columbia river basin water supply and demand forecast for the 2030s
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Columbia River Basin Water Supply and Demand Forecast for the 2030s. Jennifer C. Adam, Assistant Professor Civil and Environmental Engineering Washington State University. WSU Modeling Team. Civil and Environmental Engineering Jennifer Adam, Assistant Professor - PowerPoint PPT PresentationTRANSCRIPT
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Columbia River Basin Water Supply and Demand Forecast for the 2030s
Jennifer C. Adam, Assistant ProfessorCivil and Environmental EngineeringWashington State University
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WSU Modeling TeamCivil and Environmental EngineeringJennifer Adam, Assistant ProfessorMichael Barber, Professor and Director of Washington Water CenterKiran Chinnayakanahalli, Postdoctoral AssociateKirti Rajagopalan, PhD StudentShifa Dinesh, PhD Student
Biological Systems EngineeringClaudio Stöckle, Professor and ChairRoger Nelson, Research AssociateKeyvan Malek, PhD Student
School of EconomicsMichael Brady, Assistant ProfessorJon Yoder, Associate ProfessorTom Marsh, Professor and Director of IMPACT Center
Center for Sustaining Agriculture and Natural ResourcesChad Kruger, DirectorGeorgine Yorgey, Research Associate
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Background
The economic, ecologic, and cultural well being of Washington's Columbia River Basin depends on water
Irrigation largest water user
Economic value of agriculture (5 billion $ in WA)
Water resources sensitive to climate change
Better understanding of future range in supply and demand needed to guide investment decisions
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Goals
To project 2030s water supply and (agricultural and municipal) demand in the Columbia River Basin
WA Dep. of Ecology Report to State Legislature (November, 2011)
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Linked WSU Study Components
1. Regional survey of Columbia River Basin water managers
2. Biophysical modeling of historical and future supply and irrigation demand
3. Economic analyses of domestic and international factors driving agricultural production
4. Municipal demand forecast 5. Hydropower review
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Modeling Integration:*Surface Hydrology*Cropping Systems*Water Management*Economics
Modeling Approach
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http://www.hydro.washington.edu/2860/ Slide courtesy of Alan Hamlet
The UW CIG Supply Forecast
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Application of the UW CIG Water Supply Forecast
WSU is building directly off of the UW water supply forecasting effort (Elsner et al. 2010) by starting with these tools that were developed by UW Climate Impacts Group: Implementation of the VIC hydrology model over the
Pacific Northwest at 1/16th degree resolution Reservoir Model, ColSim Historical climate data at 1/16th degree resolution Downscaled future climate data at 1/16th degree
resolution WSU added elements for handling agriculture:
integrated crop systems and hydrology irrigation withdrawals from reservoirs, and including
some smaller reservoirs, curtailment modeling economic modeling of farmer response
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Models Used
VIC Hydrology
Liang et al, 1994
CropSystCropping Systems
Stockle and Nelson 1994
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Overview of Framework
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VIC-CropSyst Model
1. Weather (D)
2. SoilSoil layer depths
Soil water content
3. Water flux (D)Infiltrated water
4. Crop type
Irrigation water = Crop Water Demand
/irrigation efficiency
Sow dateCrop interception
capacityCrop phenologyCrop uptake (D)Water stress (D)
Current biomass (D)Crop Water demand
(D)Harvest dayCrop Yield
VIC CropSyst
D – communicated daily
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T – TranspirationIP – Interception capacityI – InfiltrationIr – irrigationWd- Water demandQ – RunoffQ01 – Drainage from 0 to 1Q02 – Drainage from 0 to 2Qb – BaseflowW0 – water content in 0W1 – water content in 1W2 - water content in 2Tmin, Tmax – daily minimum and maximum temperatureWs – wind speedRH – Relative humiditySR – Solar radiation
Qb
Q12
T
IP
Redistribute I, W0, W1 and W2 to CropSyst layers
Q
Q01
W0,W1, W2
T0, T1, T2, IP, Wd
I
CropSyst
VIC
Ir
Daily Tmin, Tmax, Ws, RH, SR, I
