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![Page 1: Research and development on satellite data assimilation at the Canadian Meteorological Center L. Garand, S. K. Dutta, S. Heilliette, M. Buehner, and S.](https://reader036.fdocuments.in/reader036/viewer/2022062721/56649f1c5503460f94c31d8d/html5/thumbnails/1.jpg)
Research and development on satellite data assimilation at the Canadian
Meteorological Center
L. Garand, S. K. Dutta, S. Heilliette, M. Buehner, and S. MacPhersonWorld Weather Open Science Conference 2014Montreal, QcAugust 16-21, 2014
![Page 2: Research and development on satellite data assimilation at the Canadian Meteorological Center L. Garand, S. K. Dutta, S. Heilliette, M. Buehner, and S.](https://reader036.fdocuments.in/reader036/viewer/2022062721/56649f1c5503460f94c31d8d/html5/thumbnails/2.jpg)
DRAFT – Page 2 – April 20, 2023
Outline
• Current data assimilation context
• Progress on the assimilation of surface sensitive infrared radiances over land
• Progress on the use of inter-channel error correlations
• Observing System Simulation Experiments capability
• Conclusion
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DRAFT – Page 3 – April 20, 2023
New data assimilation context
EC moving to ensemble-variational (EnVar) system with:
•Flow-dependent background errors including surface skin temperature correlations with other variables
•Analysis grid at 50 km, increments interpolated to model 25 km grid, 80 levels
•~140 AIRS and IASI channels assimilated: many sensitive to low level T, q, and Ts.
•Assimilation of North America ground-based GPS (impacts humidity analysis)
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DRAFT – Page 4 – April 20, 2023
Ensemble spread of Ts (Jan-Feb 2011) 00 UTC 06 UTC
12 UTC 18 UTC
Maximum ~15h localIn SH (summer)
Maximum at nightTibetan area (winter)
Ts background error over land in 4Dvar isConstant: 3 K.
In EnVar backgroundError is 50% ENKF,50% static (NMC)
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DRAFT – Page 5 – April 20, 2023
Assimilation of surface-sensitive IR radiances over land
Key challenges:
•Reliable cloud mask •Spectral emissivity definition•Highly variable topography•Radiance bias correction•Background and observation error definition
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DRAFT – Page 6 – April 20, 2023
Approach guided by prudence
Assimilate surface sensitive radiances under restrictive conditionsover land and sea ice:
•Estimate of cloud fraction < 0.01•High surface emissivity (> 0.97)•Relatively flat terrain (std of height < 100 m at 50 km scale)•Diff between background Ts and rough retrieval < 4 K
Radiance bias correction approach:
•For channels flagged as being surface sensitive, use only ocean data to update bias coefficients.
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DRAFT – Page 7 – April 20, 2023
Limitation linked to topography
Criterion used: local STD of topography < 50 m (on 3X3 ~50 km areas)
RED: accepted, white std > 100 m, blue 100>std>50 m
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DRAFT – Page 8 – April 20, 2023
Limitation linked to surface emissivity
Surface emissivityAIRS ch 787
Emissivity based onCERES land types(~15 km) + weighted averagefor water/ice/snowfraction.
Accept only emissivity > 0.97 ; Bare soil, open shrub regions excluded.
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DRAFT – Page 9 – April 20, 2023
Assigned observation error to radiances
15.0m 4.13m 15.3m 4.50m
Assigned = f std(O-P) Desroziers = <(O-P)(O-A)>
f typically in range1.6-2.0
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DRAFT – Page 10 – April 20, 2023
First attempt: negative impact in regions 60-90 N/S
00 hr 72hr
Possible cause: cloud contaminationRisk reduction: no assimilation at latitudes > 60 deg.
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DRAFT – Page 11 – April 20, 2023
Second attempt with added constraints
• Exclude latitudes > 60 deg
• Limit gradient of topography to 50 m (previously 100m) Strong sensitivity of this parameter to std(O-B) of surface channels
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DRAFT – Page 12 – April 20, 2023
Temp std difference vs lead time NH-Extra_trop
vs ERA Interim vs own analysis
Consistent positive impact vs ERA Interim and own
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DRAFT – Page 13 – April 20, 2023
T std diff (CNTL-EXP) vs ERA-Interim
Tropics SH Extratropics
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DRAFT – Page 14 – April 20, 2023
Time series of T std diff at 925 hPa
NH extratropics Tropics CNTLEXP
EXP superior to CNTL 55-65% of cases at days 3-5
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DRAFT – Page 15 – April 20, 2023
850 hPa Temp anomaly corr.
