Water_supply_and_sanitation_in_the_United_States by zzzmarcus

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Water supply and sanitation in the United States

Water supply and sanitation in the United States
United States: Water and Sanitation
Data Average urban water use (liter/ capita/day) Average water and sanitation bill Share of household metering Annual investment in water supply and sanitation Share of selffinancing by utilities Share of taxfinancing 608 in 1996-1998 [1]

$474/year (US$40/month) in 2002 [2] very high

$28.5bn or $97/capita (2005) [3][4]

39% (water only) [5]

5% by government grants, 13% by government loans (water only, 2000) [5] Institutions

Service provision Policy and regulation Number of urban service providers Number of rural service providers

Local State and Federal 4,000 [6] [7] 50,000 [6]

Issues that affect water supply and sanitation in the United States include water scarcity, pollution, a backlog of investment, concerns about the affordability of water for the poorest, and a rapidly retiring workforce. Increased variability and intensity of rainfall as a result of climate change is expected to produce both more severe droughts and flooding, with potentially serious consequences for water supply and for pollution from combined sewer overflows.[8][9] Droughts are likely to particularly affect the 66 percent of Americans whose communities depend on surface water.[10] As for drinking water quality, there are concerns about

disinfection by-products, lead, perchlorates and pharmaceutical substances, but generally drinking water quality in the U.S. is good. Cities, utilities, state governments and the federal government have addressed the above issues in various ways. To keep pace with demand from an increasing population, utilities traditionally have augmented supplies. However, faced with increasing costs and droughts, water conservation is beginning to receive more attention and is being supported through the federal WaterSense program. The reuse of treated wastewater for non-potable uses is also becoming increasingly common. Pollution through wastewater discharges, a major issue in the 1960s, has been brought largely under control. Water supply and wastewater systems are regulated by state governments and the federal government. At the state level, health and environmental regulation is entrusted to the corresponding state-level departments. Public Utilities Commissions or Public Service Commissions regulate tariffs charged by private utilities and. In some states they also regulate tariffs by public utilities. At the federal level, drinking water quality and wastewater discharges are regulated by the United States Environmental Protection Agency, which also provides funding to utilities through State Revolving Funds.[11][12][13] Most Americans are served by publicly owned water and sewer utilities. Eleven percent of Americans receive water from private (so-called “investor-owned”) utilities. In rural areas, cooperatives often provide drinking water. Finally, up to 15 percent of Americans are served by their own wells.[14][15] Water consumption in the United States is more than double that in Central Europe, with large variations among States. In 2002 the average American family spent $474 on water and sewerage charges,[2] which is about the same level as in Europe. The median household spent about 1.1 percent of its income on water and sewerage.[16]


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Water supply and sanitation in the United States

Technical and environmental overview
This section provides a brief overview of the water supply and sanitation infrastructure in the U.S., water sources of some of the main cities, and the main types of residential water use.

The centralized drinking water supply infrastructure in the United States consists of dams and reservoirs, well fields, pumping stations, aqueducts for the transport of large quantities of water over long distances, water treatment plants, reservoirs in the distribution system (including water towers), and 1.8 million miles of distribution lines.[17] Depending on the location and quality of the water source, all or some of these elements may be present in a particular water supply system. In addition to this infrastructure for centralized network distribution, 14.5% of Americans rely on their own water sources, usually wells.[18][19] The centralized sanitation infrastructure in the U.S. consists of 1.2 million miles of sewers - including both sanitary sewers and combined sewers - , sewage pumping stations and 16,024 publicly-owned wastewater treatment plants.[20] In addition, at least 17% of Americans are served by on-site sanitation systems such as septic tanks.[21] Publicly owned wastewater treatment plants serve 189.7m people and treat 32.1bn gallons per day.[20] 9,388 facilities provide secondary treatment, 4,428 facilities provide advanced treatment, and 2,032 facilities do not discharge.[20] There are 176 facilities that provide a treatment level that is less than secondary. These include facilities with ocean discharge waivers, and treatment facilities discharging to other facilities meeting secondary treatment or better. 880 facilities receive flows from combined sewer systems.[20] About 772 communities in the U.S. have combined sewer systems, serving about 40 million people.[22]

The Wachusett Reservoir is a source of drinking water supply for Boston served by surface water, only 34% of Americans (101 million) are supplied with treated groundwater, while 66% (195 million) are supplied with surface water.[10] For a surface water system to operate without filtration it has to fulfill certain criteria set by the EPA under its Surface Water Treatment Rule, including the implementation of a watershed control program. The water system of New York City has repeatedly fulfilled these criteria.[23] Cities supplied primarily by surface water without water treatment. Boston, New York City, San Francisco and Portland, Oregon are among the large cities in the U.S. that do not need to treat their surface water sources beyond disinfection, because their water sources are located in the upper reaches of protected watersheds and thus are naturally very pure.[24] Boston receives most of its water from the Quabbin and Wachusett Reservoirs and the Ware River in central and western Massachusetts. New York City’s water supply, for example, is fed by a 2,000-square-mile (5,200 km2) watershed in the Catskill Mountains. The watershed is in one of the largest protected wilderness areas in the United States.[25] San Francisco obtains 85% of its drinking water from high Sierra snowmelt through the Hetch Hetchy Reservoir in Yosemite National Park.[26] However, to supplement the imported water supply, and to help maintain delivery of drinking water in the event of a major earthquake, drought or decline in the snowpack, San Francisco considers the use of alternative locally produced, sustainable water sources such as reclaimed water for irrigation, local groundwater and desalination

Water sources
About 90% of public water systems in the U.S. obtain their water from groundwater. However, since systems served by groundwater tend to be much smaller than systems


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during drought periods, all as part of its Water Supply Diversification Program.[27] The largest source of water supply for Portland, Oregon, is the Bull Run Watershed.[28]

