example: application of the variable infiltration capacity model to climate impact assessment in the...
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Example: Application of the Variable Infiltration Capacity model to climate impact assessment in the Colorado River basin
Dennis P. LettenmaierDepartment of Civil and Environmental Engineering
University of Washington
for presentation at
Dividing the waters: Science for Judges Workshop IV
Workshop on Climate Change Modeling: General Circulation Models and Hydrometeorologic Models
Hotel BoulderadoBoulder, Colorado
May 13 – 15, 2007
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Outline of this talk
1) Climate variability and change context2) Prediction and assessment approach3) Hydrology and water management
implications for Colorado River basin -- Accelerated Climate Prediction Initiative (ACPI)
4) Postmortem – Milly et al (2005); Seager et al (2007); Christensen and Lettenmaier (2007)
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1) Climate variability and change context
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Temperature trends in the PNW over the instrumental record
• Almost every station shows warming (filled circles)
• Urbanization not a major source of warming
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Trends in timing of spring snowmelt (1948-2000)
Courtesy of Mike Dettinger, Iris Stewart, Dan Cayan
+20d later–20d earlier
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Source: Mote et al, 2005
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Trends in snowpack
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2) Prediction and assessment approach
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Climate Scenarios
Global climate simulations, next ~100 yrs
Downscaling
Delta Precip,Temp
HydrologicModel (VIC)
Natural Streamflow
ReservoirModel
DamReleases,Regulated
Streamflow
PerformanceMeasures
Reliability of System Objectives
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ReservoirModel
Hydrology Model
Coupled Land-Atmosphere-Ocean General Circulation
Model
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Accelerated Climate Prediction Initiative (ACPI) – NCAR/DOE Parallel Climate Model (PCM) grid over western U.S.
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Bias Correction and Downscaling Approach
climate model scenariometeorological outputs
hydrologic model inputs
snowpackrunoffstreamflow
• 1/8-1/4 degree resolution• daily P, Tmin, Tmax
•2.8 (T42)/0.5 degree resolution•monthly total P, avg. T
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Bias Correction
from NCDC observations
from PCM historical runraw climate scenario
bias-corrected climate scenario
month mmonth m
Note: future scenario temperature trend (relative to control run) removed before, and replaced after, bias-correction step.
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Downscaling
observed mean fields
(1/8-1/4 degree)
monthly PCManomaly (T42)
VIC-scale monthly simulation
interpolated to VIC scale
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Dam Operations in ColSim
Storage Dams
Run-of-River Dams
0
100000
200000
300000
400000
500000
600000
Oct Nov Dec Jan Feb Mar Apr May Jun Jul Aug Sep
Month
Avg
Str
eam
flow
(cf
s)
0
100000
200000
300000
400000
500000
600000
Oct Nov Dec Jan Feb Mar Apr May Jun Jul Aug Sep
Month
Avg
Str
eam
flow
(cf
s) Virgin Regulated
Flow In=Flow out + Energy
H
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Inflow
Run of River Reservoirs (inflow=outflow + energy)
Inflow
Inflow
Inflow
Inflow
Inflow
Storage ReservoirsReleases Depend on:•Storage and Inflow•Rule Curves (streamflow forecasts)•Flood Control Requirements•Energy Requirements•Minimum Flow Requirements•System Flow Requirements
System Checkpoint
Consumptive use
Consumptive use
Inflow +
ColSim
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3) Accelerated Climate Prediction Initiative (ACPI)
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GCM grid mesh over western U.S. (NCAR/DOE Parallel Climate Model at ~ 2.8 degrees lat-long)
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Climate Change Scenarios
Historical B06.22 (greenhouse CO2+aerosols forcing) 1870-2000
Climate Control B06.45 (CO2+aerosols at 1995 levels) 1995-2048
Climate Change B06.44 (BAU6, future scenario forcing) 1995-2099 Climate Change B06.46 (BAU6, future scenario forcing) 1995-2099 Climate Change B06.47 (BAU6, future scenario forcing) 1995-2099
Climate Control B06.45 derived-subset 1995-2015
Climate Change B06.44 derived-subset 2040-2060
PCM Simulations (~ 3 degrees lat-long)
PNNL Regional Climate Model (RCM) Simulations (~ ¾ degree lat-long)
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Future streamflows
• 3 ensembles averaged
• summarized into 3 periods;» Period 1 2010 - 2039
» Period 2 2040 - 2070
» Period 3 2070 - 2098
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4a) Hydrology and water management implications: Colorado River basin
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Timeseries Annual Average
Period 1 2010-2039 Period 2 2040-2069 Period 3 2070-2098
hist. avg.
ctrl. avg.
