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Water in California

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Subject: List of lakes in California, Hydrological optimization, California Coastal Commission, Oroville Dam, Dance in California
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Water in California

Map of water storage and delivery facilities as well as major rivers and cities in the state of California

California’s interconnected water system serves over 30 million people and irrigates over 5,680,000 acres (2,300,000 ha) of farmland. As the world’s largest, most productive, and most controversial water system,[1] it manages over 40,000,000 acre feet (49 km3) of water per year.[2]

Water and water rights are among the state's divisive political issues. Lacking reliable dry season rainfall, water is limited in the most populous U.S. state. An ongoing debate is whether the state should increase the redistribution of water to its large agricultural and urban sectors, or increase conservation and preserve the natural ecosystems of the water sources.

Sources of water

California’s limited water supply comes from two main sources: surface water, or water that travels or gathers on the ground, like rivers, streams, and lakes; and groundwater, which is water that is pumped out from the ground. California has also begun producing a small amount of desalinated water, water that was once sea water, but has been purified.


Windmill used to pump water for irrigation, Compton, ca.1900-1901

Groundwater is a critical element of the California water supply. During a normal year, 30% of the state’s water supply comes from groundwater(underground water). In times of intense drought, groundwater consumption can rise to 60% or more.[3] Over 850,000,000 acre feet (1,050 km3) of water, enough to cover California to a depth of 8 feet (2 m) is stored in California’s 450 known groundwater reservoirs.[3] However, not all the water is usable. Over half of the groundwater is unavailable due to poor quality and the high cost of pumping the water from the ground. While surface water is concentrated mostly in the northern part of the state, groundwater is more evenly distributed.[3]

The largest groundwater reservoirs are found in the Central Valley.[3] The majority of the supply there is in the form of runoff that seeps into the aquifer. The freshwater is usually found in deposits of gravel, silt, and sand. Below these deposits lies a layer of deep sediment, a relic of the era when the Pacific Ocean covered the area.

Though California has laws governing surface water usage and quality, there exist no statewide groundwater management laws. Each groundwater basin is individually adjudicated to determine water rights.[4] Otherwise, for all practical purposes, land ownership implicitly carries the right to virtually unlimited groundwater pumping.

The large quantity of water beneath the surface has given rise to the misconception that groundwater is a sort of renewable resource that can be limitlessly tapped. The assumption that groundwater usage is sustainable if the rate of removal equals the rate of recharge is often not correct, because these assumptions often ignore changes in water consumption and water renewal.[5]

While the volume of groundwater in California is very large, aquifers can be over drafted when groundwater is removed more rapidly than it is replenished. In 1999, it was estimated that the average, annual overdrafting was around 2,200,000 acre feet (2.7 km3) across the state, with 800,000 acre feet (0.99 km3) in the Central Valley.[6] Since then, overdrafting had significantly increased. Satellite measurements found that in just the combined Sacramento and San Joaquin River basins, including the Central Valley, overdrafting between 2011 and 2014 was 12,000,000 acre feet (15 km3) of water per year.[7]

Surface water

Castle Lake, part of the headwaters of the Sacramento River

California has ten major drainage basins defined for convenience of water management. These basins are divided from one another by the crests of mountains. From north to south the basins are: North Coast, Sacramento River, North Lahontan, San Francisco Bay, San Joaquin River, Central Coast, Tulare Lake, South Lahontan, South Coast, and Colorado River regions. Each region incorporates watersheds from many rivers of similar clime.

Hydrologic region Annual precipitation Annual runoff
North Coast 55,900,000 acre feet (69.0 km3) 28,900,000 acre feet (35.6 km3)
Sacramento River 52,400,000 acre feet (64.6 km3) 22,400,000 acre feet (27.6 km3)
North Lahontan 6,000,000 acre feet (7.4 km3) 1,900,000 acre feet (2.3 km3)
San Francisco Bay 5,500,000 acre feet (6.8 km3) 1,200,000 acre feet (1.5 km3)
San Joaquin River 21,800,000 acre feet (26.9 km3) 7,900,000 acre feet (9.7 km3)
Central Coast 12,300,000 acre feet (15.2 km3) 2,500,000 acre feet (3.1 km3)
Tulare Lake 13,900,000 acre feet (17.1 km3) 3,300,000 acre feet (4.1 km3)
South Lahontan 9,300,000 acre feet (11.5 km3) 1,300,000 acre feet (1.6 km3)
South Coast 10,800,000 acre feet (13.3 km3) 1,200,000 acre feet (1.5 km3)
Colorado River 4,300,000 acre feet (5.3 km3) 200,000 acre feet (0.25 km3)

Rain and snowfall

Rain typically falls in California only during the winter and spring months, from October through May, with more rain falling on the northern half of the state than the southern. The summers are dry throughout the state. Precipitation falling as snow in the Sierra and other mountain ranges feeds the network of reservoirs and surface water sources that supply the state; a dry rainfall or light snowfall year can result in drought.

