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Transcript
ASSESSING POTENTIAL IMPACTS OF CLIMATE CHANGE ON WATER RESOURCES: THREE WESTERN U.S. CASE STUDIES Dennis P. Lettenmaier Department of Civil and Environmental Engineering University of Washington Center for Streamside Studies and Center for Urban Water Resources Management Annual Review of Research February 6, 2003 Humans are altering atmospheric composition Natural Climate Influence Human Climate Influence All Climate Influences Trends in timing of spring snowmelt (1948-2000) +20d later –20d earlier Courtesy of Mike Dettinger, Iris Stewart, Dan Cayan Trends in snowpack Climate Scenarios Global climate simulations, next ~100 yrs Hydrologic Model (VIC) Natural Streamflow Downscaling Delta Precip, Temp Performance Measures Reliability of System Objectives Reservoir Model DamReleases, Regulated Streamflow Accelerated Climate Prediction Initiative (ACPI) – NCAR/DOE Parallel Climate Model (PCM) grid over western U.S. Climate Change Scenarios PCM Simulations (~ 3 degrees lat-long) Historical B06.22 (greenhouse CO2+aerosols forcing) 1870-2000 Climate Control B06.45 (CO2+aerosols at 1995 levels) 1995-2048 Climate Change Climate Change Climate Change B06.44 (BAU6, future scenario forcing) B06.46 (BAU6, future scenario forcing) B06.47 (BAU6, future scenario forcing) 1995-2099 1995-2099 1995-2099 PNNL Regional Climate Model (RCM) Simulations (~ ¾ degree lat-long) Climate Control B06.45 derived-subset 1995-2015 Climate Change B06.44 derived-subset 2040-2060 Downscaling monthly PCM anomaly (T42) interpolated to VIC scale VIC-scale monthly simulation observed mean fields (1/8-1/4 degree) Coupled LandAtmosphere-Ocean General Circulation Model Hydrology Model Reservoir Model BAU 3-run average historical (1950-99) control (2000-2048) PCM Business-as-Usual scenarios Columbia River Basin (Basin Averages) PCM Business-AsUsual Mean Monthly Hydrographs Columbia River Basin @ The Dalles, OR 1 month 12 1 month 12 Period 3 Period 2 Period 1 Percent of Control Run Climate 2040-2069 140 120 PCM Control Climate and Current Operations 100 PCM Projected Climate and Current Operations PCM Projected Climate with Adaptive Management 80 60 Firm Hydropower Annual Flow Deficit at McNary Percent of Control Run Climate 2070-2098 140 PCM Control Climate and Current Operations 120 PCM Projected Climate and Current Operations 100 PCM Projected Climate with Adaptive Management 80 60 Firm Hydropower Annual Flow Deficit at McNary BAU 3-run average historical (1950-99) control (2000-2048) PCM Business-as-Usual scenarios California (Basin Average) PCM Business-as-Usual Scenarios Snowpack Changes California April 1 SWE PCM Business-AsUsual Mean Monthly Hydrographs Shasta Reservoir Inflows 1 month 12 1 month 12 Central Valley Water Year Type Occurrence Percent Given WY Type 0.6 hist (1906-2000) 0.5 2020s 2050s 2090s 0.4 0.3 0.2 0.1 0.0 Critically Dry Dry Below Normal Water Year Type Above Normal Wet PCM Projected Colorado R. Temperature Timeseries Annual Average ctrl. avg. hist. avg. Period 1 2010-2039 Period 2 2040-2069 Period 3 2070-2098 Annual Average Hydrograph Simulated Historic (1950-1999) Control (static 1995 climate) Period 1 (2010-2039) Period 2 (2040-2069) Period 3 (2070-2098) Natural Flow at Lee Ferry, AZ Natural Flow at Lee Ferry Stream Gage 30 Annual Flow (BCM) 25 allocated 20.3 BCM 20 15 Currently used 16.3 BCM 10 5 0 1900 1910 1920 1930 Annual Flow 1940 1950 10 Year Average 1960 1970 1980 Running Average 1990 2000 Annual Releases to the Lower Basin Figure 9 14 1.2 Average Annual Release to Lower Basin (BCM/YR) Probability release to Lower Basin meets or exceeds target (probability) 12 1 target release 10 8 0.6 6 0.4 4 0.2 2 0 0 Historical Control Period 1 Period 2 Period 3 Probability BCM / YR. 0.8 Annual Releases to Mexico Figure 10 1.2 Average Annual Release to Mexico (BCM/YR) 3 Probability release to Mexico meets or exceeds target (probability) BCM / YR. 2.5 1 0.8 2 target release 0.6 1.5 0.4 1 0.2 0.5 0 0 Historical Control Period 1 Period 2 Period 3 Probability 3.5 Annual Hydropower Production Figure 12 18000 Minimum 16000 Average Energy, GW - hr 14000 Maximum 12000 10000 8000 6000 4000 2000 0 Historical Control Period 1 Period 2 Period 3 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).
