The current European legislation (e.g. REACH regulation) and advances in the field of ecotoxicology strongly suggest the reduction, refinement or replacement of animal tests, as well as exploring the advances in the current methods for the evaluation of toxicity. As a result there is clear necessity for researching new ways of applying the existing methods, as well as identifying ways to make more efficient use of the existing ecotoxicological datasets. In this scope and context, the poster presents a new methodology which intends to assist the optimization of existing methods, by providing a tool for assessing the relevance and reliability of ecotoxicological data for the definition of Species Sensitivity Distributions (SSDs), within the framework of ecological risk assessments (ERA). In order to estimate a single aggregated reliability score for a given ecotoxicological datum, a ‘Multi-Criteria Decision Analysis (MCDA)-based’ Weight of Evidence (WoE) methodology has been developed, including a hierarchical structure of 57 evaluation criteria, which was created based on the review of the state of the art frameworks for the assessment of ecotoxicological data. The methodology is able to integrate different types of inputs and incorporates the use of Fuzzy Logic operators for handling the inherent uncertainty, which appears in the form of unreported information as well as possible lack of knowledge of the experts. A panel of scientific experts on ecotoxicology was involved throughout the development of the methodology for identifying, if any, the relations between criteria and evaluating the hierarchical structure to be used in the aggregation process. The methodology is planned to be used and tested in case studies, as part of the evaluation and follow up process of the research project “AMORE” (Multi-Criteria Analysis for the Development of a Decision Support Tool for the prevention of Environmental Risks), funded by the National French Research Academy (ANR).

A Multi-Criteria Decision Analysis methodology for quantitatively scoring the relevance and reliability of ecotoxicological data

ISIGONIS, PANAGIOTIS;ZABEO, Alex;SEMENZIN, Elena;CRITTO, Andrea;MARCOMINI, Antonio
2013-01-01

Abstract

The current European legislation (e.g. REACH regulation) and advances in the field of ecotoxicology strongly suggest the reduction, refinement or replacement of animal tests, as well as exploring the advances in the current methods for the evaluation of toxicity. As a result there is clear necessity for researching new ways of applying the existing methods, as well as identifying ways to make more efficient use of the existing ecotoxicological datasets. In this scope and context, the poster presents a new methodology which intends to assist the optimization of existing methods, by providing a tool for assessing the relevance and reliability of ecotoxicological data for the definition of Species Sensitivity Distributions (SSDs), within the framework of ecological risk assessments (ERA). In order to estimate a single aggregated reliability score for a given ecotoxicological datum, a ‘Multi-Criteria Decision Analysis (MCDA)-based’ Weight of Evidence (WoE) methodology has been developed, including a hierarchical structure of 57 evaluation criteria, which was created based on the review of the state of the art frameworks for the assessment of ecotoxicological data. The methodology is able to integrate different types of inputs and incorporates the use of Fuzzy Logic operators for handling the inherent uncertainty, which appears in the form of unreported information as well as possible lack of knowledge of the experts. A panel of scientific experts on ecotoxicology was involved throughout the development of the methodology for identifying, if any, the relations between criteria and evaluating the hierarchical structure to be used in the aggregation process. The methodology is planned to be used and tested in case studies, as part of the evaluation and follow up process of the research project “AMORE” (Multi-Criteria Analysis for the Development of a Decision Support Tool for the prevention of Environmental Risks), funded by the National French Research Academy (ANR).
2013
SETAC Europe
File in questo prodotto:
Non ci sono file associati a questo prodotto.

I documenti in ARCA sono protetti da copyright e tutti i diritti sono riservati, salvo diversa indicazione.

Utilizza questo identificativo per citare o creare un link a questo documento: https://hdl.handle.net/10278/42962
Citazioni
  • ???jsp.display-item.citation.pmc??? ND
  • Scopus ND
  • ???jsp.display-item.citation.isi??? 8
social impact