California precipitation and snowpack is measured by the state of California by "water year", which runs from October 1 to September 30.[9]

Uses of water

A canal irrigates citrus ranches in Fresno County, 1970s

Water use in California is used approximately 50% for environmental use, 40% agricultural use, and 10% urban use, though that varies considerably between regions and between wet and dry years.[10] Around 75% of California’s water supply comes from north of Sacramento, while 80% of the water demand occurs in the southern two-thirds of the state.[11]

Environmental and agricultural

Sprinkler irrigation in a pear orchard in California
The Trinity River in Northern California, a National Wild and Scenic River

In 2005, environmental flows and other non-human purposes exceeded all agricultural use of water in California by 5,000,000 acre-feet per year, on average. [12] Environmental uses account for an average of 39,000,000 acre-feet per year, 115% of the total amount used by agriculture (34,000,000 acre-feet).[12] The majority of California water, 48% of the total average annual supply, is used for environmental purposes: in an average year, about 31% of California's water goes to wild and scenic rivers, another 8.5% is dedicated to instream flows, an additional 6.5% is required Delta outflow, and 2% is given to managed wetlands. [13] During the 2014 water year, the share of California's water that was given to the environment was much higher because the numerators were not adjusted proportionately to reflect the reduced denominator (total available supply). In an average year, about 40% of California's water is used for agricultural purposes. [13] This water irrigates almost 29 million acres (120,000 km2), which grows 350 different crops. Agricultural water usage varies depending on the amount of rainfall each year. Municipal and other, non-agricultural industrial users consume about 10% of the water, or around 8,700,000 acre feet (10.7 km3).[13] [14]

Approximately half of environmental water volume flows in wild and scenic north coast rivers for which no facilities have been built through the California Coast Ranges for diversion to Central Valley farms or southern California cities. Distribution of available water shifts during drought years. Environmental volume decreases to 33% of available water while agricultural and urban volumes increase slightly to become 53% and 14%, respectively.[15]

Alfalfa uses about 20% of California irrigation water; horses, based on the amount of alfalfa they eat, use about 1.9 million acre feet of water -- about 7% of irrigated water in the state. There are 698,000 horses in California.[16] In 2012, California exported 575,000 tons of alfalfa to China, for $586 million.[17]


California home average is 23,275 US gallons (0.07143 acre·ft) per month. [18] A 2011 study of California single-family water consumption estimated that the average California household used more than 360 US gallons (0.0011 acre·ft) of water per day. To put that in perspective, the typical office water cooler holds 5 US gallons (1.5×10−5 acre·ft), or about 1.4% of the study’s estimated daily average household use. The study found that about 53% of total average household water use, or more than 190 US gallons (0.00058 acre·ft) per household per day, was used for landscaping and other outdoor uses Meanwhile, indoor use accounted for more than 170 US gallons (0.00052 acre·ft) per household per day. The most in-home water consumption is toilet flushes, using 20% of the water. After toilets, 20% is used for showers and 18% goes to leaks inside homes.

In Sacramento, in 2012 before the severe drought started, residents were using 217 US gallons (0.00067 acre·ft) a day per-capita. [19] Many homes in Sacramento didn't have water meters until recently. They now are gradually being installed after former Gov. Arnold Schwarzenegger signed a 2004 law mandating meters statewide by 2025. [20]

After Folsom, a city of 72,000 east of Sacramento, installed meters in 2011 and adopted tiered rates that charge more for people who consume the most water, per-capita use started falling steadily. [21]

Water distribution

There are six main systems of aqueducts and infrastructure that redistribute and transport water in California: the State Water Project, the Central Valley Project, several Colorado River delivery systems, the Los Angeles Aqueduct, the Tuolumne River/Hetch Hetchy system, and the Mokelumne Aqueduct.

