Title: Comparing model with observations: methods, tools and results
1Comparing model with observationsmethods, tools
and results
- Mélanie JUZA, Thierry Penduff, Bernard Barnier
-
- LEGI-MEOM, Grenoble
DRAKKAR meeting, Grenoble, France, 11-12-13
February 2009
2Objectives / Activities
- Assessment of DRAKKAR simulations
- - Quantitative and systematic comparisons
model/observations - - Intercomparison of simulations
- (impact of resolution, forcing, numerical
scheme, parametrizations) - Observability of the ocean dynamics (OSSE)
- - Accuracy of ARGO array
- Distribution of data and tools to the
scientific community
- Development of tools collocation
model/observations, statistics, vizualization - Scientific studies. Papers in preparation
3Hydrography collocation
4Hydrography collocation
ARGO 1998-2004
5Hydrography simulated and observed MLD
Mixed layer depths (MLD) (m)
ARGO
ORCA025-G70
? Realism of simulated and observed MLD
6Hydrography method for the analysis of mixed
layer quantities
- Distribution of Mixed Layer Depth / Temperature
/ Salinity / Heat and Salt Contents - Medians and percentiles 17 and 83
Exemple MLD in North Atlantic
MODEL BIAS
SAMPLING ERROR
September 1998-2004
-- full model -- subsampled model
(like ARGO) -- ARGO
7Hydrography sampling errors
Monthly cycles of MLD (1998-2004)
zone MNW-ATL
-- subsampled model (ARGO) -- full model
MLD
Solid lines medians Dashed lines percentiles
17, 83
Sampling error ? well observed monthly cycle.
Sampling error in winter.
8Hydrography sampling errors at global scale
ARGO sampling errors on the monthly MLD
(1998-2004)
Sampling error ltsubsampled model gt ltfull
modelgt
Bins 30 x 30 x 1 month (1998-2004)
- ARGO sampling errors maximum in winter (extreme
values 100m) - Especially in inhomogene (Southern Ocean, North
Atl.) and coastal regions
9Hydrography sampling errors at global scale
ARGO sampling errors on the monthly MLD
(1998-2004)
Sampling error ltsubsampled model gt ltfull
modelgt
Bins 30 x 30 x 1 month (1998-2004)
- ARGO sampling errors maximum in winter (extreme
values 100m) - Especially in inhomogene (Southern Ocean, North
Atl.) and coastal regions
10Hydrography sampling errors at global scale
ARGO sampling errors on the monthly MLD
(1998-2004)
Sampling error ltsubsampled model gt ltfull
modelgt
Bins 30 x 30 x 1 month (1998-2004)
- ARGO sampling errors maximum in winter (extreme
values 100m) - Especially in high variable (Southern Ocean,
North Atl.) and coastal regions
11Hydrography sampling errors at global scale
ARGO sampling errors on the monthly MLD
(1998-2004)
Sampling error ltsubsampled model gt ltfull
modelgt
Bins 30 x 30 x 1 month (1998-2004)
- ARGO sampling errors maximum in winter (extreme
values 100m) - Especially in high variable (Southern Ocean,
North Atl.) and coastal regions
12Hydrography conclusion
- Assessment of ARGO sampling errors
- - More dependence on spatial distribution of
floats rather than number of floats - - MLT, MLS, MLHC, MLSC
- Assessment of the simulations
- - Mixed layer monthly cycles
- - Impact of resolution
- Perspectives
- Extension to - recent years (maximum ARGO
coverage) - - the last 50 years
(interannual cycles) - - all instruments (ARGO
floats CTD, XBT, moored buoys)
13Altimetry collocation
14Altimetry interannual SLA (statistics)
Impact of resolution on low-frequency variability
SLA standard deviation (cm)
(1993-2004)
AVISO
¼ ORCA025-G70
1 ORCA1-R70
2 ORCA246-G70
½ ORCA05-G70.113
? Global increase of interannual variability with
resolution
15Altimetry interannual variability (EOFS)
Assess the ability of models to reproduce the
observed interannual variability in various
regions
- Data processing
- - Observed SLA EOFs (decomposition spatial mode
temporal amplitude-PC) - Projection of simulated SLA on observed SLA EOFS
- Comparison PC(obs)/projections variance,
correlation
Exemple interannual SLA in North Atlantic
(1993-2004)
Associated obs. amplitude and mod. projections
Mode 1 Observed SLA var17
Lag with NAO (weeks)
obs ¼ ½ 1 2
Projections of simulated SLA reproduce main
features of the obs. variability. More explained
variance with 1/4
Simulated lags more realistic with increase of
resolution
Intergyre gyre of Marshall
? Resolution improves space-time variability
16Altimetry interannual variability (EOFS)
Exemple large-scale (gt6) and interannual SLA in
Southern Ocean (1993-2004)
Mode 1 Observed SLA var18
Associated obs. amplitude and mod. projections
Response to ENSO
Resolution does not change variance projected on
observations
Conclusion - Global and regional (North Atl.,
Gulf Stream, Equat. Pac., Indian, Southern
Ocean) - Resolution improves space-time
variability, except in Southern Ocean (intrinsic
variability?) - Similar processing applied to SST
analysis (Reynolds, NCEP) - Response of ocean to
atmospheric variability (NAO, ENSO, SAM, AAO) -
Impact of mesoscale on low-frequency variability
17Conclusion
- Collocate and compare model observations T,
S, SLA, SST - Assess simulations. Quantify model sensitivities
- Evaluate the accuracy of observing systems (ARGO
sampling errors, paper in preparation) - Tools are mature. Technical report users
manual. Fields are being distributed.
