Integr Envir Assess Manag – 2022 – Miglino – Applying weight of evidence methods to assessi
Applying weight of evidence methods to assessing exposure in aquatic environments: Comparing lines of evidence
by:
AN Miglino and CM Holmes
AN Miglino and CM Holmes
Summary:
Weight of evidence (WoE) is a useful approach to quantifying the relative relevance, strength, reliability, and uncertainty associated with estimates of exposure concentrations. WoE is often used in exposure assessments but rarely explored or discussed in detail. In this article, the utility of a WoE approach in aquatic exposure assessments is illustrated via two case studies using a tiered approach and the chemical triclosan. Each case study evaluates the same chemical and pathway to the environment but with substantially different data strength, reliability, and uncertainty. The collection and qualitative evaluation of relevant lines of evidence (LoE) using a three‐tiered approach are discussed. Our results demonstrate how a higher tiered WoE approach can reduce uncertainty and improve decision‐making based on predicted exposure concentrations. We also identify LoE that played a significant role in the final exposure determinations and describe a framework for conducting exposure assessments using WoE.
Weight of evidence (WoE) is a useful approach to quantifying the relative relevance, strength, reliability, and uncertainty associated with estimates of exposure concentrations. WoE is often used in exposure assessments but rarely explored or discussed in detail. In this article, the utility of a WoE approach in aquatic exposure assessments is illustrated via two case studies using a tiered approach and the chemical triclosan. Each case study evaluates the same chemical and pathway to the environment but with substantially different data strength, reliability, and uncertainty. The collection and qualitative evaluation of relevant lines of evidence (LoE) using a three‐tiered approach are discussed. Our results demonstrate how a higher tiered WoE approach can reduce uncertainty and improve decision‐making based on predicted exposure concentrations. We also identify LoE that played a significant role in the final exposure determinations and describe a framework for conducting exposure assessments using WoE.