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What is the State of Wisconsin
doing about the problem of lead in
drinking water?
DNR rules establish a
lead “action level” of
15 ug/L (micrograms
per liter) in public
water systems.
All community
and non-transient
non-community
water system
owners are required
under DNR rules to
regularly test high-
risk locations for lead.
If more than ten percent
of the locations exceed the
action level the system owner must conduct a
public education program and install system-
wide treatment to reduce corrosion.
DNR well and facility construction rules
currently prohibit the use of lead in wells,
pumps, and other water system components.
Department of Safety and Professional Services
rules currently restricts the use of lead in
solder, fluxes and plumbing system piping.
DNR will continue to work with community
water systems to reduce the corrosivity of the
water through central treatment. System-wide
corrosion control can be designed to either
reduce the actual corrosivity of the water, or
to coat the piping with an additive which acts
as a barrier between the pipe and the water.
DNR will continue to provide updated information
on the issue of lead in drinking water.
PRINTED ON RECYCLEDPAPER Wisconsin Department of Natural Resources
Bureau of Drinking Water & Groundwater
Lead
in
Drinking
Water
This brochure tells of growing evidence
that even moderate levels of lead can be
harmful to human health, and particularly
to the health of small children and
developing fetuses. For this reason,
Wisconsin residents are advised to:
1) r un your water in the morning for two
or three minutes, or until it gets as cold
as it will get, before you drink it, or
2) find out how much lead your water is
dissolving from your plumbing system
by having your water tested for lead.
Whether your water comes from a community
water system or your own private well,
this brochure will discuss the lead issue in
some detail, and will provide some specific
recommendations for a variety of situations.
The Wisconsin Department of Natural Resources Bureau
of Drinking Water & Groundwater would like to thank
the Groundwater Coordinating Council (GCC) Education
Sub-Committee for their part in the development and
editing of this publication. For more information on
the GCC, it’s member organizations and programming,
please visit wisconsin.gov. Choose “Government,”
“State Agencies,” followed by “List of Agencies”
then select “Groundwater Coordinating Council.”
The Wisconsin Department of Natural Resources
provides equal opportunity in its employment,
programs, services and functions under an
Affirmative Action Plan. If you have any questions,
please write to: Equal Opportunity Office,
Department of the Interior, Washington, D.C. 20240.
This publication is available in alternative format
(large print, Braille, audiotape, etc.) upon request.
Please call (608) 266-0821 for more information.
PUB-DG-015 2015
Bilingual Services are available
What is Lead?
How can I be exposed?
How does lead get into my
water supply?
Most Wisconsin drinking water
sources, either wells or lake
water intakes, have little or no
measurable lead. The source of
lead in drinking water is most
likely lead pipe or solder in the
house water supply plumbing,
or lead service lines which join
buildings to street water mains.
Under typical circumstances, lead will dissolve
into the water. The concentration of lead in
drinking water can vary greatly, depending on
the corrosivity of the water, the type and age of
the plumbing materials used in the house, and
the length of time that the water stands in the
pipes. The highest levels of lead occur when very
corrosive water stands motionless in lead or lead-
soldered copper pipe for long periods of time.
Corrosivity varies greatly with water quality, but
hard water is generally less corrosive than soft water.
Nevertheless, hard water alone does not always
guarantee that there will be no elevated lead levels.
A greenish discoloration and unpleasant taste
of tap water are indications that copper pipes
are corroding, but significant corrosion can
occur even if there are no visible indications.
The age of a house relates to the type of plumbing
system that can be expected. Through the early
1900s, lead pipes were commonly used for interior
plumbing in some areas. Until the 1940s, lead
piping was often used for the service lines that
join buildings to street water mains. Lead piping
can be recognized as a dull-grey metal which is
soft enough to be easily scratched with a key or
screwdriver. Scratched lead will be shiny underneath.
In the 1930s, copper
pipes or galvanized
steel pipes replaced
lead pipes in most
residential plumbing.
However, the use of
50/50 tin/lead solder and
lead-containing fluxes
to join copper piping
continued in Wisconsin
until a ban on the use
of lead solder and
fluxes became effective in1984. Homes constructed
after that date should have “lead-free” water supply
plumbing systems. Also, any repairs of existing
plumbing systems must be made with “lead-free”
materials, such as tin/antimony (95/5) solder.
Studies indicate that the levels of dissolved metals
in drinking water will decrease as a building ages.