Water supply and sanitation in the United States

The Schuylkill River provides 40% of the water used in Philadelphia. Lake Havasu on the Colorado River is the main source of drinking water for both Phoenix, Arizona and Los Angeles Cities supplied primarily by surface water with water treatment. Cities that rely on more or less polluted surface water from the lower reaches of rivers have to rely on extensive and costly water purification plants. Las Vegas, Nevada, obtains 90% of its water from Lake Mead on the Colorado River, which has been affected by [29] To supply the rapidly growing droughts. city with water it plans to buy water rights in the Snake Valley in White Pine County, 250 miles north of the city straddling the Utah border, and pump it to Las Vegas through a US$2 billion pipeline.[30] Phoenix also obtains its drinking water primarily from the Colorado River further downstream at Lake Havasu through the Central Arizona Project. Los Angeles obtains about half of its drinking water from the Owens River and Mono Lake through the Los Angeles Aqueduct,[31] with additional supplies from Lake Havasu through the Colorado River Aqueduct.[32] San Diego imports nearly 90 percent of its water from other areas, specifically northern California and the Colorado River.[33] Denver receives its water almost entirely from mountain snowmelt in a number of highly protected watersheds in more than 9 counties. Its water is stored in 14 reservoirs, the largest of which is the Dillon Reservoir on the Blue River in the Colorado River. Water is diverted from there through the Harold D. Roberts Tunnel under the Continental Divide into the South Platte River Basin. [34] The cities on the Mississippi River are supplied by water from that river except for Memphis. The metropolitan area of Atlanta receives 70% of its water from the Chattahoochee River and another 28% from the Etowah, Flint, Ocmulgee and Oconee rivers.[35] Chicago is supplied by water from Lake Michigan and Detroit receives its water from the Detroit River.[36] Philadelphia receives 60% of its water from the Delaware River and 40% from the Schuylkill River.[37] Washington, DC receives its water from the Potomac River through the Washington Aqueduct.[38] Cities supplied primarily by groundwater. The South Florida metropolitan area including Miami obtains its drinking water primarily from the Biscayne Aquifer. Given increasing water demand, Miami-Dade County is considering the use of reclaimed water to help preserve the Biscayne Aquifer.[39] Memphis receives its water from artesian aquifers.[40] Cities supplied by a mix of groundwater and surface water. Seventy-one percent of Houston’s supply flows from the Trinity River into Lake Livingston, and from the San Jacinto River into Lake Conroe and Lake Houston. Deep underground wells drilled into the Evangeline and Chicot aquifers provide the other 29 percent of the city’s water supply.[41]

Water use
Public water supply used 43 billion gallons (163 million m3) per day in 2000 serving 242 million people, corresponding to 21% of total water use in the same year.[42] [43] Residential (home) water use accounts for 66% of publicly supplied water in the United States, [44] with the remainder being used by offices, public buildings, businesses and industry that does not have its own water sources. Residential end use of water in the United States is


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Water supply and sanitation in the United States
England(150 l/c/d)[46] and five times as high as in Germany(126 l/c/d).[47] [48] Only a very small share of public water supply is used for drinking. According to one 2002 survey of 1,000 households, an estimated 56% of Americans drank water straight from the tap and an additional 37% drank tap water after filtering it.[49] 74% of Americans said they bought bottled water.[49] According to a non-representative survey conducted among 216 parents (173 Latinos and 43 nonLatinos), 63 (29%) never drank tap water. The share is much higher among Latinos (34%) than among non-Latinos (12%). The study concluded that many Latino families avoid drinking tap water because they fear it causes illness, resulting in greater cost for the purchase of bottled and filtered water.[50]

Institutional overview
Service providers

Toilets account for 31% of indoor water use in the U.S. equivalent to more than 1 billion glasses of tap water per day. Total water use was 161 gallons (608 liter) per capita per day in 1996-1998, excluding leakage. Fifty-eight percent is used outdoors for gardening, swimming pools etc., corresponding to 101 gallons (382 liter) per capita per day, and 42% is used indoors, corresponding to 60 gallons (226 liter).[1] The arid West has some of the highest per capita residential water use because of landscape irrigation.[45] Indoor use falls into the following categories: • body cleanliness: • 31% Toilets • 2% Baths • 19% Showers • washing: • 25% Clothes Washers • 2% Dishwashers • 18% Faucets • 3% Other Domestic Uses[1] Per capita residential water use in the United States is more than four times as high as in

The California Aqueduct brings water from Northern to Southern California See also: List of United States water companies In 2007 there were about 52,000 community public water systems in the United States, which are either publicly owned, cooperatives or privately owned,[6] serving a total of about 242 million people in 2000.[51] Four thousand systems provide water in localities with more than 10,000 inhabitants, and the remaining 50,000 systems provide water in localities with less than 10,000 inhabitants.[6] In 2000 15% of Americans (43.5 million people) relied on their own water source, usually a well, for drinking water.[43][52] Utilities in charge of public water supply and sanitation systems can be owned, financed, operated and maintained by a public entity, a private company or both can share responsibilities through a public-private partnership. Utilities can either be in charge of


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only water supply and/or sanitation, or they can also be in charge of providing other services, in particular electricity and gas. In the latter case they are called multi-utilities. Bulk water suppliers are entities that manage large aqueducts and sell either treated or untreated water to various users, including utilities. Public service providers. Eighty-nine percent of Americans served by a public water system are served by a public or cooperative entity.[53] [54] Usually public systems are managed by utilities that are owned by a city or county, but have a separate legal personality, management and finances. Examples are the District of Columbia Water and Sewer Authority, the Los Angeles Department of Water and Power and Denver Water. In some cases public utilities span several jurisdictions. An example is the Washington Suburban Sanitary Commission that spans two counties in Maryland. Utility cooperatives are a major provider of water services, especially in small towns and rural areas[55][56] Private utilities. About half of American drinking water utilities, or about 26,700, are privately owned, providing water to 11% of Americans served by public water systems.[53] Most of the private utilities are small, but a few are large and are traded on the stock exchange. The largest private water company in the U.S. is American Water, which serves 15 million customers in 1,600 communities in the U.S. and Canada.[57] It is followed by United Water, which serves 7 million customers and is owned by the French firm Suez Environnement.[58] Overall, about 33.5 million Americans (11% of the population) get water from a privately owned drinking water utility.[53] In addition, 20% of all wastewater utilities in the U.S. are privately owned, many of them relatively small. About 3% of Americans get wastewater service from private wastewater utilities. In addition, more than 1,300 government entities (typically municipalities) contract with private companies to provide water and/or wastewater services.[53] Multi-utilities. Some utilities in the U.S. provide only water and/or sewer services, while others are multi-utilities that also provide power and gas services. Examples of utilities that provide only water and sewer services are the Boston Water and Sewer Commission, Dallas Water Utilities, the New

