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. . . Is being a specialist and a generalist
at the same time
Water comprises about 75 % of the earth's surface.
It plays a significant role in all of our day-to-day
lives. We drink it, enjoy it for recreation, and
use it as part of a manufacturing process. Water
is an integral part of every ecosystem and many
industrial processes. Water chemists study the
impact of water on other elements in the systems,
and how other elements in these systems affect
the quality of water. Water chemists also contribute
to the design and implementation of processes
and policies to manage these effects.
. . . Is about preserving the balance of ecosystems
Rick Webb, projects coordinator at the Shenandoah
Watershed Study, looks at the impact of acid deposition-or
acid rain-on Shenandoah National Park, the mountains
of West Virginia, and Central Appalachia. Because
of the park's proximity to relatively polluted
areas, it receives a high level of sulfate deposition-the
highest of all national parks. The project monitors
the conditions of 65 streams, sampling some of
them weekly and others four times a year. Based
on the data collected, Webb's group looks at trends,
interprets them, and tries to make projections
about the impact of acid rain. "One of the
questions our work raises is whether the Clean
Air Act Amendments are sufficient to protect some
of the country's wild regions."
. . . Mediates between science and government
policy
Asking questions is up to Webb; answering questions
is part of Ivan DeLoatch's job. As an environmental
scientist for the U.S. Environmental Protection
Agency (EPA), DeLoatch reviews and evaluates data
gathered by EPA and other sources and makes recommendations
for regulations and government policy. His focus
is primarily on the development of water regulations
mandated by the Safe Drinking Water Act.
DeLoatch spent eight years as a bench chemist.
He has also worked as a data review chemist for
a private environmental management company. "These
work experiences gave me the ability to incorporate
technical expertise into the environmental policy
arena," he says. He recommends that students
interested in this area take as many courses as
possible in environmental policy because having
knowledge of policy issues as well as technical
expertise is the key to success in this field.
. . . Has important practical applications
Isabelle Cozzarelli, a research hydrologist with
the Water Resources Division at the U.S. Geological
Survey, primarily studies groundwater that has
been contaminated by crude oil that leaks from
a pipeline when it bursts, or by gasoline when
it escapes from an underground tank. Other water
issues studied in her division include acid rain,
radioactive elements in groundwater, and the flow
of water in aquifers. "Much of the fundamental
research we do has important practical applications,"
Cozzarelli says.
Don Johnson is a research associate at Nalco,
a company that develops chemicals used in industrial
water treatment. One of his projects involved
developing a technology to prevent calcium phosphate
from forming on the inside of industrial cooling
towers. In many cases, calcium phosphate precipitates
out of the water and deposits on equipment, clogging
pipes and making an industrial process less efficient.
"As part of my research, I looked at some
published accounts of how organisms regulate the
generation of mineral deposits-how a clam forms
its shell, for example. Application of this knowledge
helped our team at Nalco develop a class of calcium
inhibitor chemistries that would be cost-effective
when applied to a real industrial problem,"
he says.
. . . Is about a variety of jobs
Water chemists undertake a variety of responsibilities.
Their titles vary as well-some of which are hydrologist,
hydrogeologist, hydrobiogeochemist, water purification
chemist, wastewater treatment plant chemist, surface
water chemist and groundwater chemist. The range
in titles reflects the interdisciplinary nature
of the field, and represents the wide range of
applications of the work and as well as the importance
of these roles in our daily lives. Water chemists
are both specialists and generalists-they use
their specific knowledge about water for applications
that affect whole ecosytems.
Copyright 1997 American Chemical Society
WORK DESCRIPTION
Water chemists generally work on interdisciplinary
teams that may include scientists with expertise
in soil culture, geology, aquatic biology, statistics,
forestry, hydrogeology, chemistry, mathematical
modeling, and data base management. The teams
study and monitor a given ecosystem or industrial
process; they discover the impact of water on
other elements of the system, and, conversely,
how these other elements affect the quality of
the water.
WORKING CONDITIONS
Most positions include fieldwork, though industrial
water chemists spend the majority of their time
in the lab. Work hours may be nine to five, but
can also extend in to the night and to weekends
if a project calls for it. The flexibility to
travel overseas is important in industry where
chemists also interact with business managers,
directing technical resources to meet the needs
of customers.
PLACE OF EMPLOYMENT
A substantial water treatment industry exists
because most manufacturing companies use water
as part of their production or cooling processes.
Both employ water chemists. An increasing number
of jobs in industry are opening up overseas, particularly
in Southeast Asia. Government positions for water
chemists include those at the U. S. Environmental
Protection Agency and the U.S. Geological Survey.
In academia, water chemists hold teaching positions
and jobs in research centers. Environmental management
firms also employ water chemists for consulting
and remediation projects.
PERSONAL CHARACTERISTICS
Water chemists often express a personal interest
in and a commitment to the environment that goes
beyond their scientific work. Chemists in industry
say they enjoy doing work that safeguards water
quality and that solves complex problems. Water
chemists often describe themselves as very practical
people with good analytical skills. They underscore
the importance of being objective scientists.
EDUCATION AND TRAINING
Because this field is highly interdisciplinary,
it is important to be conversant in a range of
disciplines including microbiology, geology, aqueous
geochemistry, geochemical kinetics, hydrogeology,
and microbial ecology, among many others. Lab
experience is vital and computer skills are necessary
for any position. Courses in environmental chemistry
will be helpful, particularly those that bring
you up to speed on current policy issues.
JOB OUTLOOK
Despite strong environmental consciousness and
concerns about water purity in the U.S., staff
reductions in industry have resulted in a very
competitive job market. Environmental consulting
firms may have more openings than other areas.
For those willing to live overseas, opportunities
exists in developing industrial countries that
need to build water treatment facilities. In academia,
jobs are equally competitive and scientists caution
that much of their time is spent seeking funding
to finance their work.
SALARY RANGE
Federal government salaries are covered by the
General Schedule (GS), a nationwide pay structure.
Starting salaries for BS chemists in the federal
government about $24,400. Starting salaries for
inexperienced BS chemists in state and local governments
are about the same. In industry, an inexperienced
chemist with a bachelor's degree starts at a somewhat
lower salary-about $23,000. Inexperienced doctorate
chemists in government start around the $36,000-per-year
range, while industry pays slightly more in the
mid $40,000-per-year range.
FOR MORE INFORMATION
American Water Works Association
6666 W. Quincy Avenue
Denver, Colorado 80235
(303) 794-7711
Water Environment Federation (formerly Water
Pollution Control Federation)
601 Wythe Street
Alexandria, Va. 22314
(703) 684-2400
WHAT YOU CAN DO NOW
Water chemists say the best preparation for this
field is to build a broad base of knowledge that
includes a solid foundation in one of the chemical
disciplines. Lab courses are equally important
because actual hands-on chemistry is one of the
best ways to prepare for work in this field. Environmental
science courses that build an understanding of
government policy issues are the key to success
when combined with technical expertise.
American Chemical Society, Education Division,
1155 Sixteenth Street, NW, Washington, DC 20036;
(202) 452-2113. Production of career material
was funded by the Alfred P. Sloan Foundation.
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