The State Water Project

An aerial view of the California Aqueduct at the Interstate 205 crossing west of Tracy

The California State Water Project is the largest multipurpose, state-built water project in the United States.[22] The SWP transports water from the Feather River watershed to agriculture, and some of the water goes to industrial and urban users. More than two-thirds of Californians receive some water from the SWP. In an average year the SWP delivers 2,300,000 acre feet (2.8 km3), but the system has over committed and contracted to deliver 4,200,000 acre feet (5.2 km3).[8] Twenty-nine agencies hold contracts for SWP water. The contractors pay for SWP’s major operating costs and have gradually reduced the $1.75 billion bond debt that supplied funds for initial construction. In the years since 1960, SWP has built 29 dams, 18 pumping plants, five hydroelectric power plants, and around 600 miles (970 km) of canals and pipelines.[23]

The SWP system begins with reservoirs on upper tributaries of the Feather River. Oroville Dam creates the largest SWP reservoir. At 770 feet (230 m) above the riverbed, the dam is the tallest in the United States. The reservoir covers 15,000 acres (61 km2) and holds 3,500,000 acre feet (4.3 km3).[24] Water travels from Lake Oroville to the Sacramento River. At Harvey O. Banks Delta Pumping Plant, which pulls SWP water into the Bethany Reservoir, around 2,200,000 acre feet (2.7 km3) are extracted from the Delta each year.[25] Water that flows to the south end of the San Joaquin Valley must be pumped over the Tehachapi Mountains. Because of this, the SWP is California’s largest energy consumer, and even though the hydroelectric plants of the SWP generate 5,900 GWh per year, that is only a fraction of the energy needed to lift water over the Tehachapis.[26] Below the Tehachapis the California Aqueduct splits, with the west branch storing water in Castaic and Pyramid Lake, and the east branch storing water in the Silverwood Lake reservoir.

The Central Valley Project

Shasta Dam in 2009

The CVP’s original purpose was to tame seasonal flooding and to direct water to the south to irrigate 3 million acres (12,000 km2) of farmland. The CVP is operated by the United States Bureau of Reclamation. As one of the largest water systems in the world it stores over 7,000,000 acre feet (8.6 km3) of water, or 17 percent of the state’s developed water.[27] The CVP dams and diverts five major rivers: the Trinity, the Sacramento, the American, the Stanislaus, and the San Joaquin. Friant Dam, on the San Joaquin, was completed in 1944, forming Millerton Lake. This was one of 20 reservoirs in the CVP. Shasta Dam, the largest CVP storage facility, was completed in 1945. At Sacramento, American River water stored by Folsom Dam is added. 2,500,000 acre feet (3.1 km3) are annually pumped from the Delta into the Delta-Mendota Canal. New Melones Dam on the Stanislaus River was finished in 1979, and the reservoir was filled in 1982.

The CVP has generated some controversy about environmental damage, prices charged to farmers, and lax enforcement of farm size limitations. Bureau of Reclamation water was supposed to be used for farms limited to 160 acres (see Homestead Act). Under Spanish and Mexican land grants, however, there were only a few land owners, all of whom owned large tracts of land. A 1982 reform increased CVP area limits to 960 acres (3.9 km2).[28] In 1992, the Central Valley Project Improvement Act made fish and wildlife protection and restoration an authorized purpose of the CVP on an equal footing with other authorized purposes. 800,000 acre feet (0.99 km3) of annual runoff were dedicated to environmental usage, which generated intense controversy.[29]

Colorado River Systems

The Colorado River is the source of 4,400,000 acre feet (5.4 km3) per year for California.[30] Six other states along the river’s watershed (Wyoming, Nevada, Utah, Colorado, New Mexico, and Arizona) and Mexico, share allocated portions of river water. The Metropolitan Water District of Southern California, or MWD, holds priority water rights on the Colorado. It sells water to 95 percent of the South Coast region. Lake Mead, formed by Hoover Dam, is the primary reservoir in the Colorado River basin. The Colorado River Aqueduct begins 155 miles (249 km) downstream from Hoover Dam, and can carry 1,200,000 acre feet (1.5 km3) annually.

An additional system diverts water from the Colorado River at the Imperial Diversion Dam provides waters to the Imperial and Coachella valleys as well as Yuma, Arizona, via the Alamo Canal, the Coachella Canal and the All-American Canal, which runs alongside the Mexican border. This system was also responsible for the accidental re-creation of the Salton Sea in 1905.