Water supply and sanitation in the United States
York City Department of Environmental Protection, Seattle Public Utilities and the Washington Suburban Sanitary Commission. Other utilities, such as the San Francisco Public Utilities Commission, provide power in addition to water and sewer services. Other multi-utilities provide power and water services, but no sewer services, such as the Los Angeles Department of Water and Power and the Orlando Utilities Commission. There are also some utilities that provide only sewer services, such as the Metropolitan Water Reclamation District of Greater Chicago or the sewer utility in the city of Santa Clara.[59]

The Central Arizona Project supplies water to to 80 municipal, industrial, agricultural and Indian customers in Central and Southern Arizona Bulk water suppliers. There are also a few large bulk water suppliers in the arid Southwest of the United States, which sell water to utilities. The Metropolitan Water District of Southern California (MWD) sells treated water from the Colorado River and Northern California to its member utilities in Southern California through the California Aqueduct. Twenty-six cities and water districts serving 18 million people are members of MWD.[60] The Central Arizona Water Conservation district supplies water from the Colorado River to 80 municipal, industrial, agricultural and Indian customers in Central and


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Southern Arizona through the Central Arizona Project Aqueduct (CAP).[61]

Water supply and sanitation in the United States
represents the interests of large publicly owned drinking water utilities.[69] • The Water Reuse Association, founded in 2000, which promotes water reclamation, recycling, reuse and desalination.[70] • The Water Quality Association represents manufacturers and dealers of equipment for water treatment.[71] In addition to lobbying, some of these trade associations also provide public education, as well as training and technical assistance to their members.[72][73] An example of an NGO active in water supply and sanitation is Food & Water Watch, a consumer rights group created in 2005 which focuses on corporate and government accountability relating to food, water, and fishing. Another example is the Alliance for Water Efficiency (AWE), which was created in 2007 with seed funding from the EPA to “advocate for water efficiency research, evaluation, and education” at the national level. Its Board members “represent water utilities, environmental organizations, plumbing and appliance associations, irrigation manufacturers, the academic community, government, and others.”[74]

The economic regulation of water and sanitation service providers in the U.S. (in particular in relation to the setting of user water rates) is usually the responsibility of regulators such as Public Utility Commissions at the state level, which are organized in the National Association of Regulatory Utility Commissioners.[62] (see economic regulator). However, while all investor-owned utilities are subject to tariff regulation, only few public utilities are subjected to the same regulation. In fact, only 12 states have laws restricting pricing practices by public water and sanitation utilities.[63] The environmental and drinking water quality regulation is the responsibility of state departments of health or environment and the EPA.[64]

Other stakeholders
There are a number of Professional associations, trade associations and other non-governmental organizations (NGOs) that are actively engaged in water supply and sanitation. Professional associations include the American Water Works Association (AWWA) oriented mainly towards drinking water professionals and the Water Environment Federation (WEF) geared mainly at wastewater professionals. The geographical scope of both is greater than the U.S.: AWWA has members in 100 countries,[65] with a focus on the U.S. and Canada, and WEF has member associations in 30 countries.[66] There are a number of trade associations in the sector, including: • The National Association of Water Companies (NAWC), founded in 1895, which represents the interests of small and large private water and wastewater utilities;[67] • The National Association of Clean Water Agencies (NACWA), founded in 1970, which represents the interests of wastewater utilities;[68] • The National Rural Water Association (NRWA), founded in 1976, which represents small water and wastewater utilities;[55] • The Association of Metropolitan Water Agencies (AMWA), founded in 1981, which

Among the main issues facing water users and the water industry in the U.S. in 2009 are water scarcity and adaptation to climate change; concerns about combined sewer overflows and drinking water quality; as well as concerns about a gap between investment needs and actual investments. Other issues are concerns about a swiftly-retiring workforce, the affordability of water bills for the poor during a recession, and water fluoridation, which is opposed by some mainly on ethical and safety grounds.

Water scarcity and climate change
With water use in the United States increasing every year, many regions are starting to feel the pressure. At least 36 states are anticipating local, regional, or statewide water shortages by 2013, even under non-drought conditions.[45] According to the National Academies, climate change affects water supply in the U.S. in the following ways:


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Water supply and sanitation in the United States

Sewer overflows. Combined sewer overflows (CSO) and sanitary sewer overflows affect the quality of water resources in many parts of the U.S. About 772 communities have combined sewer systems, serving about 40 million people, mostly in the Northeast, the Great Lakes Region and the Pacific Northwest.[22] CSO discharges during heavy storms can cause serious water pollution. A 2004 EPA report to Congress estimated that there are 9,348 CSO outflows in the U.S., discharging about 850 billion gallons of untreated wastewater and storm water to the environment.[75] EPA estimates that between 23,000 and 75,000 sanitary sewer overflows occur each year, resulting in releases of between 3 and 10 billion gallons of untreated wastewater.[75] The increased frequency and intensity of rainfall as a result of climate change [8] [76] will result in additional water pollution from wastewater treatment, storage, and conveyance systems."[76] For the most part, wastewater treatment plants and combined sewer overflow control programs have been designed on the basis of the historic hydrologic record, taking no account of prospective changes in flow conditions due to climate change.[76] Drinking water quality. There are several aspects of drinking water quality that are of some concern in the United States, including Cryptosporidium,[77] disinfection byproducts, lead, perchlorates and pharmaceutical substances. However, in almost all cases drinking water quality is in conformity with the norms of the Safe Drinking Water Act, which sets Maximum Contaminant Levels for pollutants. In addition, the EPA’s Consumer Confidence Rule of 1998 requires most public water suppliers to provide consumer confidence reports, also known as annual water quality reports, to their customers.[78] According to the EPA, each year by July 1 anyone connected to a public water system should receive in the mail an annual water quality report that tells where water in a specific locality comes from and what’s in it. Consumers can find out about these local reports on a map provided by EPA.[79] 29% of Americans are reading their water quality reports. Customers are generally satisfied with the information they are receiving from their

