---
- attrs:
    .reference_type: 10
    Author: 'IUGLSB,'
    Institution: International Upper Great Lakes Study Board
    Keywords: Climate change
    Pages: 236
    Place Published: 'Ottawa, ON '
    Title: 'Lake Superior Regulation:  Addressing Uncertainty in Upper Great Lakes Water Levels. Final Report to the International Joint Commission. March 2012'
    URL: http://www.ijc.org/iuglsreport/wp-content/report-pdfs/Lake_Superior_Regulation_Full_Report.pdf
    Year: 2012
    _chapter: '["Ch. 26: Decision Support FINAL","Ch. 3: Water Resources FINAL","Ch. 18: Midwest FINAL"]'
    _record_number: 3658
    _uuid: 125c3ecf-fc2d-46dc-b42b-1d41cfb3ec46
    reftype: Report
  child_publication: /report/iugls-lakesuperior-2012
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  uri: /reference/125c3ecf-fc2d-46dc-b42b-1d41cfb3ec46
- attrs:
    .reference_type: 16
    Access Year: 2013
    Author: 'ACFS,'
    Publisher: Apalachicola-Chattahoochee-Flint Basin Stakeholders
    Title: A Grass-roots Stakeholder Organization for the ACF River Basin
    URL: http://acfstakeholders.org/about-acfs/missiongoals
    Year: 2013
    _chapter: '["Ch. 3: Water Resources FINAL"]'
    _record_number: 4096
    _uuid: 19d37361-7f68-4f49-a5d9-37d027933146
    reftype: Web Page
  child_publication: /webpage/2dc785f0-01a5-4c83-a915-cbddf081cb87
  href: http://52.38.26.42:8080/reference/19d37361-7f68-4f49-a5d9-37d027933146.yaml
  identifier: 19d37361-7f68-4f49-a5d9-37d027933146
  uri: /reference/19d37361-7f68-4f49-a5d9-37d027933146
- attrs:
    .reference_type: 0
    Abstract: 'Streamflow declines on the Great Plains of the US are causing many Federal reservoirs to become profoundly inefficient, and will eventually drive them into unsustainability as negative annual reservoir water budgets become more common. The streamflow declines are historically related to groundwater mining, but since the mid-1980s correlate increasingly with climate. This study highlights that progression toward unsustainability, and shows that future climate change will continue streamflow declines at historical rates, with severe consequences for surface water supply.; ; An object lesson is Optima Lake in the Oklahoma Panhandle, where streamflows have declined 99% since the 1960s and the reservoir has never been more than 5% full. Water balances for the four westernmost Federal reservoirs in Kansas (Cedar Bluff, Keith Sebelius, Webster and Kirwin) show similar tendencies. For these four, reservoir inflow has declined by 92%, 73%, 81% and 64% respectively since the 1950s. Since 1990 total evaporated volumes relative to total inflows amounted to 68%, 83%, 24% and 44% respectively.; ; Predictions of streamflow and reservoir performance based on climate change models indicate 70% chance of steady decline after 2007, with a ∼50% chance of failure (releases by gravity flow impossible) of Cedar Bluff Reservoir between 2007 and 2050. Paradoxically, a 30% chance of storage increase prior 2020 is indicated, followed by steady declines through 2100. Within 95% confidence the models predict >50% decline in surface water resources between 2007 and 2050. Ultimately, surface storage of water resources may prove unsustainable in this region, forcing conversion to subsurface storage.'
    Author: 'Brikowski, T.H.'