This is because, as time passes, a mineral or
oxidation coating forms on the inside of the pipes
(if the water is not too corrosive). This coating can
partially insulate the water from the lead materials,
significantly reducing levels of dissolved lead.
The longer water stands in a pipe the more lead
can be dissolved. Because lead will continuously
dissolve into the water, the resulting lead
concentrations will increase directly with time.
This is why water which is drawn first thing in
the morning, or after any extended period of
nonuse, will contain the highest levels of lead.
Federal and state standards have established an
action level of 15 parts per billion (ppb) for lead
in drinking water. The standard is adjusted to
account for average lead exposures from other
environmental sources as well. Nevertheless, lead
has no beneficial health effects, and it is advisable
to reduce the lead in your tap water as much as
possible. This is particularly true for pregnant
women or young children who may drink the water.
Lead is a toxic metal which has been used
in the construction of most household
plumbing systems in Wisconsin. Water
within the plumbing system will continuous-
ly dissolve the lead it contacts. The rate can
vary greatly with variations in natural water
quality and the age of the plumbing sys-
tem. Most water in Wisconsin is corrosive
enough to dissolve some amount of lead.
When the water stands for extended peri-
ods of time, such as overnight, lead concen-
trations in the water can increase greatly.
Lead is widespread in the environment,
and people absorb lead from a variety of
sources every day. Although lead has been
used in numerous consumer products,
the most important sources of lead
exposure to the general population are:
Lead-based paint
Food (which can be contaminated
by lead in the air or in food
containers, particularly lead-
soldered food containers)
Soil and dust (which has been
contaminated by air, and includes dust
both inside and outside the home)
Outside air from vehicle emissions
and other sources. These have been
reduced significantly since placing
federal controls on lead in gasoline
Drinking water (from the corrosion
of plumbing systems)
It is estimated that lead in drinking
water contributes between 10 and
20% of total lead exposure in young
children. Food is the greatest single
source of lead for the average adult.
How does lead affect my health?
Lead absorbed by the lungs and the digestive tract
from all sources enters the bloodstream, where
it distributes to all tissues of the body. Excessive
levels of lead can damage the brain, kidneys,
nervous system, red blood cells and reproductive
system. The degree of harm is directly related to
the level of lead in the blood (from all sources).
Known effects of exposure to lead range from
subtle changes in body chemistry and nervous
system functions at low levels of exposure, to
severe toxic effects or even death at very high
levels associated with acute poisoning. Some
harmful effects are reversible if exposure is reduced,
while other harmful effects can be permanent.
Young children, infants and fetuses appear to be
particularly vulnerable to harmful effects of lead.
A dose of lead that would have little effect on an
adult can have a big effect on a small child. Also,
growing children will more rapidly absorb any
lead they consume. A child’s mental and physical
development can be irreversibly stunted by over-
exposure to lead. In infants, whose diet consists of
liquids made with water — such as baby formula
— lead in drinking water makes up an even greater
proportion of total lead exposure (40 to 60%).
How can I find out if my water is
safe to drink?
There are certain obvious
advantages to having your
water tested for lead,
including knowing exactly
how high your lead levels
rise after periods of nonuse.
Even if you live in an older
home with no lead piping
and are in a hard water area, a lead test can confirm
that there is little or no lead in your “first-draw”
sample. If testing shows lead in your first drawn
water, a lead test before and after flushing can
confirm if your flushing procedure is working.
If you decide to have your water tested, it is
recommended that you use a state certified
laboratory which can detect lead in drinking water
at 5 parts per billion or less. There are a number
of laboratories statewide that can provide drinking
water sampling materials and instruction. A list of
certified labs is available online at dnr.wi.gov, Search:
certified labs or check your local yellow pages.
Persons served by a public water system should
contact the system owner to determine whether there
has already been testing of homes with plumbing
materials and an installation date similar to yours.
Private Wells
In addition to plumbing corrosion concerns, there
are several other potential sources of lead in private
wells. If your well draws water from a sand and/
or gravel formation, you should know that some
well screens contain lead, and many have been
installed with a “lead packing collar.” If such a
device is contributing lead to your water, flushing
will probably take longer. It is recommended
that you have your water tested for lead.
