Predicting the Site-Specific Bioavailability of Zinc Using the Indicator Species Procedure: A Case Study

National Water Quality Criteria intended to protect aquatic life and their uses from the adverse effects of pollutants may not be appropriate due to site-specific factors that alter chemical bioavailability. The Indicator Species Procedure may be used to derive site-specific criteria in order to acc...

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Bibliographic Details
Main Author: Parkerton, Thomas F.
Other Authors: Dickson, Kenneth L.
Format: Others
Language:English
Published: North Texas State University 1987
Subjects:
Online Access:https://digital.library.unt.edu/ark:/67531/metadc500630/
Description
Summary:National Water Quality Criteria intended to protect aquatic life and their uses from the adverse effects of pollutants may not be appropriate due to site-specific factors that alter chemical bioavailability. The Indicator Species Procedure may be used to derive site-specific criteria in order to account for differences in site-specific bioavailability. This procedure was implemented using zinc for three chemically different site (river) waters. The purpose of this study was to quantify the bioavailability of zinc in each site water and correlate results to water quality parameters and/or zinc speciation. Results demonstrated that national criteria for zinc accurately predicted the experimentally derived site-specific values within a factor of two when adjusted for water hardness. Particulate forms of zinc were shown to be biologically unavailable under conditions tested.