Experimental determination of pesticide processing factors during extraction of seed oils

Experimental determination of pesticide processing factors during extraction of seed oils

Processing Factors (PFs) reflect the concentration or dilution of pesticide residues resulting from food processing. PFs are key elements to demonstrate the compliance of processed foods with Maximum residue levels (MRLs) as set by Regulation 396/2005. While efforts have been made by the European Fo...

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Bibliographic Details
Published in:Food additives & contaminants. Part A, Chemistry, analysis, control, exposure & risk assessment Vol. 37; no. 9; pp. 1491 - 1502
Main Authors: Lacoste, Florence, Carré, Patrick, Dauguet, Sylvie, Petisca, Catarina, Campos, Fernando, Ribera, Daniel, Roïz, Julie
Format: Journal Article
Language:English
Published: Abingdon Taylor & Francis 01-09-2020
Taylor & Francis Ltd
Subjects:
chlorpyrifos-methyl
Crude oil
deltamethrin
Dilution
Fats
Food processing
Food processing industry
Fungicides
Metalaxyl
metalaxyl-M
Oils & fats
Pesticide residues
Pesticides
pilot scale trials
pirimiphos-methyl
Processed foods
processing factors
procymidone
rapeseed oil
Raw materials
Reliability analysis
Reliability aspects
Residues
Solvent extraction
Vegetable oil
Vegetable oils
Vegetables
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Summary:Processing Factors (PFs) reflect the concentration or dilution of pesticide residues resulting from food processing. PFs are key elements to demonstrate the compliance of processed foods with Maximum residue levels (MRLs) as set by Regulation 396/2005. While efforts have been made by the European Food Safety Authority (EFSA) and by national authorities to compile PFs from processing studies, such PFs are not available for all pesticides/processed product combinations. The EU vegetable oil and proteinmeal industry association (FEDIOL) has therefore developed a theoretical approach to approximate MRLs in crude vegetable oils and fats, based on the partition coefficient (log P ow ) of the pesticides and on the oil content of the raw materials. To substantiate this approach, a pilot-scale processing study was initiated with rapeseeds spiked with selected pesticides and the experimental PFs for these pesticides determined. The aims of this study were (i) to study the reliability of pilot-scale conditions for PF determination and (ii) to assess the experimental PFs obtained in comparison to the theoretical PFs proposed by FEDIOL. This study demonstrated that production yields obtained for crude oil and meal in this processing study are similar to those in industrial processes even if differences were observed in the individual production steps (mechanical or solvent extraction steps). The experimental PFs obtained confirmed that the chosen fat-soluble pesticides did concentrate in the oil fraction. For metalaxyl-M having a log P ow lower than 3, a partitioning between the oil and the meal was observed, as expected. By comparing the experimental PFs and theoretical PFs, it can be concluded that the FEDIOL approach can be recommended as a suitable tool when PFs derived from specific processing studies are missing. Similar studies on pesticides with wider ranges of log P ow are required in order to complete our conclusions on default PFs for vegetable oils.
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ISSN:1944-0049
1944-0057
DOI:10.1080/19440049.2020.1778188