    DOI: 10.1016/j.jhydrol.2008.02.020
    ISSN: 0022-1694
    Issue: 1-4
    Journal: Journal of Hydrology
    Keywords: Global climate change; ; Arid zones; ; Water supply; ; Groundwater mining
    Pages: 90-101
    Title: 'Doomed reservoirs in Kansas, USA? Climate change and groundwater mining on the Great Plains lead to unsustainable surface water storage'
    Volume: 354
    Year: 2008
    _chapter: '["Ch. 3: Water Resources FINAL"]'
    _record_number: 538
    _uuid: 1e9e830a-b4e4-4a40-8390-5013027453d8
    reftype: Journal Article
  child_publication: /article/10.1016/j.jhydrol.2008.02.020
  href: http://52.38.26.42:8080/reference/1e9e830a-b4e4-4a40-8390-5013027453d8.yaml
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  uri: /reference/1e9e830a-b4e4-4a40-8390-5013027453d8
- attrs:
    .reference_type: 10
    Abstract: 'This report describes the first three-year phase of the Integrated Forecast and Reservoir Management (INFORM) project. The primary INFORM objective is to demonstrate the utility of present-day meteorological/climate and hydrologic forecasts for the Northern California river and reservoir system, including all major reservoirs on the Trinity, Sacramento, Feather, American, and San Joaquin rivers, and the Sacramento-San Joaquin Delta. In close collaboration with water forecast and management agencies of the region, a software system was designed and implemented in a distributed manner, with components that ran at various agency and research centers. The system contains real-time, short-range forecast components; off-line longer-range forecast components; and off-line decision components that span forecast and decision time scales from hours to seasons. In all cases, forecast uncertainty was explicitly characterized and used for risk-based decision support. Extensive tests with historical data and an initial five-month period of operational "dry run" testing for the wet season of 2005-2006 showed that system components perform well and clearly demonstrated the value of the system in advancing the current state of forecast, management, and planning operations in the region. The main recommendation is to continue the demonstration of the INFORM system for two to three more years to reliably quantify real-time performance and utility for planning and management and to explore more fully the various applications to which the system is suited. ; '
    Author: 'HRC-GWRI,'
    Institution: Hydrologic Research Center and Georgia Water Resources Institute
    Keywords: 'Ensemble precipitation forecasting, ; ensemble temperature forecasting, ; ensemble flow forecasting, ; risk-based decision support, ; adaptive reservoir management, ; INFORM, ; Integrated Forecast ; Reservoir Management '
    Pages: 263
    Title: 'Integrated Forecast and Reservoir Management (INFORM) for Northern California: System Development and Initial Demonstration. CEC-500-2006-109'
    URL: http://www.energy.ca.gov/2006publications/CEC-500-2006-109/CEC-500-2006-109.PDF
    Year: 2007
    _chapter: '["Ch. 3: Water Resources FINAL"]'
    _record_number: 975
    _uuid: 2b2ce56f-645c-4807-9a16-4460433f4861
    reftype: Report
  child_publication: /report/cec-500-2006-109
  href: http://52.38.26.42:8080/reference/2b2ce56f-645c-4807-9a16-4460433f4861.yaml
  identifier: 2b2ce56f-645c-4807-9a16-4460433f4861
  uri: /reference/2b2ce56f-645c-4807-9a16-4460433f4861
- attrs:
    .reference_type: 0
    Author: "Vicuna, S.\rDracup, J.A.\rLund, J.R.\rDale, L.L.\rMaurer, E.P."
    DOI: 10.1029/2009WR007838
    ISSN: 0043-1397
    Issue: 4
    Journal: Water Resources Research
    Pages: W04505
    Title: 'Basin-scale water system operations with uncertain future climate conditions: Methodology and case studies'
    Volume: 46
    Year: 2010
    _chapter: '["Ch. 3: Water Resources FINAL"]'
    _record_number: 3291
    _uuid: 32f16a0a-8d25-4e52-9804-1f18632491d6
    reftype: Journal Article
  child_publication: /article/10.1029/2009WR007838
  href: http://52.38.26.42:8080/reference/32f16a0a-8d25-4e52-9804-1f18632491d6.yaml
  identifier: 32f16a0a-8d25-4e52-9804-1f18632491d6
  uri: /reference/32f16a0a-8d25-4e52-9804-1f18632491d6
- attrs:
    .reference_type: 0
    Abstract: 'The overall goal of the present study is to show through a simulation experiment the value of adaptive management under climatic variability and change. The Northern California water resources management system is used as an example of a multi-agency, multi-site, multi-objective water resources management system that supports a trillion dollar economy to demonstrate the utility of the methods and to exemplify the assessment studies. Simulations are performed using an adaptation of the Integrated Forecast and Reservoir Management (INFORM) system of Northern California with 6-hourly 1.4° input from the CCSM3.0 climate model for historical/control (1970–2019) and future periods (2050–2099). The present paper examines the assessment of the hydroclimatological sensitivities and a companion paper (Georgakakos et al., this issue) examines the assessment of reservoir management sensitivities. The future period was based on the moderate CCSM3.0 A1B scenario. The INFORM system includes an intermediate complexity regional model for dynamic downscaling of the CCSM3.0 scenario output to produce surface precipitation and temperature fields with a 10 × 10 km2 resolution, and snow–soil-channel modeling of all the watersheds upstream of the major reservoirs in Northern California. The flow results indicate a shift in the monthly average flow volume toward earlier times in the year and higher flow variability for the future period. Higher average temperatures in the future period and, consequently, earlier snow pack melt are mainly responsible for these flow changes. Both daytime and nighttime average monthly temperatures are higher in the simulation of the future period for the entire domain with the northern catchments experiencing higher temperature increases. Simulated monthly average precipitation for the future period is higher in the southern high Sierras and lower in the northern drainage basins than the historical period precipitation. The uncertainty in the assessments for Northern California mentioned may be estimated with additional simulations similar to those shown in this work using high spatial and temporal resolution output from different climate models.'
