Ra. Efroymson et Dl. Murphy, Ecological risk assessment of multimedia hazardous air pollutants: estimating exposure and effects, SCI TOTAL E, 274(1-3), 2001, pp. 219-230
Hazardous air pollutants, some of which have the potential far multimedia d
istribution, raise several hurdles for ecological risk assessment including
: (1) the development of an adequate transport, fate and exposure model; an
d (2) the selection of exposure-response models that can accommodate multip
le exposure routes for ecological receptors. To address the first issue, th
e EPA Office of Air Quality Planning and Standards has developed TRIM.FaTE,
a mass-balance, fate, transport, and ecological exposure model that is a c
omponent of the Total Risk Integrated Methodology (TRIM) for air pollutants
. In addition to abiotic transfers and transformations, TRIM.FaTE estimates
the uptake of a chemical by terrestrial and aquatic organisms with time. M
easures of exposure that TRIM.FaTE can provide include: (1) body burdens or
tissue concentrations; (2) doses averaged over any time period; or (3) con
centrations of chemicals in abiotic media. The model provides the user with
the flexibility to choose the exposure-response thresholds or dose-respons
e relationships that are best suited to data availability, routes of exposu
re, and the mechanism of toxicity of the chemical to an ecological receptor
. One of the challenges of incorporating TRIM.FaTE into a risk assessment m
ethodology lies in defining a streamlined model simulation scenario for ini
tial screening-level risk assessments. These assessments may encompass mult
iple facilities that emit a variety of pollutants near diverse ecosystems.
The information on ecological risk assessment methodology that is described
is applicable to the EPA Residual Risk Program with emphasis on multimedia
pollutants and the role of TRIM.FaTE. (C) 2001 Elsevier Science B.V. All r
ights reserved.