Drought as a result of climate change is likely to reduce river flows in the southwestern U.S., potentially affecting the drinking water supply of large cities that depend on rivers such as Las Vegas, Phoenix and Los Angeles • Rising water demands. Hotter summers mean thirstier people and plants. In addition, more evaporation from reservoirs and irrigated farmland will lead to faster depletion of water supplies. • Increased drought. Scientific evidence suggests that rising temperatures in the southwestern United States will reduce river flows and contribute to an increased severity, frequency, and duration of droughts. • Seasonal supply reductions. Many utilities depend on winter snowpack to store water and then gradually release it through snowmelt during spring and summer. Warmer temperatures will accelerate snowmelt, causing the bulk of the runoff to occur earlier and potentially increasing water storage needs in these areas.[9]


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water companies and their local or state environmental offices.[49]

Water supply and sanitation in the United States
racial and ethnic categories, but they are more prominent in the minority groups. Most of the people who lacked plumbing services were elderly, poor, and living in rural areas. Alaska has the highest percentage of households without plumbing – 6.32 percent of all its households.[87]

Investment gap
In its Infrastructure Report Card the American Society of Civil Engineers gave both the U.S. drinking water and wastewater infrastructure a grade of D- in 2005, down from D in 2001. According to the report, "the nation’s drinking water system faces a staggering public investment need to replace aging facilities, comply with safe drinking water regulations and meet future needs."[80] Investment needs are about $19 billion/year for sanitation and $14 billion/year for drinking water, totaling $33 billion/year.[81] State and local governments invested $28.5 billion in water supply and sanitation in 2005, split roughly half and half between water and sanitation.[82][83] This implies an investment gap of $4.5 billion/year. If tariff revenues remain constant in real terms, utilities face a funding gap of the same magnitude. However, the funding gap would disappear if municipalities increased water and sanitation spending at a real rate of growth of three percent per year.[81] Concerning drinking water supply the EPA estimated in 2003 that $276.8 billion would have to be invested between 2003 and 2023.[84][85] Concerning sanitation, the EPA estimated in 2007 that investment of $202.5 billion is needed over the next 20 years to control wastewater pollution. This includes $134 billion for wastewater treatment and collection, $54.8 billion for resolving unsatisfactory combined sewer overflows and $9 billion for stormwater management.[86] The EPA needs surveys do not capture all investment needs, in particular concerning capital replacement.[81]

Pricing and affordability

Water meters are a prerequisite for accurate, volumetric billing of water users The median household in the U.S. spent about 1.1% of its income on water and sewerage in 2002. However, poor households face a different situation: In 1997 18% of U.S. households, many of them poor, paid more than 4% of their income on their water and sewer bill.[88] The mean U.S. water tariff - excluding sewer tariffs - was $2.72 per 1,000 gallons ($0.72 per cubic meter) in 2000,[89] with significant variations between localities. Average residential water tariffs for a monthly consumption of 15 cubic meters varied between $0.35 per cubic meter in Chicago and $3.01 in Atlanta in 2007. The combined water and sewer tariff was $0.64 in Chicago and $3.01 in Atlanta, with Atlanta not charging separately for sewer services.[90] Annual combined water and sewer bills vary between $228 in Chicago and $1,476 in Atlanta in 2008.[91] For purposes of comparison, the average water and sewer bill in England and Wales in 2008 was equivalent to $466.[92]

More than 99% of the U.S. population has access to "complete plumbing facilities", defined as the following services within the housing unit: • hot and cold piped water, • bathtub or shower, and • flush toilet. However, more than 1.7 million people in the United States, 670,986 households, still lack basic plumbing facilities. More than a third of them have household incomes below the federal poverty level. They are spread across all


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Water supply and sanitation in the United States
for seawater desalination, while 51% used brackish water and 26% used river water as water source.[100] The contracted capacity corresponds to 2.4% of total municipal and industrial water use in the country in 2000.[42] The actual share of desalinated water is lower, because some of the contracted capacity was never built or never operated, was closed down or is not operated at full capacity.[100]

Retiring workforce
The water community in the US is faced with a swiftly-retiring workforce and a tightening market place for new workers. In 2008, approximately one third of executives and managers were expected to retire in the following five years.[93] Water and sanitation utilities in the United States had 41,922 employees in 2002.[94]

Water fluoridation, the controlled addition of moderate concentrations of fluoride to a public water supply to reduce tooth decay, is used for about two-thirds of the U.S. population on public water systems.[95] Almost all major public health and dental organizations support water fluoridation, or consider it safe.[96] Nevertheless it is contentious for ethical, safety, and efficacy reasons.[97]

Demand-side management
Demand-side management, including the reduction of leakage in the distribution network and water conservation, are other options that are being considered and, in some cases, also applied to address water scarcity. For example, Seattle has reduced per capita water use from 152 gallons per day in 1990 to 97 gallons per day in 2007 through a comprehensive water conservation program including pricing policies, education, regulations and rebates for water-saving appliances. Other cities such as Atlanta and Las Vegas have also launched water conservation programs that are somewhat less comprehensive than the one in Seattle concerning indoor water use. However, Las Vegas has intentionally focused on curbing outdoor water demand, which accounts for 70% of residential water use in the city, through reductions in turf area and incentives for the use of rains sensors, irrigation controllers and pool covers.[101] At the federal level, the Energy Policy Act of 1992 set standards for water-efficient appliances, replacing the 3.5 gallons per flush (gpf) toilet with a new 1.6 gpf/6 litres per flush maximum standard for all new toilets. By 1994, federal law mandated that showerheads and faucets sold in the U.S. release no more than 2.5 and 2.2 gallons of water per minute respectively.[102] Also in 1994 the AWWA established a clearinghouse for water conservation, efficiency, and demand management, called WaterWiser, to assist water conservation professionals and the general public in using water more efficiently.[103] In 2006 the U.S. Environmental Protection Agency launched the WaterSense program to encourage water efficiency beyond the standards set by the Energy Policy Act through the use of a special label on consumer products.[104] [105] Distributional losses in the U.S. are typically 10-15% of total withdrawals, although

Responses to address issues
Supply-side management
Historically the predominant response to increasing water demand in the U.S. has been to tap into ever more distant sources of conventional water supply, in particular rivers. Because of environmental concerns and limitations in the availability of water resources, including droughts that may be due to climate change, this approach now is in many cases not feasible any more. Still, supply-side management is often being pursued tapping into non-conventional water resources, in particular seawater desalination in coastal areas with high population growth. California alone had plans to build 21 desalination plants in 2006 with a total capacity of 450 million gallons per day (1.7 bn m3/day), which would represent a massive 70-fold increase over current seawater desalination capacity in the state.[98] In 2007 the largest desalination plant in the United States is the one at Tampa Bay, Florida, which began desalinating 25 million gallons (95,000 m³) of water per day in December 2007.[99] In 2005 over 2,000 desalination plants with a capacity of more than 100m3/day had been installed or contracted in every state in the U.S. with a total capacity of more than 6 million m3/day. Only 7% of that capacity was


