EFSA is conducting pan‐European dietary exposure and risk assessments related to actual levels of pesticide residues in food commodities. These assessments use the pesticide occurrence data generated under the official monitoring programs of Member States, the consumption data from EFSA's comprehensive food consumption database and pesticide‐specific information such as processing factors. Currently no harmonised list of processing factors is available within Europe and worldwide. The overall objective of this project is to develop a database of validated processing factors, which is compatible with the EFSA food classification and description system FoodEx 2.
In the first part of the project, a compendium of representative processing techniques was elaborated which serves as a standard description of all relevant processes and as a basis for validation of processing studies. In the second part of the project all relevant processes and raw and processed commodities were coded according to FoodEx2. In the third and last part of the project all processing studies used by EFSA in their Conclusions and Reasoned Opinions issued until 30/06/2016 were re‐evaluated according to uniform quality criteria and reported in a database. The database is provided as a flat Excel spreadsheet. Information on processing conditions, on analytical methods, storage stability and GLP was collected from the studies and was used to judge the acceptability of each processing study. The representativeness of the processing conditions applied in the studies was judged by comparing them to the compendium of representative processing techniques. Processing factors (PF) were derived from the studies according to comprehensible calculation rules and based on the residue definitions for monitoring. The individual PF were judged for their acceptability. For each commodity/process/active substance combination a median PF was calculated from the individual ones, based on the trials from one or more studies. The database is a ready‐to‐use inventory of PF for pesticides in a variety of processed food items.
In a pilot project a second database was set up with processing factors based on the residue definition for dietary risk assessment. Extension of this database is recommended.
EFSA is conducting pan‐European dietary exposure and risk assessments related to actual levels of pesticide residues in food commodities. These assessments use the pesticide occurrence data generated under the official monitoring programs of Member States, the consumption data from EFSA's comprehensive food consumption database and pesticide‐specific information such as processing factors. Currently no harmonised list of processing factors is available within Europe and worldwide. The overall objective of this project is to develop a database of validated processing factors based on the residue definitions for enforcement, which is compatible with the EFSA food classification and description system FoodEx 2. In the first part of the project, a compendium of representative processing techniques is elaborated as a standard description of all relevant processes and basis for validation of processing studies.
The compendium of processing techniques is built upon a selection of representative and up‐to‐date processing studies submitted in the context of regulatory procedures for plant protection products. It covers the most important processes in food processing, both with respect to importance in consumption and production. Though not really considered as processing operations, peeling and pitting procedures are included in this compendium. For each process, a typical set of processing conditions is provided based on published literature and/or inquiry in the food processing industry. Detailed descriptions of processing conditions and yield factors for the processes are given. The processes are visualised in flowcharts. Processing studies are conducted on a very limited number of representative commodities. Extrapolation proposals are made based on the comparability of processing conditions, the plant anatomy and the plant part to be processed.
In 2017 and 2018, a field survey was initiated on Greek olive orchards to investigate the attractiveness of bait spray applications and the impact of cover and bait sprays applied against the olive fruit fly Bactrocera oleae (Diptera: Tephritidae), on the honeybee, Apis mellifera L. and bumblebees Bombus terrestris, by investigating the pesticides’ residual prevalence. Bee colonies were evenly distributed in three sites located on coastal areas of Western Crete and visited almost weekly between July and October. Samples collected, were analyzed using existing or developed-optimized liquid and gas chromatographic methods. In bee samples, concentrations varied from 0.0013 to 2.3 mg/kg for dimethoate, from 0.0013–0.059 mg/kg for its metabolite omethoate, and from 0.0035 to 0.63 mg/kg regarding the pyrethroids, β-cyfluthrin and λ-cyhalothrin. In one bee sample dimethoate concentration exceeded both acute oral and contact median lethal dose (LD50). Residue findings in bees, along with verified olive oil residues corroborated that those insecticides had been applied in the olive orchards and transferred to bees. The possibility of non-target effects of the bait sprays to the bees, as well as the impact of the contaminated olive to the bees are discussed.
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