The Colorado is often over allocated, because apportionments were made on inaccurate measurements of annual runoff. Marc Reisner in Cadillac Desert noted that the Colorado is "unable to satisfy all the demands on it, so it is referred to as a ‘deficit’ river, as if the river were somehow at fault for its overuse".[31] For years California took more than its share of the apportionment, because other states were not prepared to use their entire allotments. MWD became used to 800,000 acre feet (0.99 km3) excess of water. Pressure from other Colorado river states caused the Secretary of the Interior to order California to show progress towards decreasing its dependency on the excess 800,000 acre feet (0.99 km3), or face cuts.[32] The Colorado River Water Use Plan called for Imperial and Coachella Valley agriculture to give up water in order to reallocate 800,000 acre feet (0.99 km3) within the state. The plan’s proposals generated much controversy, and the deadline arrived with no agreement reached. The Department of the Interior reduced MWD’s access by 415,000 acre feet (0.512 km3).

The Los Angeles Aqueduct

The Los Angeles Aqueduct in the Owens Valley

The Los Angeles Aqueduct carries water from the Eastern Sierra Nevada to Los Angeles. The construction of the aqueduct marked the first major water delivery project in California. The city purchased 300,000 acres (1,200 km2) of land in the Owens Valley in order to gain access to water rights. The Los Angeles Department of Water and Power transports 400,000 acre feet (0.49 km3) of Eastern Sierra Nevada water to the city each year. This growth clearly shows William Mulholland’s observation that “Whoever brings the water, brings the people.”[33]

After four decades of diversion from the Mono Lake area, environmental damage created an environmental battle in the 1980s, with a victory for the Mono Lake proponents in 1994.[34] Other problems arose when dust from the bed of Owens Lake (completely dried up by diversions) became a major source of air pollution in the southern Owens Valley. To restore Mono Lake, correct air-quality law violations, and rewater portions of the Owens River, Los Angeles has begun to reduce its dependence on Eastern Sierra Nevada water. This has mostly been achieved through water conservation. The city enacted a program offering free low-flow toilets to its customers.[35]

Hetch Hetchy Aqueduct

The Hetch Hetchy Valley

The Hetch Hetchy Aqueduct carries water from the Tuolumne River to San Francisco and other Bay Area regions. The system starts in Hetch Hetchy Valley, inside Yosemite National Park. The system also generates electricity, which is a major source of revenue for San Francisco. After water leaves Hetch Hetchy, it passes through tunnels towards powerhouses. Three pipes then bring the water across the Central Valley. Concerns about the Hetch Hetchy Aqueduct’s ability to withstand earthquakes led to a $1.7 billion bond, approved by voters in November 2002.[36]

Mokelumne Aqueduct

The East Bay Municipal Utility District (EBMUD) serves 35 communities in Alameda and Contra Costa Counties, including Berkeley and Oakland. The Mokelumne River in the central Sierra Nevada is the source for almost all of EBMUD’s water. EBMUD built the Pardee Dam across the Mokelumne in the foothills northeast of Stockton. South of Pardee is Camanche Reservoir, which regulates releases to serve downstream water rights holders. EBMUD holds almost 30,000 acres (120 km2) in the Mokulumne River watershed and 25,000 acres (100 km2) in other watersheds. EBMUD also has an American River water right that could be sent to the Mokelumne Aqueduct through the Folsom South Canal. The only time this has been done was during the drought years of 1977-78, when the water was actually pumped from the Delta.[8] This generated controversy, as EBMUD preferred the cleaner water from the American River, but environmentalists and Sacramento had concerns about the impacts such a diversion would have on the river. The legal battle led to affirmation of EBMUD’s water right, but modifications were also negotiated. The intake point was moved downstream, to maintain minimum flows in the American River before it merges with the Sacramento.

North Bay

Certain municipalities north of San Francisco Bay, including Santa Rosa and Petaluma, are served by the Sonoma County Water Agency. Their primary water source is the Russian River.

The cities of Vallejo, Fairfield, and Vacaville are served by the Solano County Water Agency, which transports water from Lake Berryessa and moves it south along the Putah South Canal. Marin County has the Marin Municipal Water District and the North Marin Water District.

Planning and management

The planning and management of water in California is subject to a vast number of laws, regulations, management plans, and historic water rights.

The California state agency responsible for water planning is the California Department of Water Resources.

