Naturally Occurring Hazards: They Can Be "Hazardous" to Your Contractors
Pollution Liability Coverage
January 2007
For years, many of us have been discussing
the potential issues associated with naturally occurring environmental hazards
or substances such as silica, mercury, arsenic, pyrite, and probably the most
prevalent, asbestos. All these naturally occurring substances have hazardous
properties associated with them, so they are typically defined as pollutants
or hazardous substances.
by Jeff
Slivka
New
Day Underwriting Managers
In fact, nearly all are recognized as or contain toxic substances as defined
by the U.S. Environmental Protection Agency (EPA) and therefore present unusual
exposure to many property owners, developers, and contractors. The purpose of
this article is to bring attention to some of the various and more obscure naturally
occurring substances present in our environment that can expose organizations
to environmental liability and the potential problems they may cause with a
construction firm's contractors pollution liability (CPL) coverage.
It's There, We Just Don't See It
Even though they can wreak havoc with any entity owning, developing, or building
on real estate, we often are unaware of how exposed we may be to the different
naturally occurring minerals and substances found in our environment: mercury,
arsenic, asbestos, radon, and so forth. Most of these substances are discovered
during development or construction. It is only then that we realize the potential
catastrophic impact on an organization or community as a result of disturbing
such substances.
Naturally occurring asbestos has seen the most recent media exposure in the
past year. One article tells of an El Dorado County, California, family that
built its dream home near a vein of tremolite—a mineral containing naturally
occurring asbestos. The thought of raising a family near such a carcinogenic
hazard squashed whatever dreams family may have had, and they simply walked
away from the property. Little is said in the article about any potential liability
tied to the actual sale or construction of the home; nonetheless, it made a
significant impact in the lives of those involved.
Another press article tells of a general contractor in Virginia who was building
a "box store." The excavation subcontractor removed material from the job site
and used the material as fill at three other sites. It just so happened that
the material they removed was soil containing remnants of an asbestos-containing
mineral called Actinolite.
The Stuff To Be Aware of
A few of the more obscure substances/minerals that can be labeled hazardous
are discussed below. As you can see, each region of the country produces its
own unique environmental hazard. For construction firms, the biggest exposure
is disturbance of this material through excavation, street/road construction,
and any other intrusive type work.
Mercury
Mercury is present in the environment as a result of both natural processes
and human activities. Natural sources of mercury include volcanoes, hot springs,
and natural mercury deposits. Sources related to human activities include coal
combustion, waste incineration, certain industrial activities, and some mining
activities. Although mercury is only a trace constituent of the fossil fuels
we burn, these processes alone result in the release of approximately 48 tons
of the toxin into the atmosphere in the United States each year. Natural sources
of mercury, like the ones mentioned above, release three times that amount on
an annual basis.
According to the EPA, mercury is a human neurotoxin. Developing fetuses and
small children are at greatest risk from exposure. The principal route of human
exposure is through consumption of mercury-contaminated fish. When mercury enters
an aquatic environment, it may encounter conditions that cause its conversion
to methyl mercury. Methyl mercury is taken up by aquatic organisms and tends
to concentrate as it moves up the food chain. This process is referred to as
biomagnifications (from bacteria to fish-eating fish) and can result in high
mercury concentrations in predatory fish such as striped bass and sharks, and
in fish-eating birds and mammals.
In California, environmental mercury issues are primarily related to historical
mining operations that had occurred up until the early 1980s. During this time
it is estimated that nearly 100 million kilograms of mercury were produced within
the state and large quantities of mercury were distributed into the environment.
Cinnabar is a naturally occurring mercury sulfide found in and around Santa
Clara County. It was the main ore of mercury mined by many of the California
mining companies for the past 150 years. Cinnabar is generally found in a massive,
granular, or earthy form, and is bright scarlet to brick-red in color. Sometimes
mistaken for weathered brick from construction activities, cinnabar is more
crystal-like.
