ealthy schools
lessons for a clean educational environment
United States
Environmental Protection
k Agency New England
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Introduction -
More than 53 million children and 6 million adults in the United States
spend their days in our elementary and secondary schools. Reducing envi-
ronmental risks inside these buildings is critical to maintaining the public
health. Almost all of New England's children will spend a large portion
of their childhood in school. To help our children stay healthy, we
must reduce their exposure to environmental hazards in school
environments. When students and their teachers are healthy and
comfortable, children learn and produce more in the classroom,
which in turn improves performance and achievement later in life.
This brochure can help school employees and parents recognize
potential environmental health issues at schools, both indoors and out-
doors. It includes basic information about a broad range of topics, and links
to web sites that offer more information and guidance on how to have a
healthier school environment and comply with relevant laws. EPA's Healthy
School Environments web site provides access to programs that help
prevent and resolve environmental issues in schools.
www.epa.gov/ne/schools
www.epa.gov/schools
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Table of Contents
I. Staying Healthy Indoors 2
• Indoor Air Quality 2
Mold & Moisture 2
Radon 2
Volatile Organic Compounds (VOCs) 3
Ventilation 3
•Toxics 4
Asbestos 4
Lead 4
Mercury 4
Chemicals 5
Pesticides 5
Polychlorinated Biphenyls (PCBs) 6
• Drinking Water 6
II. Staying Healthy Outdoors 7
• Outdoor Air Quality 7
Ultraviolet Radiation 7
Diesel School Buses 8
• Oil Storage 8
III. Go Green at School 10
Design, Construction and Renovation 10
Energy Efficiency 10
Reuse, Recycling, E-cycling 10
Safety and Preparedness 10
Assessing Your School 11
Healthy School Environments 11
IV. 12 Ways to Make your School Healthier 12
table of
contents
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The rate of asthma in children is
increasing at a pace that under-
scores the need for schools to
address indoor air problems. EPA's
Indoor Air Quality Tools for Schools
Program helps schools maintain a
healthy environment and reduce
exposures to indoor environmen-
tal contaminants. In Connecticut,
where 70 percent of schools report-
ed indoor air quality problems the
success of this program has been
dramatic. One elementary school
in Waterford, Conn, cut out three
quarters of the related health
complaints, seeing complaints
drop from 152 to 40 complaints in
the year after the program began.
A Hamden, Conn, elementary
school cut absenteeism in half
from 484 days to 203 days in the
year after the Tools for Schools
program was put in place.
3 www.epa.gov/iaq/schools/
The environment inside a school is
affected by the quality of its air, the
way staff and administration manage
chemicals and a range of other factors.
Schools in New England have more
problems linked to indoor air quality
than average for the nation, with more
than 50 percent reporting concerns.
The age and design of many schools
buildings in New England contribute to
a higher incidence of indoor air quality
concerns. Children, who spend dozens
of hours a week at school, are espe-
cially susceptible to pollutants because
their bodies are smaller and growing.
Because of indoor air quality problems,
students and staff face a risk higher
than the general public of short-term
health problems, such as fatigue and
nausea, and long-term problems
like asthma and other respi-
ratory diseases.
Mold a
Moisture
Mold is associated
with moisture and
may become a health
problem in schools. Mold
growth in buildings often leads
to health complaints, particularly
from students or staff with aller-
gies or respiratory problems. Health
effects and symptoms can include
allergic reactions, asthma, and other
respiratory problems. Preventing
moisture is the key to controlling
mold problems in school buildings.
Mold spores, found almost every-
where in our environment, need mois-
ture to germinate, and take only a day
or two to grow. Moisture problems in
schools can be caused by flooding,
poor drainage, misdirected sprinklers
or leaky roofs, pipes, windows, foun-
dations and other structural open-
ings. Moisture problems in schools
also can result from poor ventilation
during certain regular maintenance,
including painting or carpet clean-
ing, or from conditions during school
breaks including high humidity during
summer, and reduced use of air-condi-
tioning or heating.
