EcoLogic -- Catalyzing New Water Management Tools in the West Through the Colorado River System Conservation Program

The Colorado River is a critical source of water supply for 40 million people in nine states spanning two nations in western North America. Overallocated in the 20th century, its problems have been compounded by climate change in the 21st century. We review the basin’s hydrologic and water management history in order to identify opportunities for adaptive governance to respond to the challenge of reduced system flows and distill the ingredients of past successes. While significant advances have been made in the first two decades of the 21st century, these past actions have not been sufficient to halt the declines in the basin’s reservoirs. We find that the mix of federal, state, and local responsibility creates challenges for adaptation but that progress can be made through a combination of detailed policy option development followed by quick action at hydrologically driven moments of opportunity. The role of directives and deadlines from federal authorities in facilitating difficult compromises is noted. The current state of dramatically decreased overall flows has opened a window of opportunity for the adoption of water management actions that move the river system toward sustainability. Specific measures, based on the existing institutional framework and on policy proposals that have circulated within the Colorado River community, are suggested.

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Building hydrosocialism in Czechoslovakia

Global Environment ◽

10.3197/ge.2020.130305 ◽

2020 ◽

Vol 13 (3) ◽

pp. 610-633

Author(s):

Jiří Janáč

Keyword(s):

Water Management ◽

Social Change ◽

Natural Resource ◽

Environmental Issues ◽

State Socialism ◽

Communist Society ◽

The West ◽

Transformative Power ◽

Reflexive Modernity ◽

The 1960S

Throughout the period of state socialism, water was viewed as an instrument of immense transformative power and water experts were seen as guardians of such transformation, a transformation for which we coin the term 'hydrosocialism'. A reconfiguration of water, a scarce and vital natural resource, was to a great extent identified with social change and envisioned transition to socialist and eventually communist society. While in the West, hydraulic experts (hydrocrats) and the vision of a 'civilising mission' of water management (hydraulic mission) gradually faded away with the arrival of reflexive modernity from the 1960s, in socialist Czechoslovakia the situation was different. Despite the fact they faced analogous challenges (environmental issues, economisation), the technocratic character of state socialism enabled socialist hydraulic engineers to secure their position and belief in transformative powers of water.

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Cattle keeping, fertilization and water quality - a pilot study

Water Science & Technology ◽

10.2166/wst.1994.0490 ◽

1994 ◽

Vol 30 (9) ◽

pp. 249-253

Author(s):

Pascal Maret

Keyword(s):

Water Management ◽

Water Quality ◽

Surface Water ◽

Pilot Study ◽

Global Approach ◽

The West ◽

Breeding Management ◽

Significant Damage ◽

Cultivation Methods ◽

Cattle Husbandry

Significant damage to surface water is caused by cattle husbandry. Only one global approach of water management and farming techniques (breeding management and cultivation methods) will ensure significant results. A pilot study run in the west of France proved that water quality can easily be improved by renovating the cattle buildings. It also showed that manure used as a fertilizer covers cultivation needs, which allows substantial savings for the farmers.

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Leveraging environmental flows to reform water management policy: Lessons learned from the 2014 Colorado River Delta pulse flow

Ecological Engineering ◽

10.1016/j.ecoleng.2017.02.012 ◽

2017 ◽

Vol 106 ◽

pp. 683-694 ◽

Cited By ~ 21

Author(s):

Eloise Kendy ◽

Karl W. Flessa ◽

Karen J. Schlatter ◽

Carlos A. de la Parra ◽

Osvel M. Hinojosa Huerta ◽

...

Keyword(s):

Water Management ◽

Colorado River ◽

Environmental Flows ◽

Lessons Learned ◽

River Delta ◽

Management Policy ◽

Colorado River Delta ◽

Pulse Flow

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How Long Does a 15-Year Drought Last? On the Correlation of Rare Events

Journal of Climate ◽

10.1175/jcli-d-18-0326.1 ◽

2019 ◽

Vol 32 (5) ◽

pp. 1345-1359 ◽

Cited By ~ 4

Author(s):

George Rhee ◽

Jimmy Salazar ◽

Corwin Grigg

Keyword(s):

Water Supply ◽

Tree Ring ◽

Colorado River ◽

River System ◽

Past Century ◽

Water Shortages ◽

Tree Ring Data ◽

Supply Problem ◽

Quantitative Understanding ◽

Streamflow Statistics

Abstract Communities reliant upon the Colorado River system are at risk of water shortages because of fluctuations of the river’s streamflows. The solution to the water supply problem for the Colorado River system lies within a quantitative understanding of these fluctuations during droughts. Streamflow data (direct and inferred) for the Colorado River extend back approximately 1200 years through the analysis of tree-ring records (Meko et al.; Woodhouse et al.). We further analyze these data using a mathematical model to present estimates for the future water supply of the Colorado River by comparing measured streamflows of the past century with the yearly tree-ring data of the Colorado River. We estimate that the Colorado River system’s reservoirs lack enough stored water reserves to last through the current drought, which has been ongoing since 2000. If true, it is essential to reevaluate the way water is used and stored for the Colorado River. The methods presented are relevant to any river system whose streamflow statistics are Gaussian.

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A Strategy for Sustainable Water Management in the West Bank, Palestine

From Water Scarcity to Sustainable Water Use in the West Bank, Palestine ◽

10.1201/b10830-10 ◽

2010 ◽

pp. 111-158

Keyword(s):

Water Management ◽

West Bank ◽

The West ◽

Sustainable Water Management

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West Coast Forecast Challenges and Development of Atmospheric River Reconnaissance

Bulletin of the American Meteorological Society ◽

10.1175/bams-d-19-0183.1 ◽

2020 ◽

Vol 101 (8) ◽

pp. E1357-E1377 ◽

Cited By ~ 3

Author(s):

F. Martin Ralph ◽

Forest Cannon ◽

Vijay Tallapragada ◽

Christopher A. Davis ◽

James D. Doyle ◽

...

Keyword(s):

Water Management ◽

Emergency Preparedness ◽

Flood Control ◽

Pressure Sensors ◽

Winter Season ◽

Forecast Errors ◽

The West ◽

Atmospheric River ◽

Position Errors ◽

Verification Methods

Abstract Water management and flood control are major challenges in the western United States. They are heavily influenced by atmospheric river (AR) storms that produce both beneficial water supply and hazards; for example, 84% of all flood damages in the West (up to 99% in key areas) are associated with ARs. However, AR landfall forecast position errors can exceed 200 km at even 1-day lead time and yet many watersheds are <100 km across, which contributes to issues such as the 2017 Oroville Dam spillway incident and regularly to large flood forecast errors. Combined with the rise of wildfires and deadly post-wildfire debris flows, such as Montecito (2018), the need for better AR forecasts is urgent. Atmospheric River Reconnaissance (AR Recon) was developed as a research and operations partnership to address these needs. It combines new observations, modeling, data assimilation, and forecast verification methods to improve the science and predictions of landfalling ARs. ARs over the northeast Pacific are measured using dropsondes from up to three aircraft simultaneously. Additionally, airborne radio occultation is being tested, and drifting buoys with pressure sensors are deployed. AR targeting and data collection methods have been developed, assimilation and forecast impact experiments are ongoing, and better understanding of AR dynamics is emerging. AR Recon is led by the Center for Western Weather and Water Extremes and NWS/NCEP. The effort’s core partners include the U.S. Navy, U.S. Air Force, NCAR, ECMWF, and multiple academic institutions. AR Recon is included in the “National Winter Season Operations Plan” to support improved outcomes for emergency preparedness and water management in the West.

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