Authors
Paul R Paquin, Joseph W Gorsuch, Simon Apte, Graeme E Batley, Karl C Bowles, Peter GC Campbell, Charles G Delos, Dominic M Di Toro, Robert L Dwyer, Fernando Galvez, Robert W Gensemer, Gregory G Goss, Christer Hogstrand, Colin R Janssen, James C McGeer, Rami B Naddy, Richard C Playle, Robert C Santore, Uwe Schneider, William A Stubblefield, Chris M Wood, Kuen Benjamin Wu
Publication date
2002/9/1
Source
Comparative Biochemistry and Physiology Part C: Toxicology & Pharmacology
Volume
133
Issue
1-2
Pages
3-35
Publisher
Elsevier
Description
During recent years, the biotic ligand model (BLM) has been proposed as a tool to evaluate quantitatively the manner in which water chemistry affects the speciation and biological availability of metals in aquatic systems. This is an important consideration because it is the bioavailability and bioreactivity of metals that control their potential to cause adverse effects. The BLM approach has gained widespread interest amongst the scientific, regulated and regulatory communities because of its potential for use in developing water quality criteria (WQC) and in performing aquatic risk assessments for metals. Specifically, the BLM does this in a way that considers the important influences of site-specific water quality. This journal issue includes papers that describe recent advances with regard to the development of the BLM approach. Here, the current status of the BLM development effort is described in the context of the …
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Scholar articles
PR Paquin, JW Gorsuch, S Apte, GE Batley, KC Bowles… - Comparative Biochemistry and Physiology Part C …, 2002