3 www.epa.gov/mold/
moldresources.html
3 www.epa.gov/mold/
mold remediation Jitml
Radon
Nearly one in five
schools nationwide
has at least one
schoolroom with an
unacceptably high
short-term level of
^^^^r A
radon. Radon, a natu-
rally occurring radioactive
gas that can cause lung cancer,
comes from the decay of uranium,
found in nearly all soils. EPA estimates
that more than 70,000 schoolrooms
nationwide have high short-term
radon levels. In New England, the
challenge is great since much of New
England is built on granite, which
can contain the uranium necessary
for radon emissions. Radon can seep
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into school buildings through cracks
or holes in the basement walls and
floor. It is colorless, odorless and
tasteless, and the only way to detect
radon is to test for it. Since EPA ranks
indoor radon among the most seri-
ous causes of environmental health
problems facing us, all school build-
ings should be tested for radon. After
smoking, it is the second leading
cause of lung cancer in the country
causing an estimated 14,000 lung
cancer deaths a year.
3 www.epa.gov/radon
Organic Vapors or
Volatile Organic
Compounds (VOCs)
Schools use many products that
contain organic vapors or volatile
organic compounds. Paints, paint
strippers, wood preservatives, aero-
sol sprays, cleansers, moth repel-
lents, air fresheners, stored fuels
and craft supplies all may contain
VOCs. Different VOCs pose different
levels of threat to children and adult
health. Exposure to VOCs can irritate
eyes, nose and throat; damage the
liver, kidneys and central nervous
system; and lead to cancer. Use of
safer alternatives and environmen-
tally friendly products in schools can
help reduce the risks associated with
VOCs. Schools should also reduce
risks by ventilating work areas and
properly storing and safely disposing
of products containing VOCs.
O www.epa.gov/iaq/voc.html
Ventilation
School heating, ventilation, and
air-conditioning (HVAC) systems are
designed to provide air at comfort-
able temperature and humidity
levels, free of harmful concentrations
of air pollutants. HVAC systems
typically function by bringing in
Asthma
About 330,000 children in New England
have asthma. Compared to non-asth-
matic children, children with asthma are
more likely to be in poorgeneral health
and to miss school. Environmental
asthma triggers commonly found in
schools are mold and cockroaches or
other pests. Secondhand smoke and
dust mites in schools also may trigger
asthma. A child's asthma should be
addressed medically and by avoiding
environmental triggers.
Owww.epa.gov/asthma/triggers.html
staying healthy
indoors
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outdoor air, conditioning and mixing
the outdoor air with some portion of
indoor air, distributing this mixed air
throughout the school building, and
exhausting some portion of the indoor
air outside. The quality of indoor air
may deteriorate when any part of this
process doesn't work properly. HVAC
systems are among the largest ener-
gy consumers in schools. Good HVAC
systems not only protect student and
staff health, but can also reduce water
consumption and improve acoustics.
In addition, HVAC systems need prop-
er maintenance such as cleaning filters
and emptying condensate reservoirs.
3 www.epa.gov/iaq/
schooldesign/hvac.html
Asbestos
Asbestos can be found in materi-
als used in schools for acoustic and
thermal insulation, fireproofing, roof-
ing and in other building materials.
Asbestos is a toxic substance and
known carcinogen, and it can cause
serious diseases in humans. Although
school leaders may choose to
remove asbestos
from school
buildings, many
schools manage
the asbestos-
containing build-
ing material by
leaving it in place.
These materials
left intact general-
ly do not pose a health risk. They may
pose a greater risk if they are damaged,
disturbed in some manner, or dete-
Consumer Information
1-800-424-LEAD
Center for Disease Control
Lead Poisoning Prevention:
1-404-488-7330.
riorate over time and thus release
asbestos fibers into the air. EPA's
asbestos program for schools, which
is governed by The Asbestos Hazard
Emergency Response Act, provides
guidance for "in-place" management
of asbestos-containing materials.
3 www.epa.gov/asbestos/pubs/
asbestos in schools.html#2
Lead
About one mill ion children in this coun-
try have elevated blood lead levels.
Lead is highly toxic and exposure to
it can be dangerous, especially for
children six or younger. The most
common sources of lead are lead-
based paint, lead dust, contami-
nated soil, older plumbing fixtures,
vinyl mini-blinds, and painted toys
and furniture made before 1978 that
were painted with lead-based paint.
New England has many buildings built
before 1978, when the use of lead
was phased out of paint. Exposure to
low levels of lead can permanently
affect children by causing nervous
system and kidney damage, learn-
ing disabilities,
attention defi-
cit disorder, and
decreased intel-
ligence. Higher
levels of lead can
have devastating
effects on chil-
dren, including
At schools built before 1978, both
the building and the soil in surround-
ing schoolyards should be tested for
lead paint hazards and their source.
