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Groundwater as a Statewide Resource. Professor Richard E. Howitt Agricultural & Resource Economics, UC Davis Professor Jay R. Lund Civil & Environmental Engineering, UC Davis. Dr. Marion W. Jenkins Andrew J. Draper Matthew D. Davis Kenneth W. Kirby Kristen B. Ward Brian J. Van Lienden
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Groundwater as a Statewide Resource Professor Richard E. Howitt Agricultural & Resource Economics, UC Davis Professor Jay R. Lund Civil & Environmental Engineering, UC Davis
Dr. Marion W. Jenkins Andrew J. Draper Matthew D. Davis Kenneth W. Kirby Kristen B. Ward Brian J. Van Lienden Brad D. Newlin Pia M. Grimes Jennifer L. Cordua Siwa M. Msangi Real work done by
State of California Resources Agency National Science Foundation US Environmental Protection Agency A Study Funded by
1) Groundwater’s statewide importance 2) Some questions 3) Why Economics? 4) Economic values for water use 5) CALVIN statewide model 6) Some early groundwater results 7) Conclusions and ongoing work... Overview
Is Groundwater Important? • 30-40% of California’s off-stream supplies in average years • More groundwater use in dry years • Total storage capacity = 850 MAF
Major Groundwater Areas • Sacramento Valley • San Joaquin Valley • Tulare Basin • Salinas Valley • South Coast
Major State Groundwater Issues 1. Managing Conjunctive Use 2. Groundwater Mining 3. Recharge and Surface Activities
Conjunctive Use? 1. Promising locations? 2. Local Control and Coordination? 3. Operating Coordination? 4. Statewide Coordination?
Groundwater Mining? 1. Balancing short and long-term benefits and costs? 2. Economic use of mined water? 3. Effects of actions statewide on local groundwater mining?
Recharge and Surface Activities? 1. Agricultural return flows? 2. Urban return flows? 3. Stream-aquifer interaction?
Why Economics? “When the well’s dry, we know the worth of water.” Benjamin Franklin (1746), Poor Richard’s Almanac.
Economic Values for Water • Willingness to pay • Agricultural • Urban • Environmental
Agricultural Water Use Values • Economic value of water to farmers • SWAP model • 24 Regions • Values by month
Based on CVPM model Expanded to include entire state Monthly water decisions More detailed production decisions Agricultural Production Model - SWAP
Available acreage, water, technology Production function for each crop Prices and costs Observed farm data Agricultural Inputs
Agricultural Water Use Values July 70,000 June August 60,000 50,000 March Benefits ($ 000) 40,000 May 3,000 30,000 October April 2,000 February 20,000 January 1,000 10,000 September 0 5 10 15 October 0 0 50 100 150 200 250 300 350 400 Deliveries (taf)
Residential demand curves to estimate value of water use Lost production survey to estimate value of industrial water use Urban Demand Model
2020 demands Industrial and residential Observed residential demand curve Industrial production lost 1995 retail water prices Urban Inputs
Monthly values of water 20 Urban regions Urban Outputs
CALVIN An Economic-Engineering Optimization Model for California’s Water Supplies
What is CALVIN? • Entire inter-tied California water system • Surface and groundwater systems • Prescribes monthly system operation • Based on economic benefits • Maximizes economic objectives
Ag Inputs Urban Inputs SWAP Model Urban Demand Model Input Databases CALVIN Optimization Results Data Flow
Optimization vs Simulation • Optimization - What’s best? • What water operations and allocations give the best performance? • Simulation - What if? • What is performance givena setof water operation and allocation rules?
Optimization vs Simulation? • Should be used together • Optimization needs more simplification • Provides economic information not available from simulation • Promising solutions for detailed study
CALVIN vs Other Models • Other models like DWRSIM, PROSIM, and CVGSM are simulation models • CALVIN is an optimization model
CALVIN’s Innovations • 1) Groundwater and Surface Water • 2) Statewide model • 3) Optimization model • 4) Economic perspective and values • 5) Data - model management • 6) New management options
Model Schematic • Over 1,200 spatial elements • 56 Surface reservoirs • 38 Ground water reservoirs • 47 Agricultural regions • 20 Urban demand regions • 600+ Conveyance Links
Model Inputs • Agricultural water values • Urban water values • Hydrology: Surface & ground water • Facility capacities • Operating costs • Environmental Flow Constraints • Policy Constraints
Hydrology Inputs • 1921 - 1993 historical period • Monthly inflows • Surface inflows from DWR and • USBR data • Groundwater from CVGSM and • local studies
CALVIN Represents Groundwater • 1921 - 1993 historical period • 38 Groundwater reservoirs • Pumping and recharge decisions • Fixed interbasin flows, inflows, and • losses • Calibrated to CVGSM and • local studies
CALVIN’s Engine • Army Corps of Engineers Hydrologic Engineering Center Prescriptive Reservoir Model (HEC-PRM) • A data-driven network flow programming model
CALVIN and Groundwater • Some very preliminary results • Semi-calibrated model run • Some ideas • Don’t trust these numbers.
What does this show? • Groundwater can serve both seasonal and drought demands. • “Optimized” groundwater doesn’t necessarily drain basins. • External inflows and outflows have economic value statewide.
So what? • Values of storage capacity and reach. • Aquifer suited for drought storage. • Groundwater mining has some economic value. • Groundwater coordinated with other supplies and demands.
Conclusions • Groundwater is a statewide resource. • Coordination is important. • Economics and Markets can help us better employ groundwater. • Optimization models can suggest promising solutions.
Running model to working model Policy and capacity alternatives Database & tool development Much left to do... Ongoing Efforts
More Information ... • Web site: cee.engr.ucdavis.edu/faculty/lund/CALVIN • Workshop: Friday, Sept. 24, 10am-3pm UC Davis Campus, 1120 Bainer Hall