    Author: "Georgakakos, K.P.\rGraham, N.E.\rCheng, F.-Y.\rSpencer, C.\rShamir, E.\rGeorgakakos, A.P.\rYao, H.\rKistenmacher, M."
    DOI: 10.1016/j.jhydrol.2011.04.032
    ISSN: 0022-1694
    Issue: 34-46
    Journal: Journal of Hydrology
    Keywords: Climate change impact assessment; ; Ensemble flow forecasting; ; California water resources; ; Dynamic downscaling; ; Adaptive water resources management
    Pages: 47-65
    Title: 'Value of adaptive water resources management in northern California under climatic variability and change: Dynamic hydroclimatology'
    Volume: 412-413
    Year: 2012
    _chapter: '["Ch. 17: Southeast and Caribbean FINAL","Ch. 3: Water Resources FINAL"]'
    _record_number: 1752
    _uuid: 412047fe-33cf-49b8-b714-f1a7b096cd43
    reftype: Journal Article
  child_publication: /article/10.1016/j.jhydrol.2011.04.032
  href: http://52.38.26.42:8080/reference/412047fe-33cf-49b8-b714-f1a7b096cd43.yaml
  identifier: 412047fe-33cf-49b8-b714-f1a7b096cd43
  uri: /reference/412047fe-33cf-49b8-b714-f1a7b096cd43
- attrs:
    .reference_type: 0
    Author: "Vano, J.A.\rVoisin, N.\rCuo, L.\rHamlet, A.F.\rElsner, M.M.G.\rPalmer, R.N.\rPolebitski, A.\rLettenmaier, D.P."
    DOI: 10.1007/s10584-010-9846-1
    ISSN: 0165-0009
    Issue: 1-2
    Journal: Climatic Change
    Pages: 261-286
    Title: 'Climate change impacts on water management in the Puget Sound region, Washington State, USA'
    Volume: 102
    Year: 2010
    _chapter: '["Ch. 3: Water Resources FINAL","Ch. 21: Northwest FINAL"]'
    _record_number: 3672
    _uuid: 43f67f10-aff3-4d61-8d87-a883adb24771
    reftype: Journal Article
  child_publication: /article/10.1007/s10584-010-9846-1
  href: http://52.38.26.42:8080/reference/43f67f10-aff3-4d61-8d87-a883adb24771.yaml
  identifier: 43f67f10-aff3-4d61-8d87-a883adb24771
  uri: /reference/43f67f10-aff3-4d61-8d87-a883adb24771
- attrs:
    .reference_type: 10
    Author: "Georgakakos, A.P.\rZhang, F.\rYao, H."
    Institution: Georgia Institute of Technology
    Pages: 321
    Place Published: 'Atlanta, GA'
    Title: 'Climate Variability and Change Assessment for the ACF River Basin, Southeast US. Georgia Water Resources Institute (GWRI) Technical Report sponsored by NOAA, USGS, and Georgia EPD'
    Year: 2010
    _chapter: '["Ch. 17: Southeast and Caribbean FINAL","Ch. 3: Water Resources FINAL"]'
    _record_number: 383
    _uuid: 47f6b2ff-a48f-4b48-899d-a901424bf5b2
    reftype: Report
  child_publication: /report/gwri-climvar-2010
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  uri: /reference/47f6b2ff-a48f-4b48-899d-a901424bf5b2
- attrs:
    .reference_type: 1
    Author: 'NRC,'
    ISBN: 0-309-25619-4
    Number of Pages: 280
    Place Published: 'Washington, D.C.'