3 www.epa.gov/region1/
eco/ne lead/index.html
Mercury
seizures, uncon-
sciousness and, in some cases, death.
Children should be tested for lead by
their doctor or health care provider.
Mercury is present in many items
found in schools, including ther-
mometers, barometers, switches,
thermostats, lamps and laboratory
equipment. Mercury spills at schools
are often caused by improper stor-
age and mishandling of these items.
Because mercury is shiny and "cool"
it is more likely than other lab
chemicals to be misused, spilled and
spread through schools. Mercury
exposure is harmful to children's
health and may cause damage to the
senses and brain, irritability, impul-
siveness, drowsiness.im paired memo-
ry and sleep disturbances. At high
doses, mercury exposure can cause
tremors, inability to walk, convulsions
and even death. Effects may occur at
lower levels of exposure in children
than adults. Cleaning up mercury
spills in schools can also by costly,
and cause widespread environmental
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contamination since it can easily be
tracked throughout a building. Mercury
compounds and equipment and prod-
ucts containing mercury should be
replaced in schools with alternatives
such as digital thermometers. Several
New England states already prohibit
schools from purchasing mercury.
www.epa.gov/
epaoswer/hazwaste/
mercury/school.htm
www.newmoa.
org/prevention/
mercury/
www.epa.gov/
region 1/eco/
mercury/index.html
Chemicals
From elementary school maintenance
closets to high school chemistry labs,
schools use a variety of chemicals.
Chemicals are found in science class-
rooms and labs, art classrooms and
vocational shops. When chemicals are
mismanaged, students and school
personnel may be at risk from spills,
fires, and other accidental exposures.
Chemical accidents disrupt school
schedules and can cost thousands of
Young childen are exposed
more to pesticides because
they crawl, explore and
engage in other hand-
to-mouth activities.
dollars to clean up. Schools that use
and manage chemicals proper-
ly can reduce chemical expo-
sure and costly accidents.
EPA's Schools Chemical
Cleanout Campaign (SC3)
helps schools learn about
purchasing less hazardous
chemicals, including mercury.
www.epa .g ov/sc3.
3 www.epa.gov/ne/
assistance/schools/sites.html
www.epa.gov/epaoswer/osw/
conserve/clusters/
schools/pdfs/state.pdf
Pesticides
Pesticides, which may be used
indoors and outdoors to protect
students and employees from insects,
rodents, fungi, bacteria and to elimi-
nate weeds, can also cause health
hazards and contribute to environ-
mental pollution. Children are more
sensitive than adults to pesticides.
Young children are exposed more to
pesticides because they crawl, explore
and engage in other hand-to-mouth
activities. Because of concerns about
unnecessary exposure to pesticides
most states have developed special
restrictions on how pesticides may
indoors
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Drinking Water
Clean drinking water is necessary for
good health. High concentrations of
bacteria, synthetic chemicals and
natural contaminants in drinking
water in schools pose a threat to
student and adult health. Schools in
New England receive drinking water
either from public water supplies or
from their own on-site well. Water
from public water supply systems
is regularly tested to ensure it
meets federal and state drinking
water standards. On-site
well water systems at .
schools are regulat- ,
ed as public water
systems by the EPA
and the state drink-
ing water program,
and administrators
at those schools are
responsible for making
sure the water is safe. This
includes protecting the source from
contamination, regularly testing
and reporting monitoring results,
and maintaining the distribution
system.
School administrators should take
care with toxic or hazardous mate-
rials to keep them from getting into
the drinking water. Releaseoftoxicor
hazardous materials onto soil, into
septic systems, or to the ground
through spills into floor drains
could cause contamination of a
nearby drinking water supply.
School officials should ensure that
staff members know how to prop-
erly handle hazardous materials
and chemicals.
Lead in
Drinking Water
The vast majority of public drinking
water systems are safe and depend-
able, but drinking water pipes, taps,
solder and other plumbing compo-
nents may contain lead. Lead in the
plumbing may leach into water and
pose a health risk when consumed.
