How
Do Residents and Businesses in New England Get Their Drinking Water? |
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Residents and businesses obtain their drinking water
through drilling wells into the region's ground water
or by pumping water from reservoirs and rivers. Many
community water departments and private water companies
in New England provide drinking water to residents and
businesses. These systems are regulated as "public
water supplies" and include water systems which
regularly serve 25 or more people per day or which have
at least 15 service connections. Public water systems
may be publicly-owned or privately-owned and are regulated
nationally by the Safe Drinking Water Act. If you are
served by a public water supply you can learn more about
your drinking water source by calling your water supplier
or local health department. Your state
drinking water agency also has information about
public drinking water supplies.
Public
water systems are unavailable in many parts of New England,
including many rural areas. Instead, residents and small
businesses get their drinking water by using private
wells. Approximately 23 million people in the U.S. obtain
water from their own private drinking water supply.
EPA does not oversee private wells, although some state
and local governments have rules and information to
protect users of these wells. EPA encourages these households
to take special precautions to ensure the protection
and maintenance of their drinking water supplies. Find
out more about how to protect private
wells here, including how to learn about your well
water, test the quality of your drinking water and protect
it from contamination.
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What is Ground
Water and How is it
Used for Drinking Water? |
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When water falls to the earth in the form of rain,
sleet, hail or snow, some of it runs off the surface
of the ground and enters stormdrains or nearby streams,
some of it falls into oceans, lakes, rivers and other
water bodies, and some of it soaks into the ground.
When water seeps into the ground, it moves downward
due to gravity through the pore spaces found between
soil particles and cracks in rock. Eventually, the water
reaches a depth where the soil and rock are saturated
with water. Water which is found in the saturated (or
wet) part of the ground underneath the land surface
is called, "ground water."
Many
areas of New England are underlain with rock and soil
that contain large quantities of ground water which
can be used for drinking water. In the United States,
ground water can be found at or close to the land surface,
or as deep as 200-600 feet. In New England, ground water
is usually found close to the land surface (0-50 feet
deep). A rock or soil formation that is capable of yielding
enough ground water for human use is called an aquifer.
When people use ground water as a water supply source,
the water is usually pumped to the surface using a well.
Wells are drilled deep into the ground until they reach
ground water. They pump water out of the pore spaces
around soil particles, and cracks and fractures in rock,
and bring it to the land surface where it is piped into
homes and businesses. A much smaller number of water
supplies use springs, in which ground water flows naturally
onto the surface.
Today
about half of the American population uses ground water
for its domestic needs, and many rural New Englanders
get their household drinking water from private wells.
More than 89 percent of public water supply systems
draw some or all of their drinking water from sources
found underground in rock, sand, and gravel aquifers.
With increased use of water by industry, agriculture,
homes, and municipalities, our regional reliance on
ground water is expected to increase.
Ground water is a vital link in the water cycle. Ground
water feeds rivers, lakes, and streams used for drinking
water. Aquifers are replenished by rainfall or other
surface water percolating through the soil. In turn,
ground water provides the base flow of many streams
and feeds lakes through underground springs. Ground
water can move across town and state boundaries. It
continually moves, sometimes flowing into surface waters
miles from where it started.
Preventing
the contamination of ground water resources is an important
public concern. When pollutants are dumped, spilled,
or discharged into the ground or into rivers, lakes
and streams, they too may seep through the soil and
rock and enter into the ground water found below the
land surface. Ground water is usually assumed to be
of high quality and is often used with little or no
treatment. But, if contaminated, it may be decades or
even centuries before a contaminated aquifer can be
used. In some cases, the contamination can never be
removed and the water resource may be lost.
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Surface Waters
Provide Water to Many
Communities in New England |
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In addition to ground water, many communities draw
water from reservoirs, lakes and rivers to provide drinking
water. Many of the largest drinking water systems in
New England use surface water supplies to provide water,
including the systems serving major urbanized areas
like Boston, Hartford, Nashua, Providence, Burlington,
and Portland. Surface water supplies are susceptible
to contamination from a variety of sources including
storm water
runoff, pesticide
application, sedimentation and erosion, septic systems,
hazardous
materials spills, injection
wells, leaking chemical storage tanks, and wildlife.
2008
Public Drinking Water System Reliance
on Ground Water and Surface Water Sources
in New England |
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Ground
Water * |
Surface Water ** |
Total Population |
State |
Population |
% of Pop. |
Population |
% of Pop. |
Connecticut |
427,637 |
15 |
2,418,223 |
85 |
2,845,860 |
Maine |
470,093 |
51 |
447,005 |
49 |
917,098 |
Massachusetts |
2,085,440 |
100 |
0 |
0 |
2,085,440 |
New Hampshire |
735,646 |
58 |
523,766 |
42 |
1,259,412 |
Rhode Island |
229,401 |
21 |
844,146 |
79 |
1,073,547 |
Vermont |
322,024 |
54 |
271,819 |
46 |
593,843 |
Tribal Systems |
41,195 |
100 |
0 |
0 |
41,195 |
Region I total |
4,311,436 |
49 |
4,504,959 |
51 |
8,816,395 |
* GW includes systems solely dependent on ground water or purchased ground water or ground water sources which have been found to be under the influence of surface water
**SW inlcudes systems dependent solely on surface water sources
Source of Data: SDWIS (as of March 31, 2008) |
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Other
Information Sources |
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