    Publisher: National Research Council. The National Academies Press
    Reviewer: 4acc879e-eae3-4e14-96d5-5e083a548c50
    Title: Sustainable Water and Environmental Management in the California Bay-Delta
    URL: http://www.nap.edu/catalog.php?record_id=13394
    Year: 2012
    _chapter: '["Ch. 3: Water Resources FINAL"]'
    _record_number: 2312
    _uuid: 4acc879e-eae3-4e14-96d5-5e083a548c50
    reftype: Book
  child_publication: /report/nrc-bay-delta-2012
  href: http://52.38.26.42:8080/reference/4acc879e-eae3-4e14-96d5-5e083a548c50.yaml
  identifier: 4acc879e-eae3-4e14-96d5-5e083a548c50
  uri: /reference/4acc879e-eae3-4e14-96d5-5e083a548c50
- attrs:
    .reference_type: 0
    Author: "Vano, J.A.\rScott, M.J.\rVoisin, N.\rStöckle, C.O.\rHamlet, A.F.\rMickelson, K.E.B.\rElsner, M.M.G.\rLettenmaier, D.P."
    DOI: 10.1007/s10584-010-9856-z
    ISSN: 0165-0009
    Issue: 1-2
    Journal: Climatic Change
    Pages: 287-317
    Title: 'Climate change impacts on water management and irrigated agriculture in the Yakima River Basin, Washington, USA'
    Volume: 102
    Year: 2010
    _chapter: '["Ch. 3: Water Resources FINAL"]'
    _record_number: 3271
    _uuid: 4babef84-d85e-488e-b8c5-3fb080ebfcd3
    reftype: Journal Article
  child_publication: /article/10.1007/s10584-010-9856-z
  href: http://52.38.26.42:8080/reference/4babef84-d85e-488e-b8c5-3fb080ebfcd3.yaml
  identifier: 4babef84-d85e-488e-b8c5-3fb080ebfcd3
  uri: /reference/4babef84-d85e-488e-b8c5-3fb080ebfcd3
- attrs:
    .reference_type: 0
    Abstract: "Risk‐based planning offers a robust way to identify strategies that permit adaptive water resources management under climate change. This paper presents a flexible methodology for conducting climate change risk assessments involving reservoir operations. Decision makers can apply this methodology to their systems by selecting future periods and risk metrics relevant to their planning questions and by collectively evaluating system impacts relative to an ensemble of climate projection scenarios (weighted or not). This paper shows multiple applications of this methodology in a case study involving California's Central Valley Project and State Water Project systems. Multiple applications were conducted to show how choices made in conducting the risk assessment, choices known as analytical design decisions, can affect assessed risk. Specifically, risk was reanalyzed for every choice combination of two design decisions: (1) whether to assume climate change will influence flood‐control constraints on water supply operations (and how), and (2) whether to weight climate change scenarios (and how). Results show that assessed risk would motivate different planning pathways depending on decision‐maker attitudes toward risk (e.g., risk neutral versus risk averse). Results also show that assessed risk at a given risk attitude is sensitive to the analytical design choices listed above, with the choice of whether to adjust flood‐control rules under climate change having considerably more influence than the choice on whether to weight climate scenarios. "
    Author: "Brekke, L.D.\rMaurer, E.P.\rAnderson, J.D.\rDettinger, M.D.\rTownsley, E.S.\rHarrison, A.\rPruitt, T."
    DOI: 10.1029/2008WR006941
    ISSN: 0043-1397
    Issue: 4
    Journal: Water Resources Research
    Pages: W04411
    Title: Assessing reservoir operations risk under climate change
    URL: http://www.agu.org/pubs/crossref/2009/2008WR006941.shtml
    Volume: 45
    Year: 2009
    _chapter: '["Ch. 3: Water Resources FINAL"]'
    _record_number: 111
    _uuid: 4db2c787-a754-422a-8714-80bbb44def23
    reftype: Journal Article
  child_publication: /article/10.1029/2008WR006941
  href: http://52.38.26.42:8080/reference/4db2c787-a754-422a-8714-80bbb44def23.yaml
  identifier: 4db2c787-a754-422a-8714-80bbb44def23
  uri: /reference/4db2c787-a754-422a-8714-80bbb44def23
- attrs:
    .reference_type: 10
    Author: "Pietrowsky, R.\rRaff, D.\rMcNutt, C.\rBrewer, M.\rJohnson, T.\rBrown, T.\rAmpleman, M.\rBaranowski, C.\rBarsugli, J.\rBrekke, L.D.\rBrekki, L.\rCrowell, M.\rEasterling, D.\rGeorgakakos, A.\rGollehon, N.\rGoodrich, J.\rGrantz, K.A.\rGreene, E.\rGroisman, P.\rHeim, R.\rLuce, C.\rMcKinney, S.\rNajjar, R.\rNearing, M.\rNover, D.\rOlsen, R.\rPeters-Lidard, C.\rPoff, L.\rRice, K.\rRippey, B.\rRodgers, M.\rRypinski, A.\rSale, M.\rSquires, M.\rStahl, R.\rStakhiv, E.Z.\rStrobel, M."