California water plans

There have been several documents known as the "California Water Plan", with the most recent being published in 2009.[37] Before the state of California started drafting comprehensive plans for the management of water in the state, the earliest plan for water distribution in California was an 1873 report. This was followed by a 1919 report called "Irrigation of Twelve Million Acres in the Valley of California". The 1919 report is this first comprehensive plan, and is often called the "Marshall Plan", after its author Col. Robert Bradford Marshall. There have been many subsequent water plans and water plan updates, which were often issued as California Department of Water Resources bulletins.[38] Senate Bill 1420 introduced in September 2014 is aimed at all water suppliers to curb-water leaks in transit and improve water management.[39]

Water rights

On more than one occasion, the California Supreme Court has noted that “the scope and technical complexity of issues concerning water resource management are unequaled by virtually any other type of activity presented to the courts."[40][41] An example of this complexity is demonstrated in the case of National Audubon Society v. Superior Court.

Water rights are divided in multiple ways. Water rights to surface water and underground sources are separate. Also, California recognizes four distinct types of water rights to surface water in its statutory and common law: pueblo, riparian, prior appropriation, and water reserved by the USA fifth statutory right also provides area of origin watershed rights.

Pueblo water rights

California recognizes water rights granted to pueblos (settlements) under the Spanish and Mexican governments, prior to the [44] Pueblo water rights are superior to all riparian and appropriative rights and cannot be lost by a failure to assert an interest or use the water.[45] In addition, the pueblo's claim expands with the needs of the city and may be used to supply the needs of areas that are later annexed to the city.[45] Los Angeles and San Diego are the only original pueblos to exercise their pueblo water rights in the courts.

Pueblo water rights are controversial. Some modern scholars and courts argue that the pueblo water rights doctrine lacks a historical basis in Spanish or Mexican water law.[46]

Riparian water rights

Under the riparian doctrine, "the owner of land has the right to divert the water flowing by his land for use upon his land, without regard to the extent of such use or priority in time".[47] "Riparians on a stream system are vested with a common ownership such that in times of water shortage all riparians must reduce their usage proportionately."[48] To accommodate gold mining, the doctrine of appropriation was incorporated into California water law. Riparian rights, however, continue to be acquired through ownership of land contiguous to the watercourse.[48]

Water rights by prior appropriation

“The appropriation doctrine confers upon one who actually diverts and uses water the right to do so provided that the water is used for reasonable and beneficial uses,” regardless of whether that person owns land contiguous to the watercourse.[48] In addition, all appropriative rights are subordinate to riparians or earlier appropriators.[48] In times of shortage riparians are entitled to fulfill their needs before appropriators are entitled to any use of the water.[49] "And, as between appropriators, the rule of priority is 'first in time, first in right.'"[50] Beginning in 1914, a statutory scheme has provided the exclusive method of acquiring appropriation rights through the California State Water Resources Control Board.[51] The modern system of prior appropriation water rights followed by California is characterized by five principles:

  1. Exclusive right is given to the original appropriator, and all following rights are conditional upon precedent rights.
  2. All rights are conditional upon beneficial use.
  3. Water may be used on riparian lands or non-riparian lands (i.e. water may be used on the land next to the water source, or on land removed from the water source)
  4. Diversion is permitted, regardless of the shrinkage of the river or stream.
  5. The right may be lost through non-use.[52]

Beneficial use is defined as agricultural, industrial, or urban use. Environmental uses, such as maintaining body of water and the wildlife that use it, were not initially regarded as beneficial uses in some states but have been accepted in some areas.[53] Every water right is parameterized by an annual yield and an appropriation date. When a water right is sold, it maintains its original appropriation date.

Water reserved by the United States

Lands reserved by the United States government are accompanied by a corresponding reservation of water rights for as much water is needed to fulfill the purpose for which the reservation was made. Such reservations were made on behalf of native American tribes, national parks, monuments and forests.[54][55][56][54] Water rights reserved by the United States are defined by and controlled by federal law. And because reserved water rights are not riparian nor appropriative, they may conflict with state law.[54]

Area of origin watershed rights

California provides communities and other water users within watersheds senior status over appropriative water rights in limited circumstances.[57]

Area of origin water rights parallel pueblo water rights. In both cases, water is reserved for future growth of the local community. In other words, appropriations may be subject to a water rights claim from people/government in the area of origin. That later claim would be senior despite its temporal disconnect. As a result of its pueblo rights, Los Angeles has rights to all or almost all water from the Los Angeles River. In the same way, communities along major water sources such as the Sacramento River theoretically have senior water rights to support growth despite a downstream user holding otherwise senior appropriative water rights.

