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![Page 1: Eugene S. Takle Iowa State University, Ames, IA gstakle@iastate.edu Transferability Intercomparisons: New Insights by Use of Regional Climate Models Indiana.](https://reader030.fdocuments.net/reader030/viewer/2022032612/56649ef45503460f94c076db/html5/thumbnails/1.jpg)
Eugene S. Takle Iowa State University, Ames, IA
Transferability Intercomparisons:New Insights by Use of Regional
Climate Models
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Indiana University, 27 October 2006
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What do we mean by
“Transferability Intercomparisons”?
Intercomparison of simulations performed by a collection of regional climate models, each applied without changing tuning parameters, on multiple domains.
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“Transferability” is considered the next step beyond RCM “model intercomparison projects” (MIPs) for advancing our understanding of the global energy balance and the global water cycle by use of models
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Transferability Objective
Regional climate model transferability experiments are designed to advance the science of high-resolution climate modeling by taking advantage of continental-scale observations and analyses.
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Objective
Regional climate model transferability experiments are designed to advance the science of high-resolution climate modeling by taking advantage of continental-scale observations and analyses.
Model Intercomparisons Projects (MIPs) have helped modelers eliminate major model deficiencies. Coordinated studies with current models can advance scientific understanding of global water and energy cycles.
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Use of Regional Models to Study Climate
How portable are our models?
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Use of Regional Models to Study Climate
How portable are our models? How much does “tuning” limit the
general applicability to a range of climatic regions?
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Use of Regional Models to Study Climate
How portable are our models? How much does “tuning” limit the
general applicability to a range of climatic regions?
Can we recover some of the generality of “first-principles” models by examining their behavior on a wide range of climates?
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Transferability Working Group (TWG) Overall Objective
To understand physical processes underpinning the global energy budget, the global water cycle, and their predictability through systematic intercomparisons of regional climate simulations on several
continents and through comparison of these simulated climates with coordinated
continental-scale observations and analyses
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Examples of Past Advances due to “Transferability”:
Applications of Non-US Models to North American Domain*
Australian model run over the US revealed need for a much more robust vegetation model to capture strong feedbacks not common in Australia
* From Project to Intercompare Regional Climate Simulations (PIRCS)
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Examples of Past Advances due to “Transferability”:
Applications of Non-US Models to North American Domain*
Australian model run over the US revealed need for a much more robust vegetation model to capture strong feedbacks not common in Australia
Canadian model run over the US revealed need for more accurate convective parameterization for strong convection not found in Canada
* From Project to Intercompare Regional Climate Simulations (PIRCS)
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Examples of Past Advances due to “Transferability”:
Applications of Non-US Models to North American Domain*
Australian model run over the US revealed need for a much more robust vegetation model to capture strong feedbacks not common in Australia
Canadian model run over the US revealed need for more accurate convective parameterization for strong convection not found in Canada
Swedish model run over the US severely tested its convection, interaction of convection with the PBL and turbulent representation of the LLJ (which is not prevalent in Europe). Provided new ideas for linking convective activity to convective cloudiness.