Most lead gets into drinking water
through contact with plumbing
materials containing lead. These
include lead pipes, lead
^ solder (commonly used
. until 1986), as well as
faucets, valves and
other components
made of brass. The
extent of corrosion
partially determines
the amount of lead that
may be released into
the drinking water. Even
though a supplier may deliver
water that meets health standardsfor
lead, the plumbing in the school may
elevate the lead level above accept-
able standards. The potential for lead
to leach into water can increase the
longer the water remains in contact
with lead in plumbing. Schools with
intermittent water use patterns may
have elevated lead concentrations.
This increases the importance of test-
ing for lead in drinking fountains,
water faucets, taps and other drinking
water outlets.
www.epa.gov/safewater/
schools/
www.epa.gov/region1/eco/
drinkwater/pdfs/Drinking
Water-Booklet.pdf
www.epa.gov/safewater/
schools/guidance.html#3ts
be used in schools. State pesticide
regulatory agencies have details
of pesticide use recommendations
and restrictions in a particular state
or town. When pests are carefully
managed, schools can reduce or even
eliminate the need to use pesticides.
Integrated Pest Management (IPM),
an approach to managing pests that
minimizes the need for pesticides, can
make schools much safer for children.
3 www.epa.gov/pesticides/ipm
PCBs
Many schools have fluorescent
lights with components containing
Polychlorinated Biphenyls, synthetic
chemical compounds made up of
chlorine, carbon and hydrogen. As
these components—called light
ballasts—age, they degrade, increas-
ing the risk of leaks or even fires,
posing a health and environmental
hazard to students and staff. PCBs have
been linked to such health concerns as
decreased gestational age, lower birth
weight, depressed immune responses,
impaired mental development and
growth retardation. Before 1979, PCBs
were widely used in electrical equip-
ment, such as florescent light ballasts,
transformers and capacitors. Although
PCBs are no longer used, there are
still millions of pieces of equipment
in operation that contain PCBs. When
not handled and disposed of properly,
PCBs can harm children and adults.
3 www.epa.gov/opptintr/pcb/
3 www.cdc.gov/niosh/docs/
2007-1501
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Staying Healthy Outdoors
ior Air Quality
Air pollution, especially smog, has
been linked to many respiratory prob-
lems and may trigger asthma attacks
in children. Air pollution is not just a
problem in urban areas. On hot days
in summer, even rural areas may face
unhealthy levels of air pollution. On
days when air quality is poor, out-
door activities for children should be
restricted. EPA's website (www.epa.
gov/airnow) provides daily air quality
forecasts and health alerts.
The air quality around schools can
be affected by pollution from many
different sources: stationary sources
such as factories and power plants;
mobile sources such as cars, planes and
trains; and naturally occurring sources
such as dust. At schools, diesel school
buses present a particular
challenge.
Ground-level ozone,
one of the main in-
gredients in smog, is
created when pollu-
tion from cars, buses
and industrial sources
reacts with sunlight on
hot summer days. Ozone near
ground level can aggravate asthma,
emphysema and bronchitis and can in-
Overexposure to UV
radiation can lead to
serious health effects, such
as skin cancer, cateracts
and immune suppression.
flame and damage cells that line the lungs.
On days when there are forecasts for high
ozone or smog, it is important to limit and
slow down outdoor activities, especially for
children.
Ultraviolet
Radiation
The global levels of ultraviolet (UV)
radiation are rising.Overexposure to UV
radiation can lead to serious health
^^^^ effects, such as skin cancer,
cataracts and immune
suppression. Some ex-
posure to sunlight can
be enjoyable, but too
much can be danger-
ous. For children play-
ing outside on school
playgrounds, overexpo-
sure to the sun's ultraviolet
radiation can cause sunburns
in the short term and problems such
as skin cancer and cataracts in the long
term.The ozone layer,a thin shield in the
upper atmosphere, protects Earth from
the sun's ultraviolet rays.
Children and their caregivers need to
protect themselves from overexposure
to the sun.Schoolchildren need to learn
"sunsafe behaviors"like limiting time in
the midday sun, staying in the shade,
staying healthy
outdoors
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using sunscreen and wearing a hat
and sunglasses.
Diesel School Buses
A national partnership,
Clean Schoolbus USA's
goal is to reduce both
children's exposure to diesel
exhaust and the amount
of air pollution created
by diesel school buses.