Area of origin laws were passed in reaction to the controversies related to Los Angeles diverting water from the Owens Valley. Despite being on the books for generations, the area of origin statutes were not used until 2000. In addition, there currently are no court opinions regarding area of origin watershed rights.


Since under the law, landowners can extract as much groundwater from their property as they can put to beneficial use, adjudication was used to determine who had the right to pump how much and to audit such usage.[58] The courts appoint water masters to audit usage and otherwise enforce water rights, who are often management boards, the federal United States Department of the Interior, the California Department of Water Resources, or an individual.[58][59][60]

Disputes and controversies

Dust blowing in the bed of Owens Lake in 2008. The lake went dry after diversions of its water to Los Angeles in the 1910s-20s.

The California Water Wars, a struggle between Los Angeles and certain parties within the Owens Valley, for water rights is but one of examples of the alleged wrong doings of municipalities and people in securing adequate water supplies. The city of Los Angeles bought 300,000 acres (1,200 km2) of land from residents of the Owens Valley and the water rights attached with them, for a fair price. The diverting of this water from the valley, it is alleged, transformed it from an agricultural valley into a dust bowl.[31]

The electricity produced by the hydroelectric plants drawing their water from the Hetch Hetchy reservoir became the subject of controversy when it was reported by the San Francisco Bay Guardian that the city of San Francisco sold roughly 500 megawatts of power to the PG&E,[61] supposedly in violation of the Raker Act, which specifies that because the source of water and power was on public land, no private profit could be gained from such sales. Whether or not the Raker Act is indeed being violated is still a matter of controversy.

The creation of so many dams in California in order to enact a pragmatic water supply program has been met with criticism from some environmentalists, who have decried the negative effects of dams on ecosystems, particularly on migratory fish populations.[62]

Predicted need for increased water supplies

It is projected that California’s population will be almost 50 million people in the year 2020.[63] If the prediction comes true and there is no action to increase the water supply, the difference between water demand and supply would be between 2,000,000 and 6,000,000 acre feet (7.4 km3) in the year 2020.[64] Over the past five years California voters have approved $3 billion in bonds for water development and management. Many of these projects are incorporated in the CALFED Bay-Delta program, a federal-state program designed to reduce water supply conflicts. In August 2000 the state and federal governments approved the CALFED plan for water quality, water conservation and recycling, watershed administration, ecosystem re-establishment, delta levees, surface and groundwater storage, water transportation, and science. The plan has a thirty-year implementation period and designed to incorporate changes in conditions and knowledge about the effects of specific projects. Stage 1 was initiated in 2000 and was designed as a seven-year program. The cost is estimated to be $8.7 billion.[65] Stage 1 water yield within the next seven to ten years is estimated to be 2,900,000 acre feet (3.6 km3) per year.[64] As part of Stage 1, an Environmental Water Account was established through the purchase of 350,000 acre feet (0.43 km3) of water. The EWA is used to protect fish and other wildlife without reducing water allocations to farms and municipalities.

A $7.5 billion water bond was approved in November 2014 with a 2 to 1 ratio.[66] The bond-financing has been contentiously debated by the legislature and Governor Jerry Brown for the past few years, was said to improve the water quality, supply and infrastructure, if passed by voters.[67]

Natural disasters and California water

Status of drought in California in October 2014; map shows a condition of "exceptional drought" over 58% of the state


In January 2014, Gov. Jerry Brown declared a statewide drought emergency, and called on Californians to reduce their water use by 20%.[68][69]

Additional exceptional droughts in California history occurred during 1928-34, 1976-77, 1987-92, and 2007-09.[70] This drought has also caused local water districts across the state to place strict regulations on when yards and properties can be watered. There are even regulations on hose use.

