1 development of a regional coupled ocean-atmosphere model hyodae seo, arthur j. miller, john o....
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Development of a Regional Coupled Ocean-Atmosphere Model
Hyodae Seo, Arthur J. Miller, John O. Roads, and Masao Kanamitsu
Scripps Institution of Oceanography
6th Conference on Coastal Atmospheric and Oceanic Prediction and Processes
85th AMS Annual Meeting January 11, 2005, San Diego
2.2
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Development of a coupled model system to study air-sea interaction processes
to improve ocean-atmosphere prediction
TODAY (Preliminary Results):
What are some effects of evolving SST on the coupled model fluxes?
RESULTS TO BE PRESENTED:SST spatial structures are clearly seen in the flux fields.SST affects shortwave fluxes (cloudiness) in the summer.SST tendency is strongly correlated with latent heat flux anomaly in summer. - Related to observational studies: Ronca and Battisti (J. Climate,1997), Chelton et al. (Science,2004)
Introduction
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Outline
1. Description of Regional Coupled Ocean-Atmosphere Model and Experiments
2. Interaction of the Atmospheric and Oceanic Response
- Co-variability of SST anomaly (and its tendency)
with components of heat flux anomalies (cf. Ronca and Battisti, 1997)
3. Conclusion and Future Work
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Regional Coupled Ocean-Atmosphere Model
Winds relative to currents
The RSM is nested within the Global
Spectral Model (GSM).
Physics and dynamics are consistent with the NCEP/DOE reanalysis
model.
Regional Spectral Model
(RSM, 20km)
IC and Lateral BC: Reanalysis
Primitive equation ocean model
Generalized-sigma vertical coordinate
Radiation and flow-adaptive nudging for
open boundaries
Regional Ocean Modeling System (ROMS, 12km)
Lateral BC:Levitus T/S Climatology
net heat flux freshwater flux
windstress
SST
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Model Domain and Experiment
Pt. ReyesSierra-Nevada
San Diego
Pt. Sur
Continental Shelf
Pt. Conception
+2000m
-4000m
Northeastern Pacific
Model Run from 1996 to 2003 with Daily Coupling of Forcings.
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Interannual Variability of SST
-Upwelling filaments in SST occur north of Pt. Conception
-Mesoscale eddies and meanders of the CCS generate strong SST gradients
Do these mesoscale SST features affect the local atmospheric boundary layer?
Snapshots of Averaged SST of May 10 - 14, 1998-2003
1998 1999 2000
2001 2002 2003
SST (°C)
Upwelling Filaments
Mesoscale Eddy
CCS
Pt. Conception
Pt. Reys
209
Pt. Sur
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SST Patterns in Heat Flux and Wind Stress Fields Example: May 10-14, 1999
SURFACE
FLUXES
OCEANIC VARIABLES
How do the ocean fields and surface fluxes covary?
26.4 Isopycnal Depth(m)
Net Surface Heat Flux (W/m2 ) Windstress Curl (N/m3 )
SST (°C)
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Net Heat Flux Components for 10-14, May, 1999
Shortwave Radiation Longwave Radiation
Latent Heat Sensible Heat
Net Heat Flux (W/m2 )
Net Heat Flux = Shortwave + Longwave + Latent + Sensible
SST
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Covariance of SST tendency with each heat flux in Summer months
Local NC of dSST’/dt with latent heating
NC of dSST’/dt for 2 regions
Norm
alized
C
ovariance
•
• ••• • •
•
shortwave longwave latent sensible
NC =
Normalized Covariance (NC)
Summer months (JJASO) of 5 day-averaged 7-year data (monthly mean removed)
Ronca and Battisti: Latent heat flux significantly covaries with windspeed.
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Covariance of SST and each heat flux in Summer months
4
1
2/12''
''
])([i
i
i
lh
SSTQ
SSTQNC =
Normalized Covariance (NC)
Local NC of SST’ with each component
shortwave Sensible heat
NC of SST’ for 2 regions
Norm
alized
Covarian
ce
•
•• •
•
• ••
shortwave longwave latent sensible
Negative correlation of SST with cloudiness in summer
-(Klein and Hartmann(1993), Norris and Leovy(1994))
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Conclusion
1. SST spatial structures are clearly seen in the flux fields.
2. SST tendency is strongly correlated with latent heat flux in summer month (in spite of mesoscale eddy signatures in SST)
3. SST affects solar heating flux through cloudiness in the summer months.
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- Future Work
Include ocean currents in calculation of coupled model windstress
Replace climatological boundary condition with ocean analysis
Multi-nesting coupled modeling
Thank you!
Future Work