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they can exceed 25% of total water use in older systems.[101] According to another source unaccounted-for water (UFW) - which includes system losses, water used for firefighting and water used in the treatment process - was estimated to be only 8% in systems with more than 500,000 connections in 2000.[106] In comparison, the level of water losses is 7% in Germany, 19% in England and Wales, and 26% in France. Together with Germany water losses in the U.S. are thus among the lowest in 16 industrial countries.[107] Low water tariffs and inappropriate tariff structures do not encourage water conservation. For example, decreasing-block rates, under which the unit rate decreases with consumption, offer hardly any incentive for water conservation. In 2000 about 51% of water tariffs in the U.S.were uniform (i.e. the unit tariff is independent of the level of consumption), 12% were increasing-block tariffs (the unit rate increases with consumption) and 19% were decreasing-block tariffs.[108] The use of decreasing-block tariffs declined sharply from 45% of all tariff structures in 1992. [63] Sewer rates are often flat rates that are not linked to consumption, thus offering no incentive to conserve water.[101]

Water supply and sanitation in the United States
construction of a reclaimed water facility at San Francisco’s Golden Gate Park. Reclaimed water is typically distributed with a colorcoded dual piping network that keeps reclaimed water pipes completely separate from potable water pipes.[111]

Pollution control
Numerous efforts have been undertaken in the United States to control the pollution of water resources and to make drinking water safe. The most comprehensive federal regulations and standards for the water treatment industry were implemented in the 1970s, in reaction to a huge increase in environmental concerns in the country. In 1972, Congress passed the Clean Water Act, with the unprecedented goal of eliminating all water pollution by 1985 and authorized expenditures of $24.6 billion in research and construction grants.[112] In 1974, Congress passed the Safe Drinking Water Act, specifying a number of contaminants that had to be closely monitored and reported to residents should they exceed the maximum contaminant levels.[113] Both Acts were complemented by substantial federal grant funding to improve infrastructure in the form of construction grants. In 1987 Congress, through the Water Quality Act, passed an amendment of the Clean Water Act, abolishing construction grants and replacing them by a system of subsidized loans using the Clean Water State Revolving Fund. The intention at the time was to completely phase out federal funding after a few years. Funding for the CWSRF peaked in 1991 and continued at high levels thereafter, despite the original intentions.[114] New challenges arose, such as the need to address combined sewer overflows for which EPA issued a policy in 1994. In 1997 Congress established the Drinking Water State Revolving Fund, in order to finance investments to improve compliance with more stringent drinking water quality standards. Today cities make significant investments in the control of combined sewer overflows, including through the construction of storage facilities in the sewerage system in order to allow for the subsequent controlled release of sewage into treatment plants.

Water reuse
Reuse of reclaimed water is an increasingly common response to water scarcity in many parts of the United States. Reclaimed water is being reused directly for various non-potable uses in the United States, including urban landscape irrigation of parks, school yards, highway medians and golf courses; fire protection; commercial uses such as vehicle washing; industrial reuse such as cooling water, boiler water and process water; environmental and recreational uses such as the creation or restoration of wetlands; as well as agricultural irrigation.[109] In some cases, such as in Irvine Ranch Water District in Orange County it is also used for flushing toilets.[110] It was estimated that in 2002 a total of 1.7 billion gallons (6.4 million m3) per day, or almost 3% of public water supply, were being directly reused. California reused 0.6 and Florida 0.5 billion gallons per day respectively. Twenty-five states had regulations regarding the use of reclaimed water in 2002.[109] Planned direct reuse of reclaimed water was initiated in 1932 with the

Federal assistance

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Water supply and sanitation in the United States
10,000 inhabitants), together with technical assistance and training.[120] The American Recovery and Reinvestment Act of February 17, 2009, provides $4 billion for the Clean Water SRF, $2 billion for the Drinking Water SRF and, among others, $126 million for water recycling projects through the United States Bureau of Reclamation.[121] This exceeds previous levels of financing, since Congress approved only US$1.5 billion of federal funding for State Revolving Funds in 2008. This was much below the historical average of US$3 billion/year for the Clean Water State Revolving Fund (1987-2006)[118][122] and US$ 1.2 billion/year for the Drinking Water State Revolving Fund (1997-2005).[20] The share of federal funding for sanitation has declined from almost 50% in the early 1980s to about 20% in the early 1990s.[123]

The United States Congress approves federal funding for water and sanitation, including through State Revolving Funds. One way to address the funding needs of utilities to respond to the various challenges they face without increasing the burden of water bills on users is federal financial assistance. Centralized water and sanitation infrastructure is typically financed through utilities’ own revenue or debt. Debt can be in the form of soft loans from State Revolving Funds (SRF), credits from commercial Banks or – in the case of large utilities - from bonds issued directly in the capital market. In the case of water supply (i.e. excluding sanitation), 42% of investments were financed by private sector borrowing, 39% by current revenues, 13% by government loans including the Drinking Water SRF, 5% by government grants and 1% from other sources.[5] Although federal funding for the main of the two SRFs has declined in real terms by 70% between its peak in 1991 and 2006, SRFs play an important role in financing water and sanitation investments.[114][115][116] There are two SRFs: The larger Clean Water State Revolving Fund, created in 1987,[117][118][119] and the smaller Drinking Water State Revolving Fund, created in 1997.[20] They receive federal and state contributions and issue bonds. In turn, they provide soft loans to utilities in their respective states, with average interest rates at 2% for up to 20 years in the case of the Clean Water State Revolving Fund. In addition to the SRFs, the United States Department of Agriculture provides grants, loans and loan guarantees for water supply and sanitation in small communities (those with less than