More than 1.7 million children in
New England ride a bus to and from
school every day, spending, on aver-
age, an hour and a half each week-
day in a school bus. School buses
are the safest way for children to
get to school. Pollution from diesel
vehicles, however, has health impli-
cations. Diesel exhaust from idling
school buses can accumulate on and
around the bus and pose a health
risk outside and inside school buses
and buildings. Diesel exhaust has
been identified as a likely cause
of cancer, and the soot and
gases emitted by diesel
buses are associated
with acute eye, throat,
and bronchial irritation;
exacerbation of asthma
and allergic responses;
and potential interference
with proper lung growth and
development in children.
3 www.epa.gov/ne/eco/
diesel/school buses.html
C(P CLEAN SCHOOL BUS
Clean School Bus USA is a national
partnership to reduce children's expo-
sure to diesel exhaust by eliminating
unnecessary school bus idling, install-
ing effective emission control systems
on newer buses and replacing the
oldest buses in the fleet with newer
ones. Its goal is to reduce both chil-
dren's exposure to diesel ex-
haust and the amount of air
pollution created by diesel
school buses.
3 www.epa.gov/
cleanschoolbus/
Air Quality Forecast
EPA works with local weather fore-
casters to provide a color-coded chart
that reports air quality levels in com-
munities across New England. This
the Air Quality Index, often seen
on local weather forecasts, helps the
public understand whether local air
quality and air pollution levels are good,
moderate, unhealthful—or worse.
3 www.epa.gov/ne/aqi
Oil Storage
Schools store fuel for heating buildings
and fueling school vehicles. Improper
handling and storage can threaten
groundwater, which is often a source
of drinking water, and other natu-
ral resources, and create public safety
hazards. Fuel must be handled in ways
that minimize the chance of a leak or
spill, and schools must be prepared to
respond if a leak or spill does occur. EPA
rules require facilities that store more
than 1,320 gallons of oil above ground
to have plans, called Spill Prevention
and Control Countermeasure plans, to
reduce the chance of a spill and spell out
response strategies. "Oil" is defined to
include gasoline, kerosene, diesel, lubri-
cants, waste oil, hydraulic oil and heating
oil. Facilities with oil stored below ground
may have to draft these plans as well, or
may fall under the scope of the federal
Underground Storage Tank regulations.
3 www.epa.gov/oust/pubs/index.htm
Even schools that do not fall within
the scope of federal regulations need
to take steps to prevent a spill and to
have a plan in case a spill occurs. Any
oil spill that reaches, or threatens to
reach a surface water must be report-
ed to the National Response Center at
(800) 424-8802.
3 www.epa.gov/oilspill/spcc.htm
8
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Air Quality I Levels of
Index (AQI) I Health
Values I Concern
Cautionary
Statements
for Ozone
Cautionary
Statements for
Particle Pollution
51-100
Moderate
Unusually sensitive
people should
consider reducing
prolonged or heavy
exertion outdoors.
Unhealthy
for Sensitive
Groups
Active children and adults,
and people with lung
disease, such as asthma,
should reduce
hrolonged or heavy
sxertion outdoors.
Active children and adults,
and people with lung
disease, such as asthma,
should avoid prolonged or
heavy exertion outdoors.
Everyone else, especially
children, should reduce
prolonged or heavy
Active children and adults,
and people with lung
disease, such as asthma,
should avoid all outdoor
exertion. Everyone else,
especially children, should
avoid prolonged or heavy
exertion outdoors.
Unusually sensitive
people should
consider reducing
prolonged or heavy
exertion.
People with heart
or lung disease,
older adults, and
children should
reduce prolonged
or heavy exertion.
People with heart or
lung disease, older adults,
and children should avoid
prolonged or heavy exer-
tion. Everyone else should
reduce prolonged
or heavy exertion.
People with heart or
lung disease, older adults,
and children should avoid
all physical activity outdoors.
Everyone else should avoid
prolonged or heavy
People with heart or lung
disease, older adults,
and children should
remain indoors and keep
The Air Quality
Index (AQI)
is a standardized
method of report-
ing air pollution. It
measures pollutant
concentrations in a
community's air to
a number on a scale
of Oto500.lt lets the
public determine
whether air pollu-
tion levels are good,
moderate, unhealth-
ful—or worse. It
is often seen on
weather broadcasts
on television.
else should avoid all
nysical activity outdoo
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staff, admin-
istration and students can overcome
inadequate facilities and perform at
a high level almost anywhere, but a
well-designed facility can enhance
performance and make learning more
fun. Creating a healthy and sustain-
able school facility is not difficult, but it
requires a "whole building" approach to
the design process.