If you own a “driven-point” well, and if you have ever
“shot” the well to clear the screen, you have another
potential source of lead in your water. Some indi-
viduals have actually poured lead shot into a well
to keep out sand. Lead wool has also been placed in
some wells. (None of these practices has ever been
recommended.) In any of these cases, it is recom-
mended that you have your water tested for lead.
If you live in a former lead-zinc mining region of
extreme southwest Wisconsin or if you live near
existing or former cherry orchards in Door County,
you may have lead in your groundwater. It is recom-
mended that you have your water tested for lead.
If you have lead in your groundwater, flushing will not
be effective. Point-of-use treatment devices, such as
reverse osmosis and distillation units can be effective
in removing lead. However, they can be expensive,
their effectiveness varies, and they must be properly
maintained. All makes and models of treatment
devices must be approved by the Wisconsin
Department of Safety and Professional Services.
Department of Natural Resources approval may be
required, under certain conditions, for the installation
of a point of use treatment device. Contact the
Bureau of Drinking Water and Groundwater at (608)
266-0821 or one of the DNR offices listed at the
end of this brochure for additional information.
If a treatment device is installed, set up an effective
and practical maintenance and monitoring
program to be sure the system is maintained as
recommended by the manufacturer. This is the best
way to be certain that it is doing the job intended.
Bring in water from a known safe supply.
How can I reduce my exposure to
lead in drinking water?
If your house was constructed before October,
1984, the easiest and most effective method of
reducing lead in drinking water is not to drink
water that has been in contact with your house
plumbing for more than 6 hours, such as overnight
or during your work day. Before using water for
drinking or cooking, flush the cold water faucet
by allowing the water to run until the water has
become as cold as it will get (usually 2-3 minutes).
You must do this for each drinking water faucet
— taking a shower will not flush your kitchen tap.
Shower, toilet, or cold water laundry use will,
however, partially flush the plumbing, and will
often reduce the time needed to flush drinking
water faucets. Buildings constructed prior to
the 1940s may have service lines made of lead.
Letting the water run for an extra 15 seconds
after it cools should also flush this service line.
Studies by the DNR have shown that such
flushing can reduce lead levels from
hundreds of parts per billion to
less than 3 parts per billion
(the current detection limit
at the State Laboratory
of Hygiene). Water
flushed from the taps
— usually one to two
gallons — can be
collected and used
for nonconsumptive
purposes such as
washing; it needn’t be
wasted. (NOTE: The
flushing procedures
outlined above will
usually be inadequate in
large buildings such as
apartment complexes.)
Another recommendation for reducing lead
exposure is to never cook with or drink water
from the hot-water tap. Hot water dissolves lead
more quickly than cold water. So, do not use water
taken from the hot tap for cooking or drinking
and especially not for making baby formula.
Must every plumbing system be flushed in the
morning? Not in all cases. Compliance samples
collected show that, in areas with high water
hardness, little or no detectable lead was found in
homes which met all of the following conditions:
Very hard, alkaline water (generally total
hardness greater than 300 parts per million,
reported “as calcium carbonate”),
Water supply plumbing system
more than five years old
No lead piping
No lead service line connecting to street water main
The individuals in these homes do not need to flush
their house plumbing if water is used daily and many
others with a similar situation will probably find
few problems. You can contact your water utility
or supplier for information on the level of water
hardness in your area, as well as other information
available on first-draw lead levels in the area.
A word of caution: it is not possible to guarantee
that all homes with the above characteristics
will have little or no detectable “first-draw”
lead levels. If you do not have your water
tested, flushing is a simple precaution.
A new house
If your house was constructed after September 26,
1984, state law requires that the soldered joints be
“lead-free.” To check on this, try to scratch the outside
of the solder at a pipe joint with a key or screwdriver.
If the solder is dull in appearance, scratches easily,
and is shiny underneath, it may be illegally-installed
50/50 lead/tin solder. Tin/antimony (95/5) solder, the
typical replacement for lead solder, remains bright
in appearance, and there is often a slight gap or
indentation in the solder where the pipe and fitting
meet. Lead solder usually bridges this gap completely.
If you suspect that lead solder was used in the
construction of your plumbing system, have a
“first-draw” sample of your water tested for lead.
If lead is found at levels over 10 ppb, contact
your local plumbing inspector or the Wisconsin
Department of Safety and Professional Services,
Safety and Buildings Division at dsps.wi.gov
for further advice. (Lead often occurs in other
metallic alloys such as brass and bronze and small
amounts can occur in copper pipe itself.)