Selection of Scenarios for Exposure of Soil Organisms to Plant Protection Products

Abstract European scenarios for exposure of soil organisms to plant protection products are currently not available. As part of the revision of the Guidance Document on Persistence in Soil (9188/VI/97 rev 8 published in 2000), the PPR‐panel was therefore asked to start the development of tiered expo...

Full description

Bibliographic Details
Main Author: European Food Safety Authority
Format: Article
Language:English
Published: Wiley 2010-06-01
Series:EFSA Journal
Subjects:
Online Access:https://doi.org/10.2903/j.efsa.2010.1642
id doaj-38b7be4363094e00a9ad80ef1fb118af
record_format Article
spelling doaj-38b7be4363094e00a9ad80ef1fb118af2021-05-02T19:24:31ZengWileyEFSA Journal1831-47322010-06-0186n/an/a10.2903/j.efsa.2010.1642Selection of Scenarios for Exposure of Soil Organisms to Plant Protection ProductsEuropean Food Safety AuthorityAbstract European scenarios for exposure of soil organisms to plant protection products are currently not available. As part of the revision of the Guidance Document on Persistence in Soil (9188/VI/97 rev 8 published in 2000), the PPR‐panel was therefore asked to start the development of tiered exposure‐assessment approaches for soil organisms in which European exposure scenarios play an important role. This report contributes to this revision by developing a systematic approach to the selection of realistic worst‐case scenarios for exposure of soil organisms. Realistic worst‐case conditions are defined as the 90th spatial percentile of the exposure concentration (the maximum over time) in the intended area of use in each of three regulatory zones defined in Council regulation (EC) 1107/2009. Separate scenarios were developed for the concentration in total soil (mg kg ‐1) and for the concentration in the liquid phase (mg l‐1), giving six scenarios to be developed. The scenario selection began with the compilation of a coherent database. Then, a simplified model was selected to generate maps of the concentration in total soil and the concentration in the liquid phase over the entire area of annual crops in the three zones. In the subsequent two steps, procedures were applied to account for parameter uncertainty and scenario uncertainty (i.e. the likelihood that a scenario that is derived for one substance is not conservative enough for another). In the final step, the six scenarios were selected by defining their air temperature, soil organic matter content and their soil textural class. The concentration in total soil was shown to decrease in the order North>Central>South, whereas the concentration in the liquid phase showed an opposing trend with the highest concentration in the Southern European scenario. The scenario development was based on the total area of annual crops in the EU‐27, but the endpoint of the exposure assessment is the 90th percentile of the intended use area. The scenarios may therefore not be conservative enough. To ensure that the selected scenarios are sufficiently conservative, safety factors were derived.https://doi.org/10.2903/j.efsa.2010.1642Exposure assessmentexposure scenariosscenario developmentsoilparameter uncertaintyscenario uncertainty
collection DOAJ
language English
format Article
sources DOAJ
author European Food Safety Authority
spellingShingle European Food Safety Authority
Selection of Scenarios for Exposure of Soil Organisms to Plant Protection Products
EFSA Journal
Exposure assessment
exposure scenarios
scenario development
soil
parameter uncertainty
scenario uncertainty
author_facet European Food Safety Authority
author_sort European Food Safety Authority
title Selection of Scenarios for Exposure of Soil Organisms to Plant Protection Products
title_short Selection of Scenarios for Exposure of Soil Organisms to Plant Protection Products
title_full Selection of Scenarios for Exposure of Soil Organisms to Plant Protection Products
title_fullStr Selection of Scenarios for Exposure of Soil Organisms to Plant Protection Products
title_full_unstemmed Selection of Scenarios for Exposure of Soil Organisms to Plant Protection Products
title_sort selection of scenarios for exposure of soil organisms to plant protection products
publisher Wiley
series EFSA Journal
issn 1831-4732
publishDate 2010-06-01
description Abstract European scenarios for exposure of soil organisms to plant protection products are currently not available. As part of the revision of the Guidance Document on Persistence in Soil (9188/VI/97 rev 8 published in 2000), the PPR‐panel was therefore asked to start the development of tiered exposure‐assessment approaches for soil organisms in which European exposure scenarios play an important role. This report contributes to this revision by developing a systematic approach to the selection of realistic worst‐case scenarios for exposure of soil organisms. Realistic worst‐case conditions are defined as the 90th spatial percentile of the exposure concentration (the maximum over time) in the intended area of use in each of three regulatory zones defined in Council regulation (EC) 1107/2009. Separate scenarios were developed for the concentration in total soil (mg kg ‐1) and for the concentration in the liquid phase (mg l‐1), giving six scenarios to be developed. The scenario selection began with the compilation of a coherent database. Then, a simplified model was selected to generate maps of the concentration in total soil and the concentration in the liquid phase over the entire area of annual crops in the three zones. In the subsequent two steps, procedures were applied to account for parameter uncertainty and scenario uncertainty (i.e. the likelihood that a scenario that is derived for one substance is not conservative enough for another). In the final step, the six scenarios were selected by defining their air temperature, soil organic matter content and their soil textural class. The concentration in total soil was shown to decrease in the order North>Central>South, whereas the concentration in the liquid phase showed an opposing trend with the highest concentration in the Southern European scenario. The scenario development was based on the total area of annual crops in the EU‐27, but the endpoint of the exposure assessment is the 90th percentile of the intended use area. The scenarios may therefore not be conservative enough. To ensure that the selected scenarios are sufficiently conservative, safety factors were derived.
topic Exposure assessment
exposure scenarios
scenario development
soil
parameter uncertainty
scenario uncertainty
url https://doi.org/10.2903/j.efsa.2010.1642
work_keys_str_mv AT europeanfoodsafetyauthority selectionofscenariosforexposureofsoilorganismstoplantprotectionproducts
_version_ 1721488401284202496