VIC-CropSyst : Coupling Approach
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Invoking CropSyst within VIC gridcell
Crop 1
VIC grid cell(resolution=1/16°)(~ 33 km2)
Crop 2
Non-Crop
Vegetation
CropSyst is
invoked
CropSyst is
invoked
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Crops Modeled
Winter Wheat Spring Wheat Alfalfa Barley Potato Corn Corn, Sweet Pasture Apple Cherry Lentil Mint Hops
Grape, Juice Grape, Wine Pea, Green Pea, Dry Sugarbeet Canola
Onions Asparagus Carrots Squash Garlic Spinach
Generic Vegetables
Grape, Juice Grass hay Bluegrass Hay Rye grass
Oats Bean, green Rye Barley Bean, dry Bean, green
Other Pastures
Lentil/Wheat type
Caneberry Blueberry Cranberry
Pear Peaches
Berries
Other Tree fruits
Major Crops
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Physical Systemof Damsand Reservoirs
Reservoir Operating Policies
Reservoir StorageRegulated StreamflowFlood ControlEnergy ProductionIrrigation ConsumptionStreamflow Augmentation
0100000200000300000400000500000600000700000800000900000
1971
1972
1973
1974
1975
1976
1977
1978
1979
1980
Flow
(cfs
)
VIC Streamflow Time Series
The Reservoir Model (ColSim) (Hamlet et al., 1999)
Slide courtesy of Alan Hamlet
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ColSim Reservoir Model (Hamlet et al., 1999) for Columbia Mainstem
Model used as is, except for
Withdrawals being based on VIC-CropSyst results
Curtailment decision is made part of the reservoir model
#*#*
#*#* #*#* #*
#* #*
#*#*#* #* #*#*
#*
#*
#*
#*
#*
Green triangles show the dam locations
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Curtailment Rules (Washington State)Curtailment based on instream flow targets Columbia Mainstem Lower Snake Central Region (Methow, Okanogan, Wenatchee) Eastern Region (Walla Walla, Little Spokane,
Colville)
Prorated based on a calculation of Total Water Supply Available
Yakima
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Yakima Reservoir Model
Irrigation demand from VIC/CropSystCurtailment rules
Proratable water rights prorated according to Total Water Supply Available (TWSA) calculated each month
Monthly Inflows
from VIC-CropSyst
Total System of Reservoirs (capacity 1MAF approx.)
Objectives:
• Reservoir refill by June 1st
• Flood space availability
Instream flow
targets
Gauge at Parker
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Model Calibration/Evaluation Calibration:
Streamflows (we used calibration from Elsner et al. 2010 and Maurer et al. 2002)
Crop Yields (using USDA NASS values) Irrigation Rules (using reported irrigated
extent by watershed) Evaluation:
Streamflows (Elsner et al. 2010 and Maurer et al. 2002)
USBR Diversions from Bank’s Lake (for Columbia Basin Project)
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Biophysical Modeling:VIC-CropSyst, Reservoirs,
Curtailment
• Crop Yield (as impacted by climate and water availability)
• Adjusted Crop Acreage
• Selective Deficit Irrigation
1. Water Supply2. Irrigation Water
Demand3. Unmet Irrigation
Water Demand4. Effects on Crop
Yield
Economic Modeling:Agricultural Producer
Response
Water Management Scenario
Future Climate Scenario
Inputs Modeling Steps Outputs
Integration with Economics
Economic Scenario
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Model Scenarios: Low, Middle, High Climate Change Scenarios
HADCM_B1, CCSM_B1, CGCM_B1, PCM_A1B, IPSL_A1B Hybrid Delta Downscaling Approach (2030s climate) (UW
CIG) GCMs and Emission Scenarios chosen for low/middle/high
precipitation and temperature change combinations
Water Management Scenarios Additional Storage Capacity Cost Recovery for Newly Developed Water Supply
Economic Scenarios International Trade Economic Growth
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1. Columbia Basin-Scale and Columbia Mainstem
2. Example Watershed-Scale1. Yakima2. Walla Walla
Results Draft
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Water Supply Entering
Washington• Eastern: increasing• Western: decreasing
Top: 2030 Flow (cfs)Bottom: Historical Flow (cfs)
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Water Supply Entering Columbia Mainstem
• Eastern: increasing• Western: decreasing
Top: 2030 Flow (cfs)Bottom: Historical Flow (cfs)
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Snake River and Columbia River Supplies
Snake River Columbia River
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Regulated Supply vs Demand for Columbia River Basin (at Bonneville)
2030 results are for- HADCM_B1 climate scenario- average economic growth and trade
