Hamilton, D. and Ambrus, A. and Dieterle, R. and Felsot, A. and Harris, C. and Petersen, B. and Racke, K. and Wong, S.S. and Gonzalez, R. and Tanaka, K. and Earl, M. and Roberts, G. and Bhula, R. (2004) Pesticide residues in food - acute dietary exposure. Pest Management Science, 60 (4). pp. 311-339.
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Article Link(s): http://dx.doi.org/10.1002/ps.865
Publisher URL: http://www3.interscience.wiley.com/cgi-bin/home
Consumer risk assessment is a crucial step in the regulatory approval of pesticide use on food crops. Recently, an additional hurdle has been added to the formal consumer risk assessment process with the introduction of short-term intake or exposure assessment and a comparable short-term toxicity reference, the acute reference dose.
Exposure to residues during one meal or over one day is important for short-term or acute intake. Exposure in the short term can be substantially higher than average because the consumption of a food on a single occasion can be very large compared with typical long-term or mean consumption and the food may have a much larger residue than average. Furthermore, the residue level in a single unit of a fruit or vegetable may be higher by a factor (defined as the variability factor, which we have shown to be typically ×3 for the 97.5th percentile unit) than the average residue in the lot. Available marketplace data and supervised residue trial data are examined in an investigation of the variability of residues in units of fruit and vegetables. A method is described for estimating the 97.5th percentile value from sets of unit residue data. Variability appears to be generally independent of the pesticide, the crop, crop unit size and the residue level.
The deposition of pesticide on the individual unit during application is probably the most significant factor. The diets used in the calculations ideally come from individual and household surveys with enough consumers of each specific food to determine large portion sizes. The diets should distinguish the different forms of a food consumed, eg canned, frozen or fresh, because the residue levels associated with the different forms may be quite different. Dietary intakes may be calculated by a deterministic method or a probabilistic method. In the deterministic method the intake is estimated with the assumptions of large portion consumption of a ‘high residue’ food (high residue in the sense that the pesticide was used at the highest recommended label rate, the crop was harvested at the smallest interval after treatment and the residue in the edible portion was the highest found in any of the supervised trials in line with these use conditions). The deterministic calculation also includes a variability factor for those foods consumed as units (eg apples, carrots) to allow for the elevated residue in some single units which may not be seen in composited samples. In the probabilistic method the distribution of dietary consumption and the distribution of possible residues are combined in repeated probabilistic calculations to yield a distribution of possible residue intakes. Additional information such as percentage commodity treated and combination of residues from multiple commodities may be incorporated into probabilistic calculations. The IUPAC Advisory Committee on Crop Protection Chemistry has made 11 recommendations relating to acute dietary exposure.
|Corporate Creators:||Biosecurity Queensland|
|Additional Information:||© Society of Chemical Industry.|
|Keywords:||Pesticide residues; consumer risk assessment; dietary exposure; probabilistic; deterministic; residue variability.|
|Subjects:||Science > Science (General)|
Plant culture > Food crops
Science > Statistics > Statistical data analysis
Plant pests and diseases > Pest control and treatment of diseases. Plant protection > Pesticides
|Deposited On:||09 Jul 2004|
|Last Modified:||19 Apr 2011 21:47|
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