Pyrite
Pyrite or iron sulfide or "Fool's Gold," FeS2 for true geologists, is one
of the most common sulfide minerals. Because of its rather high sulfur content,
when exposed to the atmosphere (oxygen) or water, pyrite forms sulfuric acid.
The most notable operations that create such an environment are mining operations—resulting
in what we have all heard before as acid mine drainage.
There have also been a number of instances where acid drainage was created
as a result of construction activities. One in particular occurred in Pennsylvania
in 2004—the official name was the PA 26 Relocation Project, also known as I-99.
It was a $195 million project connecting to other expressways in central Pennsylvania,
a 1.4 mile stretch. In February of 2004, construction came to a stop when contractors
exposed substantial amounts of pyrite, causing uncharacteristically high amounts
of acid drainage into the surrounding area. The acid drainage ended up contaminating
several streams and potable water wells of residents in the area. The environmental
impact statement apparently missed this geologic formation.
The project was and is still shut down. In September 2006, the Pennsylvania
Department of Environmental Protection (PA DEP) approved remedial plans to address
the problem, and the work has recently begun to remove a majority of the pyrite
material at a cost of approximately $26 million. The remaining material will
be covered with an engineered, impermeable material to prevent exposure to rainwater
and oxygen. Once remediation is complete, construction is expected to resume
on I-99.
Most notable presence of pyrite is in the Northeast United States, Illinois,
and Missouri. There may be other pyrite varieties or other sulfide containing
minerals (consider those areas that are heavily mined for coal) that can produce
the same effects in other parts of the country.
Asbestos
Naturally occurring asbestos (NOA) is much more prevalent in the United States
than once thought. NOA is found in the various minerals that produce the carcinogenic
fibers like chrysotile, crocidolite, amosite, anthophyllite, tremolite, actinolite,
and serpentinite. Undisturbed, these minerals can have little to no impact on
the environment and human health; however, weathering, mining, and real estate
development/construction emit asbestos fibers into the atmosphere, exposing
the workforce and communities to unknown respiratory hazards. As we should all
know by now, asbestos causes cancer of the lungs and of the lining of internal
organs. In addition, asbestosis and mesothelioma are other asbestos-related
diseases that inhibit lung function.
Similar to the last two hazards, NOA can become an issue for virtually any
construction firms performing intrusive-type operations. According to the U.S.
Geological Survey, 27 of the 50 states contain some form of NOA containing minerals.
NOA can be found in various mineral deposits in the East, from Maine to Alabama,
and in the West, predominantly in California. Apparently, San Benito and Fresno
Counties in California are located on one of the largest naturally occurring
asbestos deposits in the world. Popular to motorcyclists and other off-road
vehicles, this area is underlain by a 30,000-acre serpentine deposit. Serpentine
just happens to be the state rock of California.
Silica
When we refer to "silica," we are usually referring mostly to the crystalline
form otherwise known as silicon dioxide (SiO2). There are other, noncrystalline
forms of silica, but since most of the issues are centered on the inhalation
of the crystalline form, we'll focus on that form.
There are three major forms of crystalline silica that are most common in
the workplace: quartz, tridymite, and crystobailite. The most common we can
probably all relate to is quartz. Quartz can be found in virtually all soil
in nearly every part of the country. The "rock" sandstone is composed of quartz
and can be found in many areas throughout the country except for southern coastal
areas where most beaches are made up of limestone.
Tridymite and crystobalite are simply polymorphs of quartz. In other words,
they are composed of the same elements but have different chemical structures.
An easy example to help understand what is meant by polymorph would be tridymite.
Tridymite, while somewhat rare, can be found in many volcanic rocks. In this
example, the heat associated with volcanoes acts as the catalyst that "morphs"
or changes the chemical structure of the quartz into rocks containing tridymite.
