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A Forecasting system for the Southern California Current Emanuele Di Lorenzo Arthur Miller Bruce Cornuelle Scripps Institution of Oceanography, UCSD. Forecast the mesoscale eddies Understand the physics that control their generation and evolution Assess the biological response. - PowerPoint PPT Presentation
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A Forecasting system for the Southern California Current
Emanuele Di LorenzoArthur Miller
Bruce Cornuelle
Scripps Institution of Oceanography, UCSD
Forecast the mesoscale eddies
Understand the physics that control their generation and evolution
Assess the biological response
Observational Dataset
SouthernCalifornia Coast
and Baja
Temperature, Salinity and Zooplankton
1949 – 2003 seasonal data
20 m vertical resolution, from 0– 500 m
70 - 80 km horizontal grid
CalCOFI historicalsampling grid
California Cooperative OceanicFisheries Investigation
Hydrography
The Strategy
Initialize the model by assimilating the slowly evolving component of the eddy fieldwhich can potentially lead to forecast skill over a period of 2 months
The Strategy
The Method
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The Green’s Function Method
Initialize the model by assimilating the slowly evolving component of the eddy fieldwhich can potentially lead to forecast skill over a period of 2 months
A typical sampling of a mesoscale eddy
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AVVISO TOPEX/ERS
[m]
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SSH
CalCOFICoastal observation
Data Assimilation
Ocean CirculationModel
Satellite Data
Independentverification
Assimilation of CalCOFI T,S
65% reduction in error variancerelative to the model initial guess!
SeaWIFS [M N/m3]
E2
E1
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Chl-a
[M N/m3]
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Chl-a
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Chl-a
Ecosystem Model
Forecasting and Hindcasting Ocean Productivity
Independentverification
CalCOFI in Situ
REFERENCE:
Di Lorenzo, E., A. J. Miller, D. J. Neilson, B. D. Cornuelle, and J. R. Moisan, 2003: Modeling observed California Current mesoscale eddies and the ecosystem response. International Journal of Remote Sensing, in press.
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You need to know the physics that goes into the assimilation scheme
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SKILL associated with Persistence of Initial Condition
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Data is collected over a 20 day period
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SKILL evolution when the true initial condition is replaced with a 20 day averagein a dynamical forecast
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SSH Surface T T 150 mda
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How about the uncertainties in Forcing Functions?
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SKILL evolution with errors in Forcing
Surface T T 150 m
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SKILL evolution with errors in Forcing (and Open BC)
Surface T T 150 m
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SKILL evolution with errors in initial conditionJUNE
Wavenumber Spectra
Forecast the mesoscale eddies
Real time forecast of CalCOFI in April 2003SCCOOS nowcast-forecast with UCLA and JPL
Understand the physics that control their generation and evolution
Error CovariancesSeasonal dependence
Assess the biological response
In progress….
Concluding remarks:
ΔρEkman Pumping Δρ increase
Δh westward propagation off the Bight
Wind
P. Conception
Shelf
(a)
Instability processeson continental slope
currents
(b)
(c)
April July
Ocean Temperature
ZooplanktonLoge Tot. Vol.
5
7
6
4
Anomalies
199019701950 200019801960
C
-1
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Observationsalong the California Coast
Assimilation Method
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“SSH”
CalCOFICoastal observation
Assimilation of CalCOFI T,S
E1
E2
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“SSH”
SSH
CalCOFICoastal observation
Data Assimilation
Ocean CirculationModel
Assimilation of CalCOFI T,S
What have we learned about the mesoscale dynamics?
What have we learned about the mesoscale dynamics?
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dFmodel m F x F x dx F x dx r
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dFG H
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dFmodel m obs F x obs dx Gm d
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JP m G R d Gm
m
m P
odel m obs R model m obs
J m P m Gm d R G
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The Green’s Function Method
Green’s Function
1 1[ ( ) ] [ ( ) ]T TJ m P m model m obs R model m obs
T To o m mR
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Changes in SKILL associated with errors in Forcing
Surface T T 150 m
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