- Perspectives
- Further assess the interannual variability in
eddying models (paper in preparation) - Evaluate every new simulation (global, regional,
reanalyses) - Extend to new datasets current meters (G.
Holloway), ice field thickness (A. Worby), - gravimetry, maregraph, SSS,
- Foster collaborations
http//www-meom.hmg.inpg.fr/Web/pages-perso/Melani
eJuza/
18Hydrography model bias at global scale
Model bias of the monthly MLD (1998-2004)
- run ORCA025-G70
- run ORCA246-G70
MLD
too shallow
too deep
ltBiasgt ltcollocated model ARGOgt
Bins 30 x 30 x 1 month (1998-2004)
- Model biaises seasonal, regional, too deep MLD
in winter (max50m) - The increase of resolution improves the
representation of MLD
19Hydrography model bias at global scale
Model bias of the monthly MLD (1998-2004)
- run ORCA025-G70
- run ORCA246-G70
MLD
too shallow
too deep
ltBiasgt ltcollocated model ARGOgt
- Conclusion - ORCA025-G70, ORCA05-G710.113,
ORCA1-R70, ORCA246-G70 - - MLT, MLS, MLHC, MLSC
- - Resolution improves mixed
layer monthly cycles - - Use of all instruments from
1956 to present (interannual cycles)
20Altimetry SLA standard deviation
HF (Tlt5months)
MF (5ltTlt18months)
LF (Tgt18months)
AVISO
ORCA025-G70
ORCA05-G70.113
ORCA1-R70
ORCA246-G70
(1993-2004)
21Altimetry SLA zonal variance and correlation
SLA standard deviation (cm)
Model/obs SLA correlation
(1993-2004)
LF (interannual)
MF (annual)
HF (high freq.)
AVISO ORCA025-G70 ORCA05-G70.113
ORCA1-R70 ORCA246-G70
? Zonal variability increases with resolution
- Zonal correlation decreases with resolution in
S.O.
gt Forced vs intrinsic variability in the
Southern Ocean
22Biais global T/S modèle global ¼
Structure verticale moyennes temporelles
Pdf de
Pdf de
Ecart modèle ¼ (sous-échantillonné comme ARGO)
- observations (ARGO)
Structure horizontale intégration sur les
couches de surface (1998-2004)
23Biais régional T/S modèle global ¼
Courant Nord Atlantique
Kuroshio
-3C 300-500m
2C 100-400m
-0.6 Ã -0.25 0-600m
0.2 100-400m
24Conclusion - Perspectives
- Altimetry
- Resolution improve space-time variability (lag
NAO) - Increased resolution yields stronger local
variances (depend on latitude), similar or
smaller correlations (increased intrinsic
variability), improved basin-scale space-time
variability - Interannual variability impact resolution
correlation , variance increase - In general, enhanced variance projects on
observations (except in Southern Ocean) - perspective Impact of mesoscale on
low-frequency variability. Forced vs intrinsic
variability.
- In the future
- Continue to investigate the impact of the
resolution on the realism of the model
(2,1,1/2,1/4) - Systematize the assessment of simulations
(forcing, parametrization,) - Regional simulations (NATL4, NATL12), with
assimilation (HYCOM), - Scientific studies and collaborations
- Others datasets current meters (G. Holloway),
ice field thickness (A. Worby), gravimetry, - maregraph, SSS,
25Altimetry interannual SLA (statistics)
SLA standard deviation (cm)
AVISO
(1993-2004)
ORCA025-G70
ORCA1-R70
ORCA246-G70
ORCA05-G70.113
? Global increase of std(SLA) with resolution