CKO) • Camiel Severijns severijn@knmi.nl • Can be downloaded from website: www.knmi.nl/onderzk/CKO • NetCDF based • Easy to use: basin, resolution, parameter choice. • Coupling implemented as a library, using SCRIP tools for • interpolation • Analysis tools (Bausteinen) for EOF, SVD, spectra etc.

More Related