Relationship between physicochemical properties and maximum residue levels and tolerances of crop-protection products for crops set by the USA, European Union and Codex

Relationship between physicochemical properties and maximum residue levels and tolerances of crop-protection products for crops set by the USA, European Union and Codex

Residues on foodstuffs resulting from the use of crop-protection products are a function of many factors, e.g. environmental conditions, dissipation and application rate, some of which are linked to the physicochemical properties of the active ingredients. Residue limits (maximum residue levels (MRL...

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Bibliographic Details
Published in:Food additives and contaminants Vol. 23; no. 8; p. 764
Main Authors: Thorbek, P, Hyder, K
Format: Journal Article
Language:English
Published: England 01-08-2006
Subjects:
Crops, Agricultural - chemistry
Databases, Factual
Drug Industry
Environmental Exposure - adverse effects
European Union
Food Contamination - analysis
Fungicides, Industrial - chemistry
Herbicides - chemistry
Insecticides - chemistry
Maximum Allowable Concentration
Neural Networks (Computer)
Pesticide Residues - chemistry
Pesticide Residues - standards
United States
United States Environmental Protection Agency
United States
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Summary:Residues on foodstuffs resulting from the use of crop-protection products are a function of many factors, e.g. environmental conditions, dissipation and application rate, some of which are linked to the physicochemical properties of the active ingredients. Residue limits (maximum residue levels (MRLs) and tolerances) of fungicides, herbicides and insecticides set by different regulatory authorities are compared, and the relationship between physicochemical properties of the active ingredients and residue limits are explored. This was carried out using simple summary statistics and artificial neural networks. US tolerances tended to be higher than European Union MRLs. Generally, fungicides had the highest residue limits followed by insecticides and herbicides. Physicochemical properties (e.g. aromatic proportion, non-carbon proportion and water solubility) and crop type explained up to 50% of the variation in residue limits. This suggests that physicochemical properties of the active ingredients may control important aspects of the processes leading to residues.
ISSN:0265-203X
DOI:10.1080/02652030600643377