Archives relating to California water

The California Water Documents collection in the Claremont Colleges Digital Library is a valuable online resource of archived materials related to California’s water history. Topics encompassed in the collection include: water quality, flood control, water distribution, water conservation, water usage, drought, and geology.[71] Additionally, the collection has digitized materials relating to the creation and operation of both the Central Valley Project and the California State Water Project as well as their component units.[71] The items represented in the Claremont Colleges Digital Library are part of a larger collection entitled the Water Resources Collection in Special Collections at Claremont Colleges’ Honnold/Mudd Library. The Water Resources Collection was started in the 1930s by Librarian Willis Holmes Kerr and Librarian and Claremont Colleges’ Trustee John Treanor.[72] These librarians’ interest in California’s water problem led them to start collecting a variety of documents related to water history and usage from around the state. It includes reports of engineers, annual reports and minute books of boards of directors of water companies, documents of federal and state governments, promotional pamphlets, and newspaper clippings.[72] Most of the documents focus on the water history from the first half of the 20th century, but there are additional, more recent publications included, which have been donated by Claremont Graduate University Professor Merrill Goodall.[72] The California Water Documents collection is currently a work in progress at the Claremont Colleges Digital Library.

The Water Resources Collections and Archives is located at the University of California, Riverside and features a comprehensive collection of water-resource related documents.

See also


  1. ^ Hundley, N. (2001). The great thirst: Californians and water. Berkeley, Calif.: University of California Press. 
  2. ^ Jenkins, Marion W.; Lund, Jay R.; Howitt, Richard E.; Draper, Andrew J.; Msangi, Siwa M.; Tanaka, Stacy K.; Ritzema, Randall S.; Marques, Guilherme F. (2004). "Optimization of California’s Water Supply System: Results and Insights". Journal of Water Resources Planning & Management 130 (4). pp. 271–280.  
  3. ^ a b c d Carle, David (2004). Introduction to Water in California. Berkeley: University of California Press. p. 60. 
  4. ^ City of Pasadena v. City of Alhambra, 33 Cal.2d 908 (Cal. 1949).
  5. ^ Alley, William M.; Healy, Richard W.; LaBaugh, James W.; Reilly, Thomas E. (2002). "Flow and Storage in Groundwater Systems". Science 296 (5575). p. 1985.  
  6. ^ Moores, Eldridge M. (1999). Classic Cordilleran Concepts: A View from California. Geological Society of America. 
  7. ^ "NASA's GRACE Sees a Drying California".  
  8. ^ a b c Carle, David (2004). Introduction to Water in California. Berkeley: University of California Press. 
  9. ^ "Monthly Data by Water Year". California Data Exchange Center. California Department of Water Resources. Retrieved 9 November 2014. 
  10. ^ Jeffrey Mount, Emma Freeman, and Jay Lund. "Water Use in California". PPIC. Retrieved 21 October 2014. 
  11. ^ Association of California Water Agencies. General Facts About California’s Water
  12. ^ a b Heather Cooley, Juliet Christian-Smith, and Peter Gleick (July 2009). Sustaining California Agriculture in an Uncertain Future. Pacific Institute. p. 18. 
  13. ^ a b c CDFA, "Water and the California Farmer," 2014.
  14. ^ Snow, Lester (April 11, 2008). "Conserving California’s Water". Los Angeles Times. 
  15. ^  
  16. ^ Mike Madison (24 August 2011). "Horses among us,". Los Angeles Times. 
  17. ^ David Pierson (8 June 2014). "U.S. farmers making hay with alfalfa exports to China, work=Los Angeles Times". 
  18. ^ Deoreo, William B. (1 March 2013). "The California Single-Family Home Water Use Efficiency Study". Home Energy Magazine. 
  19. ^
  20. ^ Rogers, Paul and Nicholas St. Fleur (7 February 2014). "California Drought: Database Shows Big Difference between Water Guzzlers and Sippers.". San Jose Mercury News. 
  21. ^ Rogers, Paul and Nicholas St. Fleur (7 February 2014). "California Drought: Database Shows Big Difference between Water Guzzlers and Sippers.". San Jose Mercury News. 
  22. ^ "California State Water Project Overview". Department of Water Resources. Retrieved November 2, 2014. 
  23. ^ Carle (2004), p. 92
  24. ^ Oroville Dam. Department of Civil & Environmental Engineering, University of California - Davis, CA
  25. ^ Dickinson, Ann (June 5, 2008). "Where Water Runs Uphill". Quest Community Science Blog (KQED). 
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  43. ^ Hooker v. City of Los Angeles, 188 U.S. 314, 319-320 (1903)
  44. ^ City of Los Angeles v. City of San Fernando, 14 Cal.3d 199 (Cal 1978)
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  50. ^ United States v. State Water Res. Control Bd., 182 Cal.App.3d 82 (1986) (citing Irwin v. Phillips, 5 Cal. 140, 147 (1855)).
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