NH extratropics TropicsCNTLEXP
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DRAFT – Page 16 – April 20, 2023
120-h N-Extr vs ERA-Interim
CNTLEXP
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DRAFT – Page 17 – April 20, 2023
Validation vs raobs 120-hFEB-Mar 2011 (59 days)
North America EuropeCNTLEXP
U V U V
GZ T GZ T
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DRAFT – Page 18 – April 20, 2023
Added yield: about 15%(for surface sensitive channels)
Number of radiances assimilated for surface channel AIRS 787CNTL: ~1400/6h EXP: ~1600/6h
CNTLEXP
Region: world, EXP excludes surface-sensitive channels at latitudes > 60Radiance thinning is at 150 km
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DRAFT – Page 19 – April 20, 2023
R&D on Inter-channel error correlations
• Approach based on Desroziers et al. 2005. It allows for a simple evaluation of the R matrix using assimilation by-products (O-A) and (O-B) for channels i,j :
R = <(O-A)i(O-P)j>
• Bormann et al. demonstrated that this method gives similar results as other methods
• No adjustable parameter
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DRAFT – Page 20 – April 20, 2023
Known limitations
• The approach makes use of several assumptions (as other methods such as Hollingsworth-Longberg):
– Unbiased observations – Uncorrelated Background and Observation errors– Well specified B matrix
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DRAFT – Page 21 – April 20, 2023
Implementing the approach
tsym RRR~~
2
1~
• Desroziers diagnostic was applied using 21 days of quality controlled and bias corrected radiances assimilated in a reference cycle.
• The resulting Desroziers matrix was symmetrized:
• Estimates done for all radiances: AIRS, IASI, AMSU-A, AMSU-B, and SSM/I.
• Variances on diagonal still inflated (1.6 std(O-P))2
• Added modest 3% to analysis time
• Did not affect convergence of analysis cost function, using standard pre-conditioning
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DRAFT – Page 22 – April 20, 2023
Sample diagnosed correlations
Correlation structureof the symmetrized R for the 142 AIRS channels selected for assimilation
High correlations forwater vapor and surface channels
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DRAFT – Page 23 – April 20, 2023
Forecast scores against ECMWF analyses(std difference CNTL – EXP)
24-h RELATIVE HUMIDITY
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DRAFT – Page 24 – April 20, 2023
72-hr scores against ECMWF
T
U V
GZ
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DRAFT – Page 25 – April 20, 2023
Temp. anomaly correlation against ECMWF analyses (500 hPa, world)
ControlExperiment
General conclusion:
Overall positive impact,Worth implementing
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DRAFT – Page 26 – April 20, 2023
Planned Polar Communication and Weather Mission (PCW)
A possible 2-sat HEO system
Goal:Fill communication and meteorologicalobservation gaps in the Arctic. 15 min Imagery above 55N.
Most likely configuration:2 satellites in highly elliptical orbit
Status:Awaiting approval from governmentCould operate by 2021
Meteo instrument:Similar to ABI or FCI
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DRAFT – Page 27 – April 20, 2023
PCW would fill AMV gaps at high latitudes: what impact to expect?
Example of current AMV coverage per 6-h from 10 sources
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DRAFT – Page 28 – April 20, 2023
Impact on NWP based on OSSE(ECMWF Nature Run used as “truth”)
OSSE showing significant impact of PCW AMVs filling gap in polar areas
Garand et al., JAMC, 2013
Positive impact (blue) at 120-hIn both polar regions from 4 satellites
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DRAFT – Page 29 – April 20, 2023
Conclusion
• R&D assimilation now benefiting from En-Var system.
• Encouraging results on assimilation of surface sensitive IR radiances over land. Next step is to relax limitation on surface emissivity.
• Overall positive impact considering inter-channel error correlation for all radiances. Plan is to implement along with Cris and ATMS in 2015.
• OSSE capability developed at EC, and used to support PCW