    Pages: 31
    Title: 'Water Resources Sector Technical Input Report in Support of the U.S. Global Change Research Program, National Climate Assessment - 2013'
    Year: 2012
    _chapter: '["RG 9 Rural","Ch. 14: Rural Communities FINAL","RF 7","Ch. 3: Water Resources FINAL"]'
    _record_number: 1788
    _uuid: 50d47cc1-5a16-4f5c-bb08-bf6f475a5bb8
    reftype: Report
  child_publication: /report/nca-waterresourcessector-2013
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  uri: /reference/50d47cc1-5a16-4f5c-bb08-bf6f475a5bb8
- attrs:
    .reference_type: 1
    Author: 'NRC,'
    ISBN: 9780309128025
    Number of Pages: 104
    Place Published: 'Washington, D.C.'
    Publisher: National Research Council. The National Academies Press
    Reviewer: 7ef83121-d51c-4bc5-b499-e00733fae338
    Title: A Scientific Assessment of Alternatives for Reducing Water Management Effects on Threatened and Endangered Fishes in California's Bay Delta
    URL: http://www.nap.edu/catalog.php?record_id=12881
    Year: 2010
    _chapter: '["Ch. 3: Water Resources FINAL"]'
    _record_number: 2298
    _uuid: 7ef83121-d51c-4bc5-b499-e00733fae338
    reftype: Book
  child_publication: /report/nrc-baydelta-2010
  href: http://52.38.26.42:8080/reference/7ef83121-d51c-4bc5-b499-e00733fae338.yaml
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  uri: /reference/7ef83121-d51c-4bc5-b499-e00733fae338
- attrs:
    .reference_type: 0
    Abstract: 'The Colorado River supplies water to 27 million users in 7 states and 2 countries and irrigates over 3 million acres of farmland. Global climate models almost unanimously project that human-induced climate change will reduce runoff in this region by 10–30%. This work explores whether currently scheduled future water deliveries from the Colorado River system are sustainable under different climate-change scenarios. If climate change reduces runoff by 10%, scheduled deliveries will be missed ≈58% of the time by 2050. If runoff reduces 20%, they will be missed ≈88% of the time. The mean shortfall when full deliveries cannot be met increases from ≈0.5–0.7 billion cubic meters per year (bcm/yr) in 2025 to ≈1.2–1.9 bcm/yr by 2050 out of a request of ≈17.3 bcm/yr. Such values are small enough to be manageable. The chance of a year with deliveries <14.5 bcm/yr increases to 21% by midcentury if runoff reduces 20%, but such low deliveries could be largely avoided by reducing scheduled deliveries. These results are computed by using estimates of Colorado River flow from the 20th century, which was unusually wet; if the river reverts to its long-term mean, shortfalls increase another 1–1.5 bcm/yr. With either climate-change or long-term mean flows, currently scheduled future water deliveries from the Colorado River are not sustainable. However, the ability of the system to mitigate droughts can be maintained if the various users of the river find a way to reduce average deliveries. '
    Author: "Barnett, T.P.\rPierce, D.W."
    DOI: 10.1073/pnas.0812762106
    ISSN: 0027-8424
    Issue: 18
    Journal: Proceedings of the National Academy of Sciences
    Pages: 7334-7338
    Title: Sustainable water deliveries from the Colorado River in a changing climate
    URL: http://www.pnas.org/content/106/18/7334.full.pdf+html
    Volume: 106
    Year: 2009
    _chapter: '["Ch. 3: Water Resources FINAL"]'
    _record_number: 1635
    _uuid: 9cb51164-e933-48c9-9265-f09b4a9b63a3
    reftype: Journal Article
  child_publication: /article/10.1073/pnas.0812762106
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  uri: /reference/9cb51164-e933-48c9-9265-f09b4a9b63a3
- attrs:
    .reference_type: 1
    Author: 'NRC,'
    ISBN: 0-309-21231-6
    Number of Pages: 100
    Place Published: 'Washington, D.C.'