[1] ^ Mayer, P.W.; DeOreo, W.B. et al. (1999). "Residential End Uses of Water". American Water Works Association Research Foundation, Denver, CO. http://www.aquacraft.com/Publications/ resident.htm. Retrieved on 2-24-09. ; The study covered 1,188 households in 14 cities over 3 years. [2] ^ U.S. Environmental Protection Agency. "Water on Tap: What You Need to Know" (pdf). http://www.epa.gov/safewater/wot/ pdfs/book_waterontap_full.pdf. Retrieved on 2-28-09. , p. 11; quoting: U.S. Environmental Protection Agency (April 2003). Investing in America’s Water Infrastructure. Keynote Address by G. Tracy Mehan III to the Schwab Capital Markets’ Global Water Conference. Washington, DC. http://www.epa.gov/ water/speeches/041503tm.html. Retrieved on 03-22-09. [3] United States Census Bureau. "Statistical Abstract of the United States. State and Local Governments: Expenditures for Public Works 1995-2005" (pdf). http://www.census.gov/compendia/ statab/tables/09s0420.pdf. Retrieved on 03-25-09. [4] Calculated from United States Census Bureau. "State and Local Government Finances by Level of Government and by


From Wikipedia, the free encyclopedia

Water supply and sanitation in the United States

State: 2005-06". http://www.census.gov/ privatewells/booklet/. Retrieved on govs/estimate/0600ussl_1.html. 2-28-09. Retrieved on 03-25-09. [15] United States Geological Survey (2005). [5] ^ Environmental Protection Agency "Estimated Use of Water in the United (December 2002). "Community Water States in 2000: Domestic Supply". System Survey 2000, p. 18" (pdf). http://pubs.usgs.gov/circ/2004/circ1268/ http://www.epa.gov/ogwdw/consumer/ htdocs/text-do.html. Retrieved on pdf/cwss_2000_volume_i.pdf. Retrieved 3-04-09. on 03-26-09. [16] Calculated based on a median household [6] ^ Environmental Protection Agency. income of $42,409 in 2002, as quoted by "FACTOIDS: Drinking Water and Ground U.S. Census Bureau (2007). "Mean Water Statistics for 2007". Income: 1975 to 2007". http://www.epa.gov/safewater/data/pdfs/ http://www.census.gov/hhes/www/ data_factoids_2007.pdf. Retrieved on income/histinc/h06AR.html. Retrieved on 02-23-09. 2-28-09. [7] Urban providers are defined as entities [17] Environmental Protection Agency serving systems with more than 10,000 (December 2002). "Community Water inhabitants System Survey 2000, p. 14" (pdf). [8] ^ American Metropolitan Water http://www.epa.gov/ogwdw/consumer/ Association (December 2007). pdf/cwss_2000_volume_i.pdf. Retrieved "Implications of Climate Change for on 03-26-09. Urban Water Utilities - Main Report" [18] U.S. Environmental Protection Agency (pdf). http://www.amwa.net/galleries/ (2002). "Drinking Water from Household climate-change/ Wells". http://www.epa.gov/OGWDW/ AMWA_Climate_Change_Paper_12.13.07.pdf. privatewells/booklet/. Retrieved on Retrieved on 02-26-09. 2-28-09. [9] ^ [|National Academies’ Water [19] United States Geological Survey (2005). Information Center]. "Drinking Water "Estimated Use of Water in the United Basics". States in 2000: Domestic Supply". http://water.nationalacademies.org/ http://pubs.usgs.gov/circ/2004/circ1268/ basics_part_3.shtml. Retrieved on htdocs/text-do.html. Retrieved on 02-26-09. 3-04-09. [10] ^ U.S. Environmental Protection Agency [20] ^ Environmental Protection Agency (2003). "Water on Tap: What You Need (May 1999). "Drinking Water State to Know". http://www.epa.gov/safewater/ Revolving Fund (DWSRF). Frequent wot/pdfs/book_waterontap_full.pdf. Questions". http://www.epa.gov/ Retrieved on 2-23-09. , p. 11 safewater/dwsrf/frequentquestions.html. [11] Food & Water Watch (2007). "The Clean Retrieved on 03-25-09. Water State Revolving Fund". [21] World Health Organization; UNICEF. http://www.foodandwaterwatch.org/ "Joint Monitoring Program". water/trust-fund/clearwaters/the-cleanhttp://www.wssinfo.org. Retrieved on water-state-revolving-fund. Retrieved on 2008-03-02. 3-04-2009. World Health Organization; UNICEF [12] Food & Water Watch (2007). "Clear (2006). "Joint Monitoring Programme for Waters". Water Supply and Sanitation. Coverage http://www.foodandwaterwatch.org/ Estimates Improved Drinking Water.". water/trust-fund/clearwaters. Retrieved http://www.wssinfo.org/pdf/country/ on 3-04-2009. USA_wat.pdf. Retrieved on 2008-03-07. [13] Food & Water Watch (2007). "Annual World Health Organization; UNICEF Funding for Clean Water". (2006). "Joint Monitoring Programme for http://www.foodandwaterwatch.org/ Water Supply and Sanitation. Coverage water/trust-fund/state-revolving-funds. Estimates Improved Drinking Retrieved on 3-04-2009. Sanitation.". http://www.wssinfo.org/pdf/ [14] U.S. Environmental Protection Agency country/USA_san.pdf. Retrieved on (2002). "Drinking Water from Household 03-07-09. Wells". http://www.epa.gov/OGWDW/