* From Project to Intercompare Regional Climate Simulations (PIRCS)
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TRANSFERABILITY EXPERIMENTS FOR ADDRESSING CHALLENGES TO UNDERSTANDING
GLOBAL WATER CYCLE AND ENERGY BUDGET
PIRCS
PRUDENCE
LA PLATA
RMIP
IRI/ARC
GKSS/ICTS
ARCMIP
AMMA
MAGS
BALTEXBALTEX
MDBMDB
GAME
GAPP
LBA
GAPP
LBA
GAME
CATCH
BALTIMOS
CAMP
GLIMPSE
SGMIP QUIRCS
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Precipitation over Upper Mississippi River Basin
0
2
4
6
8
10
12
14
136 141 146 151 156 161 166 171 176 181 186 191 196
Julian Day
Observed
MM5-BATS
RSM-Scripps
RSM-NCEP
DARLAM
HIRHAM
RegCM2
RAMS
Project to Intercompare Regional Climate Simulations (PIRCS)
Experiment PIRCS 1a
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Cumulative Precipitation for Upper Misssissippi River Basin
0
50
100
150
200
250
300
350
400
450
1-Jun 11-Jun 21-Jun 1-Jul 11-Jul 21-Jul 31-JulDate
Precipitation (mm)
RegCM2DARLAMRSM - NCEPMM5 - BATSHIRHAMRSM - ScrippsObservedModel Mean
Project to Intercompare Regional Climate Simuations (PIRCS)
Experiment PIRCS 1b
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Types of Experiments
Multiple models on multiple domains (MM/MD)– Hold model choices constant for all
domains
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Types of Experiments
Multiple models on multiple domains (MM/MD)– Hold model choices constant for all
domains Not
– Single models on single domains– Single models on multiple domains– Multiple models on single domains
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Specific Objectives of TWG
Provide a framework for systematic evaluation of simulations of dynamical and climate processes arising in different climatic regions
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Specific Objectives of TWG
Provide a framework for systematic evaluation of simulations of dynamical and climate processes arising in different climatic regions
Evaluate “transferability”, that is, quality of model simulations in “non-native” regions
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Specific Objectives of TWG
Provide a framework for systematic evaluation of simulations of dynamical and climate processes arising in different climatic regions
Evaluate “transferability”, that is, quality of model simulations in “non-native” regions
“Meta-comparison” among models and among domains
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GEWEX CSEs overlain to indicate correlation between "hotspots" as identified by Koster et al. (2004) and GEWEX CSEs. Dashed circle over India indicates a major "hotspot" that is not a CSE, but dialog is
beginning with Indian Meteorological Department on joint experiments.Locations of “hotspots” having high land-atmosphere coupling strength as identified by Koster et al. (2004) with GEWEX Continental Scale Experiments overlain.
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Static stability (CAPE) – Diurnal timing– Seasonal patterns– Spatial patterns
Monsoon characteristics– Diurnal timing of precip– Onset timing– Precip spatial patterns
Snow processes– Rain-snow partitioning– Snow-water equivalent– Snowmelt– Snow-elevation effects
Soil moisture Frozen soils Cloud formation
Candidate Issues Highly Relevant to Hypotheses on the Water and Energy
Cycles
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Slide source: B. Rockel
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TWG Hypothesis 1
Models show no superior performance on domains of origin as evaluated by accuracy in reproducing diurnal cycles of key surface hydrometeorological variables.True: Where do models show superior accuracy and why?
False: How can models be improved on non-native domains while maintaining/improving home-domain accuracy?
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Hypothesis Test
Use hourly CEOP data from GAPP, Baltex, MAGS, LBA and CAMP for period of CEOP-1 (1 July 2001 – 30 September 2001):
Model
CSE Site Lat Long Lat LongBaltex Cabauw 51.97 4.93 52.00 5.00Baltex Lindenberg 52.17 14.12 52.00 14.00MAGS Berms 53.99 -105.12 54.00 -105.00GAPP Ft. Peck 48.31 -105.10 48.50 -105.00GAPP Bondville 40.01 -88.29 40.00 -88.50LBA Pantanal -19.56 -57.01 -20.00 -57.00
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Hypothesis Test
Compare measured values with model simulations at indicated grid points for
diurnal cycles of
Surface sensible heat flux Surface latent heat flux Monthly Bowen ratio Surface relative humidity Surface air temperature
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Hypothesis Test
Compare measured values with model simulations at indicated grid points for
diurnal cycles
Compute monthly mean and quartile values of hourly measurements of each variable.
Compute correlation coefficient for the 24 values of the diurnal cycle of mean and quartiles for each variable
Compute amplitude of diurnal cycle Evaluate and compare model vs. observations for distributions of extremes by
use of 4th quartile populations
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Native Native Non-nativeModel Continent Domain CSE Domains Reference
RSM N. America GAPP Baltex, LBA Roads et al. (2003)RegCM3 Europe Baltex GAPP, LBA Pal et al. (2006 submitted)CLM Europe Baltex GAPP, LBA Steppeler (2003)RCA3 Europe Baltex GAPP, LBA Jones et al. (2004)GEM-LAM** N. America GAPP** Baltex, LBA Côté et al. (1998)
** model developed and tuned for global numerical weather prediction of the GEM model
Models and Domains Used in Preliminary Transferability Intercomparison
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Mean
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Mean
Ist Quartile
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Mean
Median
Ist Quartile
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Mean
Median
Ist Quartile
3rd Quartile
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Mean
Median
Ist Quartile
3rd Quartile
Extremes
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Mean
Median
Ist Quartile
3rd Quartile
Extremes
Outliers
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Slide source: B. Rockel
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Slide source: B. Rockel
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Slide source: B. Rockel
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Slide source: B. Rockel
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Betts, A. K., 2004: Bull. Amer. Meteor. Soc, 85, 1673-1688.
