Case Study Part 1: How to Calculate Appropriate Deterministic Long-Term Toxicity to Exposure Ratios (TERs) for Birds and Mammals

In the European Union, first-tier assessment of the long-term risk to birds and mammals from pesticides is based on calculation of a deterministic long-term toxicity/exposure ratio (TERₗₜ). The ratio is developed from generic herbivores and insectivores and applied to all species. This paper describ...

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Bibliographic Details
Published in:Ecotoxicology (London) 2005-11, Vol.14 (8), p.877-893
Main Authors: SHORE, R.F, CROCKER, D.R, AKCAKAYA, H.R, BENNETT, R.S, CHAPMAN, P.F, CLOOK, M, CRANE, M, DEWHURST, I.C, EDWARDS, P.J, FAIRBROTHER, A, FERSON, S, FISCHER, D, HART, A.D.M, HOLMES, M, HOOPER, M.J, LAVINE, M, LEOPOLD, A, LUTTIK, R, MINEAU, P, MOORE, D.R.J, MORTENSON, S.R, NOBLE, D.G, O’CONNOR, R.J, ROELOFS, W, SIBLY, R.M, SMITH, G. C, SPENDIFF, M, SPRINGER, T. A, THOMPSON, H.M, TOPPING, C
Format: Article
Language:English
Subjects:
Animals
Aves
Birds
Case studies
Crops, Agricultural
Edible Grain
Environmental Exposure
Environmental Pollutants - toxicity
European Union
Herbivores
Insectivores
interspecific variation
Mammals
No-Observed-Adverse-Effect Level
Pesticides
Pesticides - toxicity
Poaceae
reproduction
Reproduction - drug effects
risk
Risk assessment
Risk Assessment - methods
risk assessment process
Risk reduction
Spraying
Time
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Summary:In the European Union, first-tier assessment of the long-term risk to birds and mammals from pesticides is based on calculation of a deterministic long-term toxicity/exposure ratio (TERₗₜ). The ratio is developed from generic herbivores and insectivores and applied to all species. This paper describes two case studies that implement proposed improvements to the way long-term risk is assessed. These refined methods require calculation of a TER for each of five identified phases of reproduction (phase-specific TERs) and use of adjusted No Observed Effect Levels (NOELs) to incorporate variation in species sensitivity to pesticides. They also involve progressive refinement of the exposure estimate so that it applies to particular species, rather than generic indicators, and relates spraying date to onset of reproduction. The effect of using these new methods on the assessment of risk is described. Each refinement did not necessarily alter the calculated TER value in a way that was either predictable or consistent across both case studies. However, use of adjusted NOELs always reduced TERs, and relating spraying date to onset of reproduction increased most phase-specific TERs. The case studies suggested that the current first-tier TERₗₜ assessment may underestimate risk in some circumstances and that phase-specific assessments can help identify appropriate risk-reduction measures. The way in which deterministic phase-specific assessments can currently be implemented to enhance first-tier assessment is outlined.
ISSN:0963-9292
1573-3017
DOI:10.1007/s10646-005-0034-4