Note: Supply is reported prior to accounting for demands
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Regulated Supply and In-Stream Flow Requirements at Key Locations Future
(2030)Historical (1977-2006)
Note: Supply is reported prior to accounting for demands
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Watersheds Included in Study
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Out-of-Stream Demand by Watershed
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Yakima
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Yakima Supply
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Yakima Demand
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Yakima Supply and Demand
Historical
Hadcm_B1
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Walla Walla
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Walla Walla Supply
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Walla Walla Demand
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Walla WallaSupply and Demand
Historical
Hadcm_B1
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Conclusions and Future Directions Changes in supply (average of all climate
scenarios) 3% increase in annual flow at Bonneville However, 16% decrease in summer flow at Bonneville
Changes in demand (middle econ and climate scenarios) 10% increase in agricultural demand over basin 12% increase in agricultural demand over state
Some watersheds more impacted than others Increased irrigation demand, coupled with
decreased seasonal supply poses difficult water resources management questions, especially in the context of competing in stream and out of stream users of water supply.
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Time Line on Report to State Legislature Outreach workshops in Spokane, Wenatchee, and
Tri-Cities (last month) Draft Legislative Report has been released:
http://www.ecy.wa.gov/programs/wr/cwp/wsu_supply-demand.html
Final Legislature Report by end of October: Responses to comments from workshops High/low economic scenarios Unmet demand due to curtailment
Full Technical Report by end of year: Impacts of climate change and curtailment on
crop yield Full economic scenarios
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Longer-Term Directions
2016 Report to State Legislature, improvements that are being considered Groundwater dynamics Columbia-basin scale economics (not just
state-level) Fuller inclusion of climate change scenarios More ground-truthing
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BioEarth
http://www.cereo.wsu.edu/bioearth/
• Overarching Goal: To improve the understanding of regional and decadal-scale C:N:H2O interactions in context of global change to better inform decision makers involved in natural and agricultural resource management.
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Acknowledgements
Alan Hamlet and others at UW CIG Peer reviewers Bob Mahler, Ari
Michelson, Jeff Peterson Dana Pride WA Dep. of Ecology
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THANK YOU!
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Uncertainties
1-Future climate (due to GCMs, greenhouse emission scenarios anddownscaling approach)
2-Model structure (VIC-CropSyst)
3-Water management and economic scenarios
4-Cropping pattern - discrepancy between multiple data sources
5-Irrigation supply – poor data on groundwater and surface waterproportions of the supply
6-Irrigation methods a)No information for upstream states b)Conveyance loss is not modeled (This is a proportion of the demand at each WRIA)
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Change in Crop Yield
Crop typePercent change (tons/hectare)
Corn -12.9Spring Wheat 7.7Winter Wheat 25.1
Alfalfa 10.0Apples 0.0
Cherry Orchard 0.0Potatoes -9.1Grapes 0.0
- Change in some crop yield - Trees does not show significant change
- Results are for full irrigation
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Crop Mix Informationfor the Columbia River Basin
United States Department of Agriculture (USDA)
Washington State Department of Agriculture (WSDA)
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Example WRIA Results: – Supply in WENATCHEE
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Example WRIA Results - Demand in WENATCHEE
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Example WRIA Results – Supply and Demand in WENATCHEE
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