NERL Research Abstract Review Article on Water Analysis Emerging Contaminants and Current Issues

NERL Research Abstract

EPA's National Exposure Research Laboratory

Review Article on Water Analysis: Emerging
Contaminants and Current Issues

Scientific Problem and This invited review for the journal Analytical Chemistry (June 2003) covers
Policy Issues developments from 2001-2002 in water analysis. The author (Dr. Richardson)

this year chose to narrow the focus of the review to new, emerging
contaminants and environmental issues that are driving most of the current
research. Numerous abstracts from the scientific literature were
consulted before choosing the most-representative ones to include for
this review. In addition to covering general reviews involving water
analysis and new regulations and regulatory methods that relate to water
analysis, Dr. Richardson also discusses new research on drinking water
disinfection by-products (DBPs); pharmaceuticals, hormones, and
endocrine disrupting compounds; chiral contaminants; methyl-fert-butyl
ether (MTBE); algal toxins; organotins; perchlorate; arsenic; natural
organic matter; and microorganisms.

Research DBPs: In addition to new regulations involving DBPs (e.g., the Stage 1

Approach an(j gtage 2 Disinfectants/DBP Rule), there are new, emerging issues

with DBPs. Human exposure research has revealed that ingestion is not
the only important route of exposure-inhalation from showering and
dermal adsorption (from bathing and other activities) can provide
similar or higher exposures to certain DBPs. In addition, DBPs beyond
those that are currently regulated are becoming important. Specific
DBPs that are of current interest include bromonitromethanes, iodo-
trihalomethanes, brominated forms of MX (MX is 3-chloro-4-
(dichloromethyl)-5-hydroxy-2(5H)-furanone), and
nitrosodimethylamine (NDMA). New research on DBPs is detailed in
this review, including new human exposure research, occurrence data
and analytical methods for toxicologically important DBPs, fate studies
on DBPs, formation mechanisms for NDMA, and the identification of
new DBPs.

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Pharmaceuticals, hormones, and endocrine disrupting compounds:

These compounds are becoming major issues in environmental
chemistry due to their presence in environmental waters (following
incomplete removal in wastewater treatment or point-source
contamination) and concern about possible estrogenic and other effects,
both to wildlife and humans. Pharmaceuticals that have been detected
directly or as their metabolites include antibiotics, analgesics and anti-
inflammatory drugs, lipid regulators, beta-blockers, antiepileptic drugs,
oral contraceptives, and steroids and hormones. Although their
environmental levels are generally very low (low ng/L), these levels
may be sufficient to induce estrogenic responses and cause reproductive
and developmental effects in wildlife. New research on
pharmaceuticals, hormones, and endocrine disrupting compounds is
detailed in this review, including occurrence and fate data on these
compounds in drinking water, surface waters, and wastewaters.

Chiral contaminants: It was not until recent developments allowed the
separation and low-level of detection of chiral isomers that their
environmental behavior could be studied. However, early research is
showing that the behavior of chiral compounds is not straightforward-it
is not always possible to predict the enantiospecific transformation.
New research on the occurrence and fate of chiral compounds
(including chiral pesticides), as well as new analytical methods for their
measurement, is detailed in this review.

Methyl-terf-butyl ether (MTBE): MTBE contamination is a concern,
due to its introduction into groundwater and surface waters through
leaking underground gasoline storage tanks and discharges of fuel from
boats and other watercraft. New occurrence information, analytical
methods for measuring MTBE, and technologies for removing it are
including in this review.

Algal toxins: Algal toxins have been responsible for increased
incidences of shellfish poisoning, large fish kills, deaths of livestock
and wildlife, and illness and death in humans. Methods for measuring
different algal toxins are presented, as well as occurrence information,
including new recent reports of the presence of algal toxins in finished
drinking water.

Organotins: Organotins are widely used in antifouling paints for ships
and have been measured widely in coastal waters and sediment. A
recent discovery that dibutyltin leaches from polyvinylchloride (PVC)
pipe at 1 |ig/L levels has created a new concern for drinking water.
New analytical methods developed for measuring organotins (including
a new EPA method) are presented, as well as new occurrence

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information on organotins in water.

Perchlorate: Perchlorate, a rocket fuel component, has recently
become an important environmental issue since its discovery in a
number of water supplies in the western United States. The
development of sensitive analytical techniques has revealed perchlorate
in surface waters and ground waters primarily in the southwestern
United States. New methods for measuring perchlorate, as well as
occurrence information and methods for removing perchlorate are
presented in this review.

Arsenic: Recent issues including the determination of individual
species of arsenic, rather than total arsenic, and new analytical methods
developed for measuring these species at low levels in water are
presented.

Natural Organic Matter: Natural organic matter (NOM) is a complex
mixture of substances, including humic acids, and impacts such
processes as the sorption or transformation/degradation of
environmental pollutants, provides sources and sinks for carbon, serves
as a carbon and energy source for biota, and controls levels of dissolved
oxygen, nitrogen, phosphorus, sulfur, trace metals, and acidity. Also,
importantly, NOM serves as the precursor material for the formation of
drinking water DBPs. New information provided by electrospray
ionization mass spectrometry is showing much lower molecular weights
for NOM (e.g., 300 to 1200 for humic acid) than earlier gel permeation
work (e.g., 100 to 100,000). These new results are presented in this
review, along with a discussion of the controversy these results have
created.

Microorganisms: New mass spectrometry methods (including matrix-
assisted laser desorption ionization mass spectrometry and electrospray
ionization mass spectrometry) are enabling the rapid identification of
bacteria and other microorganisms through the identification of marker
proteins. New mass spectrometry methods, as well as new biological
and biochemical methods are presented in this review.

Results and	The emerging contaminants discussed in this review are

Implications	environmentally important; some are already listed on EPA's

Contaminant Candidate List (CCL); others are the subject of intense
research and may be considered for regulation in the future.

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Research	Richardson, S. D. Water Analysis: Emerging Contaminants and

Collaboration	Current Issues, Analytical Chemistry, in press (2003).

and Publications

Future Research For some of the areas (e.g., pharmaceuticals), research needs and future

directions are discussed. The author is invited by Analytical Chemistry
to write this review every two years. A follow-up review on the next
two years of research is scheduled for 2005.

Questions and inquiries can be directed to:
Susan D. Richardson, Ph. D.
US EPA

960 College Station Rd.

Athens, GA 30605-2700

Contacts for
Additional Information

Phone: 706/355-8304

E-mail: richardson.susan@epa.gov

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