From Wikipedia, the free encyclopedia
[22] ^ Environmental Protection Agency. "Combined Sewer Overflows: Demographics". http://cfpub.epa.gov/ npdes/cso/demo.cfm. Retrieved on 01-30-09. [23] Environmental Protection Agency: New York City Watershed:Filtration Avoidance, accessed on April 17, 2009 [24] Committee to Review the New York City Watershed Management Strategy, National Research Council (2000). Watershed Management for Potable Water Supply: Assessing the New York City Strategy. The National Academies Press. ISBN 0309067774. [25] "2005 Drinking Water Supply and Quality Report". City of New York Department of Environmental Protection. http://www.nyc.gov/html/dep/html/ wsstate.html. Retrieved on 2006-07-19. [26] San Francisco Public Utilities Commission:Water Sources & Water Supply Planning, accessed on April 16, 2009 [27] Kehoe, Paula. "San Francisco’s Water Supply". San Francisco Public Utilities Commission. http://sfwater.org/ mto_main.cfm/MC_ID/13/MSC_ID/165/ MTO_ID/288. Retrieved on 02-23-09. [28] Portland Water Bureau. "The Bull Run Watershed". http://www.portlandonline.com/water/ index.cfm?c=29784. Retrieved on 02-23-09. [29] "Lake Mead Water Could Dry Up by 2021". Environment News Service. 2008. http://www.ens-newswire.com/ens/ feb2008/2008-02-12-095.asp. Retrieved on 2009-02-28. [30] ABC News (April 5, 2007). "Water Wars: Quenching Las Vegas’ Thirst". http://abcnews.go.com/Nightline/ story?id=3012250. Retrieved on 02-23-09. [31] Los Angeles Department of Water and Power. "Los Angeles Aqueduct". http://www.ladwp.com/ladwp/cms/ ladwp004409.jsp. Retrieved on 02-23-09. [32] Metropolitan Water District of Southern California. "California’s Colorado River Alloaction". http://www.mwdh2o.com/ mwdh2o/pages/yourwater/supply/ colorado/colorado04.html. Retrieved on 03-04-09.

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[33] City of San Diego Water Department. "Overview". http://www.sandiego.gov/ water/gen-info/overview.shtml. Retrieved on 03-27-09. [34] Denver Water (September 11, 2008). "Denver Water: An Overview". http://www.denverwater.org/aboutdw/ aboutdwmain.html. Retrieved on 02-23-09. [35] Metropolitan North Georgia Water Planning District. "Water Supply Basics. Where Does Our Water Come from and How Do We Use It?". http://www.northgeorgiawater.com/html/ 207.htm. Retrieved on 02-23-09. [36] City of Chicago: Department of Water Management. "Water Treatment". http://egov.cityofchicago.org/city/ webportal/ portalContentItemAction.do?BV_SessionID=@@@@1 +Water+Treatment/ I+Want+To&context=dept&channelId=0&programI Retrieved on 02-23-09. [37] Philadelphia Water Department. "Urban Water Cycle". http://www.phila.gov/ water/urban_water_cycle.html. Retrieved on 3-28-09. [38] District of Columbia Water and Sewer Authority. "Washington Aqueduct". http://www.dcwasa.com/about/cip/ aqueduct.cfm. Retrieved on 3-04-09. [39] Miami-Dade County. "Reclaimed Water". http://www.metro-dade.com/wasd/ water_reclaim.asp. Retrieved on 02-23-09. [40] The University of Memphis, Groundwater Institute. [1] No date. History of the Memphis Water, accessed on 2-27-09 [41] City of Houston - Department of Public Works and Engineering - Public Utilities Division. "Drinking Water Operations". http://www.publicworks.houstontx.gov/ utilities/drinkingwater.htm. Retrieved on 02-23-09. [42] ^ United States Census Bureau. "Table 354. U.S. Water Withdrawals Per Day by End Use: 1940 to 2000" (pdf). http://www.census.gov/compendia/ statab/tables/09s0354.pdf. Retrieved on 03-25-09. According to that source total municipal and industrial water use in 2000 was 66 billion gallons per day, or 250 million m3/day. [43] ^ United States Geological Survey (2005). "Estimated Use of Water in the United States in 2000: Domestic Supply".


From Wikipedia, the free encyclopedia

Water supply and sanitation in the United States

http://pubs.usgs.gov/circ/2004/circ1268/ http://archpedi.ama-assn.org/cgi/content/ htdocs/text-do.html. Retrieved on full/161/5/457. 3-04-09. . Other major water uses in the [51] The Environmental Protection Agency U.S. are irrigation and industries. estimates the number of beneficiaries of [44] Environmental Protection Agency community water systems at 288 million (December 2002). "Community Water in 2007, source: Environmental System Survey 2000, p. 10" (pdf). Protection Agency. "FACTOIDS: Drinking http://www.epa.gov/ogwdw/consumer/ Water and Ground Water Statistics for pdf/cwss_2000_volume_i.pdf. Retrieved 2007". http://www.epa.gov/safewater/ on 03-26-09. data/pdfs/data_factoids_2007.pdf. [45] ^ Environmental Protection Agency: Retrieved on 02-23-09. . The United WaterSense. "Water Supply and Use in States Geological Survey estimates that the United States". http://epa.gov/ "About 242 million people depended on watersense/pubs/supply.htm. Retrieved water from public suppliers" in 2000, on 02-26-09. source: United States Geological Survey [46] Environment Agency. "Household water (2005). "Estimated Use of Water in the use in England and Wales, 1992 to United States in 2000: Public Suppl". 2007". http://www.environmenthttp://pubs.usgs.gov/circ/2004/circ1268/ agency.gov.uk/research/library/data/ htdocs/text-ps.html. Retrieved on 58847.aspx. Retrieved on 02-23-0. 3-04-09. . The EPA figures is more [47] Federal Statistical Office of Germany recent, while the USGS data are more (2006, 20 January). "Water use continues consistent, because they show both the to decline slightly (in German)". number of people connected to public http://www.destatis.de/jetspeed/portal/ systems and those self-supplied, with cms/Sites/destatis/Internet/DE/Presse/ both figures adding up to the total pm/2006/01/PD06__031__322.psml. population of the U.S. Retrieved on 02-23-09. The original [52] Environmental Protection Agency (2002). German quote is: "...ergibt sich daraus "Drinking Water from Household Wells". ein durchschnittlicher http://www.epa.gov/OGWDW/ Trinkwasserverbrauch von 126 Litern je privatewells/booklet/. Retrieved on Einwohner und Tag", which translates as 02-28-09. "...therefore the average drinking water [53] ^ [|National Association of Water consumption is 126 liter per inhabitant Companies]. "Private Water Service and day". The calculation is based on Providers: Quick Facts". total water production by all utilities in http://www.nawc.org/about/about2004 divided by the number of people qf.html. Retrieved on 2-28-09. , based on served by the same utilities. The figure Environmental Protection Agency. includes small commercial water use "Community water system survey". ("Kleingewerbe"). http://www.epa.gov/ogwdw/cwssvr.html. [48] Profile of the German Water Industry Retrieved on 03-23-09. and 2008, p. 20 Congressional Budget Office (November [49] ^ Environmental Protection Agency 2002). "Future Investment in Drinking (August 2003). "Analysis and Findings of Water and Wastewater Infrastructure" The Gallup Organization’s Drinking (pdf). http://www.cbo.gov/ftpdocs/39xx/ Water Customer Satisfaction Survey" doc3983/11-18-WaterSystems.pdf. (pdf). http://www.epa.gov/safewater/ccr/ Retrieved on 03-23-09. pdfs/ [54] The 89% figures is calculated based on tools_survey_gallup_customersatification2003.pdf. 11% figure for the population served the Retrieved on 03-25-09. by private utilities, given that there are [50] Hobson WL, Knochel ML, Byington CL, three types of ownership of assets: Young PC, Hoff CJ, Buchi KF (2007). public, private and cooperative. "Bottled, filtered, and tap water use in [55] ^ National Rural Water Association Latino and non-Latino children". (NRWA). "Official website". Archives of Pediatrics and Adolescent http://www.nrwa.org/. Retrieved on 02-23-09. Medicine 161 (5): 457–61. doi:10.1001/ archpedi.161.5.457. PMID 17485621.