Design, Construction
and Renovation
School districts will spend billions of
dollars in the next few years build-
ing and renovating schools to keep
up with a surging population and
new class-size limits. The designs of
these schools will help determine
the quality of the buildings, decades
of operational expenses and, most
importantly, the health and productiv-
ity of generations of students and staff.
The most sustainable and energy-
efficient designs will take advantage of
climate conditions, enhance the indoor
environment, conserve energy and use
renewable resources.They will also pro-
tect and conserve water, use materials
that come from sustainable resources,
minimize construction waste; and opti-
mize maintenance and operations.
3 www.epa.gov/ne/greenbuildings
3 www.epa.gov/greenbuilding
Energy Efficiency
America's primary and secondary
schools spend a staggering $6 billion a
year for energy — more than is spent
on textbooks and computers com-
bined. Schools can save as much as
30 percent on energy costs by using
energy-efficient technologies and mak-
ing sensible changes in operations and
maintenance. Wasted energy dollars-$1.5
billion nation-wide - can be redirected to
theschools'primarymission:education.
ENERGY STAR® for
K-12 School Districts
The ENERGY STAR For Schools program
links energy and financial performance
and protects the environment.Through
the ENERGY STAR program, EPA gives
school districts
technical support
and guidance on
financing. The
agency also rec-
ognizes schools
trying to use energy more efficiently. EPA
helps school administrators make deci-
sions that are good for their budgets and
the environment.
In New England,our K-12 schools spend
more than $500 million on energy.
EPA's Community Energy Challenge
helps local communities measure their
energy use and take steps to reduce
energy use in schools or other munici-
pal buildings. Every community can
save 10 percent, and those who achieve
this 10 percent will be recognized by
EPA's ENERGY STAR program.
3 www.epa.gov/region1/eco/
energy/energy-challenge.html
3 www.energystar.gov
Reuse, Recycling
and E-cycling
Reuse and recycling are a series of
approaches aimed at reducing the
amount of solid waste and other re-
sources we dispose of. Reuse includes
donating or finding a second life for
••ocl Co-op and tin-City off
' RECYCLING CENTERj
materials that may be considered
waste. Recycling includes collecting
recyclable materials that would oth-
erwise be considered waste, sorting
and processing recyclables into raw
materials such asfibers,and manufac-
turing raw materials into new prod-
ucts. School districts can reduce the
amount of waste they generate, and
start a waste reduction program or
expand an existing one. Safer alter-
natives may be chosen for hazardous
chemicals used in facility maintenance
or classrooms and shops. Schools also
can reduce the environmental impact
of electronics at the end of their useful
life through reuse and donation, recy-
cling, and buying greener electronic
products. Water can also be recycled
for watering plants and food waste
can be used for creating compost.
3 www.epa.gov/epaoswer/
education/toolkit-res.htm
3 www.epa.gov/ne/assistance/
reuse/index.html
3 www.epeat.net
Safety and
Preparedness
Like other public buildings, any school
at any time may face an emergency
that could threaten the health and safe-
ty of students and staff. Schools need
10
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to be ready for emergencies by prepar-
ing school buildings to withstand natu-
ral disasters and terrorism and planning
for facilities to shelter residents during
emergencies. Schools should have "safe
school"plans in place,and ways to evalu-
ate these plans.
Managing the
Many Environmental
Responsibilities of Schools
In New England, a handful of school
districts have used Environmental
Management Systems as a way to
identify, prioritize and manage envi-
ronmental responsibilities.
3 www.epa.gov/ne/ems/
projects.html
Assessing
Your School
EPA has also developed a
software tool to help school
districts assess the environ-
mental conditions at their
own facilities. The Healthy
School Environments As-
sessment Tool (HealthySEAT)
contains an environmental health
and safety checklist and is designed to
be easily customized to reflect state and
local requirements and policies.
