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Incorporating Large-Scale Climate Information in Water Resources Decision Making

Incorporating Large-Scale Climate Information in Water Resources Decision Making. Balaji Rajagopalan Dept. of Civil, Env. And Arch. Engg. And CIRES Katrina Grantz, Edith Zagona (CADSWES) Martyn Clark (CIRES). Inter-decadal. Climate. Decision Analysis: Risk + Values. Time Horizon.

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Incorporating Large-Scale Climate Information in Water Resources Decision Making

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  1. Incorporating Large-Scale Climate Information in Water Resources Decision Making Balaji Rajagopalan Dept. of Civil, Env. And Arch. Engg. And CIRES Katrina Grantz, Edith Zagona (CADSWES) Martyn Clark (CIRES)

  2. Inter-decadal Climate Decision Analysis: Risk + Values Time Horizon • Facility Planning • Reservoir, Treatment Plant Size • Policy + Regulatory Framework • Flood Frequency, Water Rights, 7Q10 flow • Operational Analysis • Reservoir Operation, Flood/Drought Preparation • Emergency Management • Flood Warning, Drought Response Data: Historical, Paleo, Scale, Models Weather Hours A Water Resources Management Perspective

  3. Study Area PYRAMID LAKE WINNEMUCCA LAKE (dry) CALIFORNIA NEVADA Nixon Stillwater NWR Derby Dam STAMPEDE Reno/Sparks Fernley Fallon TRUCKEE RIVER INDEPENDENCE BOCA Newlands Project PROSSER Truckee CARSON LAKE MARTIS LAHONTAN Carson City DONNER Tahoe City CARSON RIVER LAKE TAHOE NEVADA Truckee Carson CALIFORNIA TRUCKEE CANAL Farad Ft Churchill

  4. Motivation • US Bureau of Reclamation (USBR) searching for an improved forecasting model for the Truckee and Carson Rivers (accurate and with long-lead time) • Forecasts determine reservoir releases and diversions • Protection of listed species Cui-ui Truckee Canal Lahontan Cutthroat Trout

  5. Outline of Approach Climate Diagnostics • Climate Diagnostics To identify relevant predictors to spring runoff in the basins • Forecasting Model Nonparametric stochastic model conditioned on climate indices and snow water equivalent Forecasting Model Decision Support System • Decision Support System Couple forecast with DSS to demonstrate utility of forecast

  6. Data Used • 1949-2003 monthly data sets: • Natural Streamflow (Farad & Ft. Churchill gaging stations) • Snow Water Equivalent (SWE)- basin average • Large-Scale Climate Variables

  7. Winter Climate Correlations Carson Spring Flow 500mb Geopotential Height Sea Surface Temperature

  8. Fall Climate Correlations Carson Spring Flow 500mb Geopotential Height Sea Surface Temperature

  9. Physical Mechanism • Winds rotate counter-clockwise around area of low pressure bringing warm, moist air to mountains in Western US L

  10. Climate Indices • Use areas of highest correlation to develop indices to be used as predictors in the forecasting model • Area averages of geopotential height and SST 500 mb Geopotential Height Sea Surface Temperature

  11. Outline of Approach Climate Diagnostics • Climate Diagnostics To identify relevant predictors to spring runoff in the basins • Forecasting Model Nonparametric stochastic model conditioned on climate indices and SWE Forecasting Model Decision Support System • Decision Support System Couple forecast with DSS to demonstrate utility of forecast

  12. The Ensemble Forecast Problem • Ensemble Forecast/Stochastic Simulation /Scenarios generation – all of them are conditional probability density function problems • Estimate conditional PDF and simulate (Monte Carlo, or Bootstrap) • K-NN Approach is Used

  13. Model Validation & Skill Measure • Cross-validation: drop one year from the model and forecast the “unknown” value • Compare median of forecasted vs. observed (obtain “r” value) • Rank Probability Skill Score • Likelihood Skill Score

  14. Forecasting Results

  15. Outline of Approach Climate Diagnostics • Climate Diagnostics To identify relevant predictors to spring runoff in the basins • Forecasting Model Nonparametric stochastic model conditioned on climate indices and SWE Forecasting Model • Decision Support System Couple forecast with DSS to demonstrate utility of forecast Decision Support System

  16. Method to test the utility of the forecasts and the role they play in decision making Model implements major policies in lower basin (Newlands Project OCAP) Seasonal time step Seasonal Decision Support System

  17. Seasonal Model Policies • Use Carson water first • Max canal diversions: 164 kaf • Storage targets on Lahontan Reservoir: 2/3 of historical April-July runoff volume • No minimum fish flows (release from upstream reservoir to combat low flows)

  18. Decision Model Flowchart

  19. Lahontan Storage Available for Irrigation Truckee River Water Available for Fish Diversion through the Truckee Canal Decision Variables

  20. Canal Diversion Water for Fish Irrigation Water Decision Model Results Dec 1st Forecast Feb 1st Forecast Apr 1st Forecast

  21. Dry Year: 1994 April 1st February 1st December 1st Truckee Forecast Carson Forecast Storage for Irrigation Canal Diversion Water for Fish

  22. Wet Year: 1993 April 1st February 1st December 1st Truckee Forecast Carson Forecast Storage for Irrigation Canal Diversion Water for Fish

  23. Normal Year: 2003 April 1st February 1st December 1st Truckee Forecast Carson Forecast Storage for Irrigation Canal Diversion Water for Fish

  24. Exceedance Probabilities

  25. Summary & Conclusions • Climate indicators improve forecasts and offer longer lead time • Water managers can utilize the improved forecasts in operations and seasonal planning Grantz et al. (2005) – submitted to BAMS Grantz et al. (2005) – accepted in Water Resources Research.

  26. Acknowledgements Funding • CIRES and the Innovative Research Project • Tom Scott of USBR Lahontan Basin Area Office

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