PCM Projected Colorado R. Temperature
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hist. avg.
ctrl. avg.
PCM Projected Colorado R. Precipitation
Timeseries Annual Average
Period 1 2010-2039 Period 2 2040-2069 Period 3 2070-2098
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Annual Average Hydrograph
Simulated Historic (1950-1999) Period 1 (2010-2039)Control (static 1995 climate) Period 2 (2040-2069)
Period 3 (2070-2098)
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Projected Spatial Change in Runoff
90 %86 %82 %83 %
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April 1 Snow Water Equivalent
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Natural Flow at Lee Ferry, AZ
Currently used 16.3 BCM
allocated20.3 BCM
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Storage ReservoirsRun of River Reservoirs
CRRM
• Basin storage aggregated into 4 storage reservoirs
– Lake Powell and Lake Mead have 85% of basin storage
• Reservoir evaporation = f(reservoir surface area, mean monthly temperature)
• Hydropower = f(release, reservoir elevation)
• Monthly timestep
• Historic Streamflows to Validate
• Projected Inflows to assess future performance of system
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Water Management Model (CRRM)
• Multi Species Conservation Program year 2000 demands– upper basin 5.4 BCM
– lower basin 9.3 BCM
– Mexico 1.8 BCM
• Minimum Annual Release from Glen Canyon Dam of 10.8 BCM
• Minimum Annual Release from Imperial Dam of 1.8 BCM
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Total Basin Storage
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Annual Releases to the Lower Basin
target release
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Annual Releases to Mexico
target release
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Annual Hydropower Production
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Uncontrolled Spills
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Deliveries to CAP & MWD
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Postmortem: Christensen and Lettenmaier (HESSD, 2007) – multimodel ensemble analysis with 11 IPCC
AR4 models (downscaled as in C&L, 2004)
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Magnitude and Consistency of Model-Projected Changesin Annual Runoff by Water Resources Region, 2041-2060
Median change in annual runoff from 24 numerical experiments (color scale)and fraction of 24 experiments producing common direction of change (inset numerical values).
+25%
+10%
+5%
+2%
-2%
-5%
-10%
-25%
Dec
reas
eIn
crea
se
(After Milly, P.C.D., K.A. Dunne, A.V. Vecchia, Global pattern of trends in streamflow andwater availability in a changing climate, Nature, 438, 347-350, 2005.)
96%
75%67%
62%87%
87%
71%
67%62%
58%
67%
62%58%
67%100%
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from Seager et al, Science Express, 2007
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5) Conclusions and Comparative analysis
• 1) Columbia River reservoir system primarily provides within-year storage (total storage/mean flow ~ 0.3). California is intermediate (~ 0.3), Colorado is an over-year system (~4)
• 2) Climate sensitivities in Columbia basin are dominated by seasonality shifts in streamflow, and may even be beneficial for hydropower. However, fish flow targets would be difficult to meet under altered climate, and mitigation by altered operation is essentially impossible.
• 3) California system operation is dominated by water supply (mostly ag), reliability of which would be reduced significantly by a combination of seaonality shifts and reduced (annual) volumes. Partial mitigation by altered operations is possible, but complicated by flood issues.
• 4) Colorado system is sensitive primarily to annual streamflow volumes. Low runoff ratio makes the system highly sensitive to modest changes in precipitation (in winter, esp, in headwaters). Sensitivity to altered operations is modest, and mitigation possibilities by increased storage are nil (even if otherwise feasible).