From Wikipedia, the free encyclopedia

Water supply and sanitation in the United States

[56] "Connecting Rural America". 2002. index.php?option=com_content&view=article&id=2& http://www.usda.gov/rus/index2/ Retrieved on 02-23-09. National aboutus.htm. Retrieved on 02-23-2009. Association of Clean Water Agencies, [57] American Water:Corporate Information, Accessed on 02-23-2009. accessed on March 26, 2009 [69] Association of Metropolitan Water [58] United Water:About us:Facts and Agencies (AMWA). "About AMWA". figures, accessed on March 26, 2009 http://www.amwa.net/cs/about_amwa/ [59] City of Santa Clara. "Sewer Utility". about. Retrieved on 02-23-09. http://santaclaraca.gov/pub_utility/ [70] Water Reuse Association. "About the ws_sewer_utility.html. Retrieved on Water Reuse Association". 3-06-08. http://www.watereuse.org/about[60] Metropolitan Water District of Southern watereuse-association. Retrieved on California (2008). "MWD at a glance". 03-23-09. http://www.mwdh2o.com/mwdh2o/pages/ [71] Environmental Expert. "Water Quality news/at_a_glance/mwd.pdf. Retrieved on Association". http://www.environmental3-27-09. expert.com/ [61] Central Arizona Project. "About Us". STSE_resulteach.aspx?cid=5308&idProductType=0& http://www.cap-az.com/about-cap/. Retrieved on 03-23-09. Retrieved on 03-23-09. [72] National Rural Water Association (2008). [62] National Association of Regulatory "About NRWA". http://www.nrwa.org/ Utility Commissioners. "About NARUC". au.htm. Retrieved on 03-04-09. http://www.naruc.org/about.cfm. [73] National Association of Clean Water Retrieved on 03-04-09. Agencies. "Water & Wastewater [63] ^ Prof. Dale Whittington, University of Leadership Center". North Carolina at Chapel Hill; Prof. John http://www.nacwa.org/ Boland, The Johns Hopkins University index.php?option=com_content&view=article&id=39 (April 2001). "Reflections on Water Retrieved on 03-04-09. Pricing and Tariff Design" (ppt). [74] Alliance for Water Efficiency. "Welcome http://web.mit.edu/urbanupgrading/ Letter from Chair of the Board". waterandsanitation/resources/ http://www.allianceforwaterefficiency.org/ powerpoint/ 1Column.aspx?id=564. Retrieved on DaleWhittingtonMumbaiApril3.ppt. 03-23-09. Retrieved on 03-25-09. [75] ^ Environmental Protection Agency. [64] National Academies’ Water Information "Report to Congress on Impacts and Center. "Drinking Water Basics". Control of Combined Sewer Overflows http://water.nationalacademies.org/ and Sanitary Sewer Overflows" (pdf). basics_part_5.shtml. Retrieved on http://www.epa.gov/npdes/pubs/ 03-23-09. csosso_rtc_factsheet.pdf. Retrieved on [65] American Water Works Association 02-23-09. (March 2006). "AWWA’s story". [76] ^ American Metropolitan Water http://www.awwa.org/About/ Association (2007). "Implications of Content.cfm?ItemNumber=3885&navItemNumber=1638. Climate Change for Urban Water Retrieved on 03-04-09. Utilities - Highlights" (pdf). [66] Water Environment Federation. http://www.amwa.net/galleries/climate"Member associations". change/AMWA_cchange_Summary.pdf. http://www.wef.org/MembershipCareers/ Retrieved on 02-26-09. MembershipInformation/ [77] Virginia Department of Health (2007). MAInfoContacts/. Retrieved on "Cryptosporidiosis and Drinking Water". 03-04-09. http://www.vdh.state.va.us/epidemiology/ [67] National Association of Water factsheets/Cryptosporidiosis_Water.htm. Companies. "About NAWC". Retrieved on 03-25-09. http://www.nawc.org/about/about-a.html. [78] Environmental Protection Agency. Retrieved on 2-26-09. "Consumer Confidence Reports (CCR)". [68] National Association of Clean Water http://www.epa.gov/safewater/ccr/ Agencies. "About NACWA". index.html. Retrieved on 03-25-09. http://www.nacwa.org/


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Water supply and sanitation in the United States

External links
• Environmental Protection Agency Drinking Water Page - EPA • EPA Wastewater Permit Program - NPDES • American Water Works Association (AWWA), the association of water supply professionals in the U.S. and Canada AWWA • Water Environment Federation (WEF), an association of professionals working on wastewater treatment and water quality protection - WEF • Association of Metropolitan Water Agencies (AMWA), the association of the largest publicly owned drinking water systems in the U.S. AMWA • National Association of Clean Water Agencies - NACWA • National Association of Water Companies NAWC • National Association of Regulatory Utility Commissioners (NARUC) - NARUC • The United States Conference of Mayors Urban Water • Water Infrastructure Network • List of and Links to State Public Utility/ Service Commissions List of State Commissions at NARUC • Americans for Pure Water:Water News Update • Water and Sewer Distributors of America • Documentary film:Liquid assets - the story of our water infrastructure • The National Academies’ Water Information Center:Drinking Water Basics • Water Utility Climate Alliance

Retrieved from Water_supply_and_sanitation_in_the_United_States" Categories: Water supply and sanitation in the United States


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