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Betts, A. K., 2004: Bull. Amer. Meteor. Soc, 85, 1673-1688.
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Betts, A. K., 2004: Bull. Amer. Meteor. Soc, 85, 1673-1688.
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Appreciation is extended to:
TWG modeling team: RSM/Scripps:John Roads and Insa Meinke CLM/GKSS: Burkhardt Rockel RegCM3/ISU: Bill Gutowski RCA3/SHMI: Colin Jones, Ulf Hansson, Ulrika Willèn, Patrick
Samuelsson GEM-LAM/MSC-RPN: Colin Jones
JOSS CEOP data archive: Steve Williams
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FCA=Future, region A
FCA
Variable or Process 1
Var
iab
le o
r P
roce
ss 2
Climates
Simulating Future Climates with Models Trained on Current Climates
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FCA=Future, region A
FCA
Variable or Process 1
Var
iab
le o
r P
roce
ss 2
Climates
CCA=Current, region A
CCA
Simulating Future Climates with Models Trained on Current Climates
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FCA=Future, region A
FCA
Variable or Process 1
Var
iab
le o
r P
roce
ss 2
Model Simulations
CCA, model 1(on its home domain)
Climates
CCA=Current, region A
CCA
Simulating Future Climates with Models Trained on Current Climates
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FCA=Future, region A
FCA
Variable or Process 1
Var
iab
le o
r P
roce
ss 2
Model Simulations
CCA, model 1
CCA, model 2
Climates
CCA=Current, region A
CCA
Simulating Future Climates with Models Trained on Current Climates
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FCA=Future, region A
CCB
FCA
Variable or Process 1
Var
iab
le o
r P
roce
ss 2
Model Simulations
CCA, model 1
CCA, model 2
Climates
CCA=Current, region A
CCB=Current, region B
CCA
Simulating Future Climates with Models Trained on Current Climates
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FCA=Future, region A
CCB
FCA
Variable or Process 1
Var
iab
le o
r P
roce
ss 2
Model Simulations
CCA, model 1
CCA, model 2
Climates
CCA=Current, region A
CCB=Current, region B
CCA
CCB, model 2(on its home domain)
Simulating Future Climates with Models Trained on Current Climates
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FCA=Future, region A
CCB
FCA
Variable or Process 1
Var
iab
le o
r P
roce
ss 2
Model Simulations
CCA, model 1
CCA, model 2
Climates
CCA=Current, region A
CCB=Current, region B
CCA
CCB, model 2
CCB, model 1
Simulating Future Climates with Models Trained on Current Climates
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FCA=Future, region A
CCB
FCA
Variable or Process 1
Var
iab
le o
r P
roce
ss 2
Model Simulations
CCA, model 1
CCA, model 2
Climates
CCA=Current, region A
CCB=Current, region B
CCA
CCB, model 2
CCB, model 1
Simulating Future Climates with Models Trained on Current Climates
Fully spanning FCA requires:More modelsMore domains
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NARCCAP Domain
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NARCCAP Plan
A2 Emissions Scenario
GFDL CCSM HADAM3link to EU programs
CGCM3
1960-1990 current 2040-2070 futureProvide boundary conditions
MM5Iowa State/
PNNL
RegCM3UC Santa Cruz
ICTP
CRCMQuebec,Ouranos
HADRM3Hadley Centre
RSMScripps
WRFNCAR/PNNL
Reanalyzed climate , 1979-2000
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Summary Transferability experiments will allow new insight on
global water and energy cycles that will advance climate and weather modeling on all time and spatial scales
TWG Hypothesis 1, examining the diurnal cycles of key surface hydrometeorological variables, revealed evidence that regional models have a “home domain” advantage
More robust climate simulations across multiple climates gives more assurance that your model will be applicable to future climates.
http://rcmlab.agron.iastate.edu/twg