    Publisher: National Research Council. The National Academies Press
    Reviewer: afffeea6-ab1c-4ffa-9667-5174239693f3
    Title: A Review of the Use of Science and Adaptive Management in California's Draft Bay Delta Conservation Plan
    URL: http://www.nap.edu/catalog.php?record_id=13148
    Year: 2011
    _chapter: '["Ch. 3: Water Resources FINAL"]'
    _record_number: 2310
    _uuid: afffeea6-ab1c-4ffa-9667-5174239693f3
    reftype: Book
  child_publication: /report/nrc-baydelta-2011
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    .reference_type: 0
    Abstract: "The potential effects of climate change on the hydrology and water resources of the Columbia River Basin (CRB) were evaluated using simulations from the U. S. Department of Energy and National Center for Atmospheric Research Parallel Climate Model (DOE/NCAR PCM). This study focuses on three climate projections for the 21st century based on a 'business as usual' (BAU) global emissions scenario, evaluated with respect to a control climate scenario based on static 1995 emissions. Time-varying monthly PCM temperature and precipitation changes were statistically downscaled and temporally disaggregated to produce daily forcings that drove a macroscale hydrologic simulation model of the Columbia River basin at 1/4-degree spatial resolution. For comparison with the direct statistical downscaling approach, a dynamical downscaling approach using a regional climate model (RCM) was also used to derive hydrologic model forcings for 20-year subsets from the PCM control climate ( 1995 - 2015) scenario and from the three BAU climate ( 2040 - 2060) projections. The statistically downscaled PCM scenario results were assessed for three analysis periods ( denoted Periods 1 - 3: 2010 - 2039, 2040 - 2069, 2070 - 2098) in which changes in annual average temperature were + 0.5, + 1.3 and + 2.1 degreesC, respectively, while critical winter season precipitation changes were - 3, + 5 and + 1 percent. For RCM, the predicted temperature change for the 2040 - 2060 period was + 1.2 degreesC and the average winter precipitation change was - 3 percent, relative to the RCM control climate. Due to the modest changes in winter precipitation, temperature changes dominated the simulated hydrologic effects by reducing winter snow accumulation, thus shifting summer streamflow to the winter. The hydrologic changes caused increased competition for reservoir storage between firm hydropower and instream flow targets developed pursuant to the Endangered Species Act listing of Columbia River salmonids. We examined several alternative reservoir operating policies designed to mitigate reservoir system performance losses. In general, the combination of earlier reservoir refill with greater storage allocations for instream flow targets mitigated some of the negative impacts to flow, but only with significant losses in firm hydropower production ( ranging from - 9 percent in Period 1 to - 35 percent for RCM). Simulated hydropower revenue changes were less than 5 percent for all scenarios, however, primarily due to small changes in annual runoff."
    Accession Number: 489
    Author: "Payne, J.T.\rWood, A.W.\rHamlet, A.F.\rPalmer, R.N.\rLettenmaier, D.P."
    Author Address: 'Lettenmaier, DP (reprint author), Univ Washington, Dept Civil Engn, 164 Wilcox Hall,POB 352700, Seattle, WA 98195 USA; Univ Washington, Dept Civil Engn, Seattle, WA 98195 USA'
    DOI: 10.1023/B:CLIM.0000013694.18154.d6
    Date: JAN-FEB 2004
    ISSN: 0165-0009
    Issue: 1-3
    Journal: Climatic Change
    Keywords: WESTERN UNITED-STATES; SENSITIVITY; MODEL; SIMULATIONS; CALIFORNIA; IMPACTS
    Language: English
    Pages: 233-256
    Title: Mitigating the effects of climate change on the water resources of the Columbia River Basin
    URL: http://link.springer.com/content/pdf/10.1023%2FB%3ACLIM.0000013694.18154.d6
    Volume: 62
    Year: 2004
    _chapter: '["Ch. 3: Water Resources FINAL","Ch. 21: Northwest FINAL"]'
    _record_number: 2446
    _uuid: c3b1c82e-1821-465f-8466-9d42799340ad
    reftype: Journal Article
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    Author: "Milly, P. C. D. \rJulio Betancourt\rMalin Falkenmark\rRobert M. Hirsch\rZbigniew W. Kundzewicz\rDennis P. Lettenmaier\rRonald J. Stouffer"
    DOI: 10.1126/science.1151915
    ISSN: 0036-8075
    Issue: '5863 '
    Journal: Science
    Pages: 573-574
    Title: 'Stationarity is dead: Whither water management?'
