Environmental Risk Assessment of Ivermectin: A Case Study

Overview

Journal Integr Environ Assess Manag

Publisher Oxford University Press

Date 2010 Sep 8

PMID 20821718

Citations 30

Authors

Markus Liebig

Alvaro Alonso Fernandez

Elke Blubaum-Gronau

Alistair Boxall

Marvin Brinke

Gregoria Carbonell

Philipp Egeler

Kathrin Fenner

Carlos Fernandez

Guido Fink

Jeanne Garric

Bent Halling-Sorensen

Thomas Knacker

Kristine A Krogh

Anette Kuster

Dirk Loffler

Miguel Angel Porcel Cots

Louise Pope

Carsten Prasse

Jorg Rombke

Ines Ronnefahrt

Manuel K Schneider

Natascha Schweitzer

Jose V Tarazona

Thomas A Ternes

Walter Traunspurger

Anne Wehrhan

Karen Duis

Affiliations

Soon will be listed here.

Abstract

The veterinary parasiticide ivermectin was selected as a case study compound within the project ERAPharm (Environmental Risk Assessment of Pharmaceuticals). Based on experimental data generated within ERAPharm and additional literature data, an environmental risk assessment (ERA) was performed mainly according to international and European guidelines. For the environmental compartments surface water, sediment, and dung, a risk was indicated at all levels of the tiered assessment approach. Only for soil was no risk indicated after the lower tier assessment. However, the use of effects data from additional 2-species and multispecies studies resulted in a risk indication for collembolans. Although previously performed ERAs for ivermectin revealed no concern for the aquatic compartment, and transient effects on dung-insect populations were not considered as relevant, the present ERA clearly demonstrates unacceptable risks for all investigated environmental compartments and hence suggests the necessity of reassessing ivermectin-containing products. Based on this case study, several gaps in the existing guidelines for ERA of pharmaceuticals were shown and improvements have been suggested. The action limit at the start of the ERA, for example, is not protective for substances such as ivermectin when used on intensively reared animals. Furthermore, initial predicted environmental concentrations (PECs) of ivermectin in soil were estimated to be lower than refined PECs, indicating that the currently used tiered approach for exposure assessment is not appropriate for substances with potential for accumulation in soil. In addition, guidance is lacking for the assessment of effects at higher tiers of the ERA, e.g., for field studies or a tiered effects assessment in the dung compartment.

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