1 00/xxxx © crown copyright stratospheric data assimilation for nwp richard swinbank with thanks...
TRANSCRIPT
1 00/XXXX © Crown copyright
Stratospheric Data Assimilation for NWP
Richard Swinbank
with thanks to:
David Jackson, Mike Keil, Andrew Bushell, Hazel Thornton
and Rick Rawlins
COST-723 Workshop, March 2004
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Stratospheric Data Assimilation for NWP
Variational assimilation: 3D-VAR
New Dynamics
Ozone and water vapour assimilation
Future plans
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Stratospheric Analysis – History
“SSU Analysis” - 1978– Original stratospheric analysis, based on gridded retrievals of
thickness; T and winds derived Analysis Correction Scheme - 1991
– First Met Office stratospheric data assimilation system; asynoptic, repeated insertion
Variational Assimilation – 2000– 3D-VAR assimilation; 6 hour cycle
New Dynamics – 2003– Semi-Lagrangian Dynamics, on height grid
4D-VAR – planned
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3D-VAR for the stratosphere
Direct assimilation of ATOVS & TOVS radiances– radiance bias correction
Background error covariances using “NMC method”– use rotated vertical modes in stratosphere
Prototype for future extended global forecast system, spanning stratosphere
– 40-level model, based on the then-current global 30-L model
– most testing done at medium resolution (0.83°x1.25°), rather than usual stratospheric low resolution (2.5°x3.75°)
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New Dynamics Old Dynamics
Semi-Lagrangian
Semi-implicit (predictor-corrector)
Arakawa C-grid
Height based: hybrid terrain-following grid
Charney-Phillips
Full 3D Helmholtz solver
Explicit Heun
Split-explicit (2 time-level)
Arakawa B-grid
Pressure based: hybrid sigma-pressure grid
Lorenz
Reference state profile
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New Dynamics Configurations
38-level, N216 (0.55o x 0.83o) Top at 39km
Operational (NWP) in August 2002
50-level, N48 (2.5o x 3.75o) Methane oxidation and spectral GWD
Top at 64 km
Operational (NWP) in October 2003
Positive benefit on forecast and analysis skill
Current ND levels
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Ozone Assimilation
Potential benefits for NWP
– Improved radiance assimilation (HIRS, AIRS, IASI)
– Improved radiative heating rates
– Possible impact on UTLS wind fields
– Improved forecasts of surface UV
Exploitation of research satellite data (especially Envisat data, through ASSET)
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Ozone assimilation - status
Initial trial completed with New Dynamics, using HIRS-9 and SBUV
Some bugs remain with Envisat version of suite Further analysis and testing needed:
– Test with Cariolle ozone, cold tracer
– Test with spectral GWD
– Migrate to RTTOV-7 forward model
– Use NMC method for B
– Feedback ozone on radiation
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Stratospheric Humidity Assimilation
Previously untried
Ill-conditioned vertical transform of background error matrix B
Excessive stratospheric increments (due to spurious vertical correlations)
Run 3D-VAR experiments for 1 cycle
VAR humidity tests6 hr cycle – humidity data only in troposphere
q (bg) q (an)
q inc T inc
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Proposed Solutions
Change vertical weighting to improve conditioning of B
Scale back variances, and reduce vertical correlations
New humidity variable (after Dee and da Silva, 2003)
Impact of Dee and DaSilva scheme
q(analysis) q increment
Default
Dee & daSilva ..
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Future Plans
4D-Variational Assimilation– Very promising results from trials of Global
forecast model
– To be implemented soon
Extend Global Assimilation to span the stratosphere
– Improve assimilation of satellite radiances
– Avoids need for separate operational stratospheric configuration
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Data Assimilation
4D-Var in outline
Run forecast from background field
T-3 T-2 T-1 T+0
T+1
T+2
T+3
T+144
Background field
Analysis Backgroun
d field for next forecast
Change starting field to reduce distance between forecast trajectory and observations (error)
Repeat until satisfactory fit
NWP index
H500 anomaly correlation (N216)
Current and Future(??) levels
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Summary
The operational stratospheric assimilation system has developed rapidly over the past few years (3D-VAR in 2000, New Dynamics in 2003, porting to NEC SX-6)
The system has been extended to assimilate ozone and water vapour – in particular as part of ASSET project
Future developments include adoption of 4D-VAR, and merging global and stratospheric assimilation systems