    Volume: 319
    Year: 2008
    _chapter: '["Ch. 20: Southwest FINAL","Ch. 3: Water Resources FINAL"]'
    _record_number: 2046
    _uuid: c52f2539-9c5e-4ead-b8b7-f1884c5d662e
    reftype: Journal Article
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  identifier: c52f2539-9c5e-4ead-b8b7-f1884c5d662e
  uri: /reference/c52f2539-9c5e-4ead-b8b7-f1884c5d662e
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    Author: "Obeysekera, J.\rIrizarry, M.\rPark, J.\rBarnes, J.\rDessalegne, T."
    DOI: 10.1007/s00477-010-0418-8
    ISSN: 1436-3240
    Issue: 4
    Journal: Stochastic Environmental Research and Risk Assessment
    Pages: 495-516
    Title: Climate change and its implications for water resources management in south Florida
    Volume: 25
    Year: 2011
    _chapter: '["RG 2 Southeast","Ch. 17: Southeast and Caribbean FINAL","Ch. 3: Water Resources FINAL"]'
    _record_number: 2337
    _uuid: d0797088-3f92-4cfc-be8d-15027a28378e
    reftype: Journal Article
  child_publication: /article/10.1007/s00477-010-0418-8
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  identifier: d0797088-3f92-4cfc-be8d-15027a28378e
  uri: /reference/d0797088-3f92-4cfc-be8d-15027a28378e
- attrs:
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    Author: "Rajagopalan, B.\rNowak, K.\rPrairie, J.\rHoerling, M.\rHarding, B.\rBarsugli, J.\rRay, A.\rUdall, B."
    DOI: 10.1029/2008wr007652
    ISSN: 1944-7973
    Issue: 8
    Journal: Water Resources Research
    Pages: W08201
    Title: 'Water supply risk on the Colorado River: Can management mitigate?'
    Volume: 45
    Year: 2009
    _chapter: '["Ch. 3: Water Resources FINAL"]'
    _record_number: 2579
    _uuid: d9b704d3-1441-4cf8-a7dc-cc2b1d14c8c5
    reftype: Journal Article
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  identifier: d9b704d3-1441-4cf8-a7dc-cc2b1d14c8c5
  uri: /reference/d9b704d3-1441-4cf8-a7dc-cc2b1d14c8c5
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    Abstract: 'This paper explores the independent and combined effects of changes in temperature and runoff volume on California’s water supply and potential water management adaptations. Least-cost water supply system adaptation is explored for two climate scenarios: 1) warmer-drier conditions, and 2) warmer conditions without change in total runoff, using the CALVIN economic-engineering optimization model of California’s intertied water supply system for 2050 water demands. The warm-dry hydrology was developed from downscaled effects of the GFDL CM2.1 (A2 emissions scenario) global climate model for a 30-year period centered at 2085. The warm-only scenario was developed from the warm-dry hydrology, preserving its seasonal runoff shift while maintaining mean annual flows from the historical hydrology. This separates the runoff volume and temperature effects of climate change on water availability and management adaptations. A warmer climate alone reduces water deliveries and increases costs, but much less than a warmer-drier climate, if the water supply system is well managed. Climate changes result in major changes in reservoir operations, cyclic storage of groundwater, and hydropower operations.'
    Author: "Connell-Buck, C.R.\rMedellín-Azuara, J.\rLund, J.R.\rMadani, K."
    DOI: 10.1007/s10584-011-0302-7
    ISSN: 0165-0009
    Issue: 1 Supplement
    Journal: Climatic Change
    Pages: 133-149
    Title: Adapting California’s water system to warm vs. dry climates
    Volume: 109
    Year: 2012
    _chapter: '["Ch. 3: Water Resources FINAL"]'
    _record_number: 44
    _uuid: e610dc47-1231-4cbf-b43d-083cc76aa885
    reftype: Journal Article
  child_publication: /article/10.1007/s10584-011-0302-7
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