Crystobalite is not too different than tridymite. To put this into some type
of context and to bring some vision to this issue, consider the eruption of
Mount St. Helens back in the 1980s. Those people that may have been exposed
to silica and contracted silica-related respiratory injuries would most likely
have been inhaling tridymite or crystobalite in the dust after the explosions.
Those people in and around the collapse of the World Trade Centers in 2001 would
mostly be inhaling quartz coming from the concrete dust. The point is simple.
Although all are different in chemical structure, all forms of crystalline silica
can eventually be deadly.
When it comes to identifying or locating silica, it's simple. It's everywhere!
Arsenic
Arsenic, or As, is a naturally occurring element found throughout the earth's
crust. Due to weathering, volcanic eruption, mining, smelting operations, agriculture
and real estate development/construction activities, it is believed that all
soil contains some amount or level of arsenic. As a result, everyone is exposed
to some level of As. According to the EPA, arsenic has been linked to cancer
of the bladder, lungs, skin, kidney, nasal passages, liver, and prostate. In
addition, non-cancer effects can include thickening and discoloration of the
skin, stomach pain, nausea, vomiting, diarrhea, numbness in hands and feet,
partial paralysis, and blindness. Although not used in residential construction
(still used in industrial) anymore, arsenic's most widely use was as a preservative
in pressured treated lumber—the copper chromated arsenic (CCA) process.
Naturally occurring arsenic has been found in the ground water of almost
every aquifer of Wisconsin. Of the water wells drawing from these aquifers,
water sample results indicate about 3.5 percent of these wells have concentrations
exceeding the current public drinking water standard of 50 ppb. Concentrations
detected in several existing wells in this region are in the thousands of ppb
and represent some of the highest found naturally occurring in the world.
According to the Geological Society of America (GSA) elevated levels of As
have also been found in Massachusetts, Michigan, New Hampshire, Rhode Island,
Maine, and some western states.
Implication in Contractors Pollution Liability Coverage
When looking for financing alternatives for environmental loss, many organizations
now move in the direction of environmental liability insurance. It has become
less expensive, broader in scope, and easier to secure than a few years ago.
While this is a sound alternative, there are a number of pitfalls that one may
encounter when securing such insurance, regardless of whether it is obvious
or not. One of the most common pitfalls is exclusionary wording for naturally
occurring substances, like the materials identified above. This makes a complex
issue even more complex.
Specifically addressing the contractors pollution liability (CPL) marketplace
(from environmental or remediation contractors to general and specialty trades/subcontractors),
there are several ways exposure to naturally occurring hazards may be excluded.
Some are fairly recognizable as straightforward exclusions. Others are more
cryptic—coming in the definition of pollutants or pollution conditions. For
example, one insurer applies a specific exclusion for naturally occurring substances
in the exclusions section of the policy that can have significant impact on
coverage:
- This insurance does not apply to claims or losses based upon or arising
out of any naturally occurring substances in their original location and
unaltered form, or altered solely through naturally occurring processes
or phenomena.
Another insurer will exclude by definition. In its definition of pollution
conditions, the definition does not include naturally occurring substances,
therefore negating coverage for such exposure:
- Pollution Conditions means the emission, discharge, dispersal, release
or escape of pollutants, provided such are not naturally occurring. The
entirety of any such emission, discharge, release or escape or any series
of continuous, repeated, or related emissions, discharges, releases or escapes
shall be deemed to be one pollution condition.
Even though the underwriters may describe their intent is to cover such claims,
either way, such exclusions can have a tremendous impact on coverage when the
claims attorney gets a hold of the policy. And, of course, intent is never provided
in writing.
Conclusion
Buying a CPL policy is a very sound alternative for financing environmental
loss; however, if you don't know the pitfalls of such policies (they are manuscript
and there are about 75 different CPL forms offered by about 20 different companies),
you can be putting your organization at risk—even as you are trying to protect
it. This is more significant for those firms performing intrusion type work
and/or subcontract to other companies that perform intrusive type work, and
triple to those performing such operations in the areas identified above.
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