HealthySEAT
Healthy School Environments Assessment Tool
3 www.epa.gov/schools/
healthyseat/index.html
Building Healthy Schools in New Hampshire
In New Hampshire, the Department of Environmental Services and EPA New
England joined forces in 2005 to custom fit the HealthySEAT program for the
state's needs. Once the software was customized, NHDES contacted NH school
district facilities managers to promote it as a valuable, free tool that would
help them manage environmental, health & safety concerns and requirements.
The state then trained interested facilities managers to use the program. NH
school facilities managers trained to use the program say their jobs are easier,
they save time, and the school environment is better as a result. A fact sheet
describing this project and NH software are posted on the NHDES Healthy
School Environments web site.
www.des.nh.gov/ard/ehp/hse/healthyseat.htm
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Twelve Ways to Make Your School Healthier
EPA's Indoor Air Quality Tools for
Schools program provides informa-
tion to help schools prevent and solve
indoor air quality problems.
Schools can reduce children's exposure
to diesel exhaust by eliminating unnec-
essary school bus idling, installing
effective emission control systems on
newer buses and replacing the oldest
buses with new ones.
3. Rid school buildings
of ra<
Schools should test the level of radon gas
in their buildings with a radon test kit. If
the test results are above healthy levels,
steps should be taken to reduce radon.
Schools should look for alternatives to
toxic pesticides and cleaning chemicals.
Products should only be used as direct-
ed, and stored in high locked cabinets
and in original containers. Remove the
sources of lead, mercury, asbestos and
PCBs from the school environment,
where possible.
School buildings built before 1978,
should be tested for lead paint.
Renovations or repairs should be done
in a way that does not create lead dust.
Children should be kept away from
lead hazards.
School environments should be
mercury-free. Schools should use digi-
tal thermometers and safer alterna-
tives to mercury in science curriculum,
nurses' offices, and within facilities
operations/maintenance.
Schools should practice"sunsafe behav-
ior" and encourage children to cover
up, use SPF 15 or higher sun screen,
and stay out of midday sun to avoid
damaging UVrays.
School districts should identify hazards,
evaluate safety planning and prepare
for emergencies.
Possible health, safety and environ-
mental implications should be consid-
ered before chemicals are purchased
for use in schools. Proper chemical use
and management (storage, labeling,
disposal) is critical for reducing chemi-
cal exposures and costly accidents.
School districts should know the quali-
ty of the drinking water in their schools
buildings, and should have it tested
regularly.
You can't do it alone. Ideally, you will
have the superintendent, facility man-
ager, business manager, school nurse,
principal, teachers and parents work-
ing with you.
You need to know what environmental
health issues are important so you can
evaluate your school and choose your
priorities.
12
12 wavs
to make
your school
healthier
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Additional Resources & Links
EPA New England
1 Congress Street, Suite 1100
Boston, MA 02114-2023
www.epa.gov/ne/
EPA New England's
Customer Call Center:
1-888-EPA-7341 (1-888-372-7341)
EPA New England Children's
Health website:
www.epa.gov/ne/children/
index.html
National Poison Control Hotline:
1-800-222-1222
(emergency) 202-362-8563
(TDD) 202-362-3867
National Pesticide Information
Center Hotline
1-800-858-7378 (PEST)
The Pediatric Environmental Health
Center at Children's Hospital:
1-888-CHILD14 (1-888-244-5314)
Maine School Environmental Guide*
www.main.gov/dep/mercury/
guide.pdf*
*\A/ot
Websites with an asteriskare not part
of EPA or the federal government, but
rather an external link. The link provides
additional information that may be useful
or interesting and relevant, but the EPA
cannot attest to the accuracy of informa-
tion provided by this link. Providing links to
a non-EPA Web site does not constitute an
endorsement by EPA oranyofits employees
of the sponsors of the site or the informa-
tion or products presented on the site.
National Service Center for
Environmental Publications:
1-800-490-9198
www.epa.gov/ncepi
Environmental Justice Hotline:
1-800-962-6215
email:
environmental-justice-epa@epa.gov
The Community Energy
Challenge:
www.epa.gov/region1/eco/
energy/energy-challenge.html
The New England Asthma
Regional Council*
www.asthmaregionalcouncil.org
additional
resources
& links
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www.epa.gov/ne/healthyschools
© printed on 100% recycled paper, with a minimum of 50% post-consumer waste, using vegetable-based inks
Un'ted States
Environmental Protection
Agency New England
EPA 901-K-08-001
January 2008
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