Cambridge Environmental Assessments, Cambridge, UK.
Corteva Agriscience, Production Agriscience Belgium BVBA, Brussels, Belgium.
Integr Environ Assess Manag. 2023 Nov;19(6):1544-1554. doi: 10.1002/ieam.4755. Epub 2023 Mar 29.
It is a regulatory requirement to assess co-formulants in plant protection products (PPP) under the European Registration, Evaluation, Authorisation and Restriction of Chemicals (REACH) legislation. The standard environmental exposure assessment framework for chemicals under REACH is a multicompartmental mass-balanced model and, at the local scale, is designed for use with urban (wide dispersive) or industrial (point source) emissions. However, the environmental release of co-formulants used in PPP is to agricultural soil and indirectly to waterbodies adjacent to a field and, for sprayed products, to the air. The Local Environment Tool (LET) has been developed to assess these specific emission pathways for co-formulants in a local-scale REACH exposure assessment, based on standard approaches and models used for PPP. As such, it closes a gap between the standard REACH exposure model's scope and REACH requirements to assess co-formulants in PPP. When combined with the output of the standard REACH exposure model, the LET includes an estimate of the contribution from other nonagricultural background sources of the same substance. The LET is an improvement over the use of higher tier PPP models for screening purposes because it provides a simple standardized exposure scenario. A set of predefined and conservatively selected inputs allows a REACH registrant to conduct an assessment without requiring detailed knowledge of PPP risk assessment methods or typical conditions of use. The benefit to the co-formulant downstream user (formulators) is a standardized and consistent approach to co-formulant assessment, with meaningful and readily interpretable conditions of use. The LET can serve as an example to other sectors of how to address possible gaps in the environmental exposure assessment by combining a customized local-scale exposure model with the standard REACH models. A detailed conceptual explanation of the LET model is provided here together with a discussion on its use in a regulatory context. Integr Environ Assess Manag 2023;19:1544-1554. © 2023 BASF SE, Bayer AG et al. Integrated Environmental Assessment and Management published by Wiley Periodicals LLC on behalf of Society of Environmental Toxicology & Chemistry (SETAC).
根据欧洲化学品注册、评估、授权和限制法规 (REACH),评估植保产品 (PPP) 中的共混物是法规要求。REACH 下用于化学品的标准环境暴露评估框架是一个多 compartment 质量平衡模型,在局部尺度上,用于城市 (广泛分散) 或工业 (点源) 排放。然而,PPP 中使用的共混物的环境释放是进入农业土壤,并间接进入邻近田地的水体,对于喷雾产品,则进入空气。为了在局部尺度 REACH 暴露评估中评估共混物的这些特定排放途径,已经开发了局部环境工具 (LET),它基于用于 PPP 的标准方法和模型。因此,它填补了标准 REACH 暴露模型的范围和 REACH 要求之间的空白,以评估 PPP 中的共混物。当与标准 REACH 暴露模型的输出相结合时,LET 包括来自同一物质的其他非农业背景源的贡献估计。LET 优于用于筛选目的的高级 PPP 模型,因为它提供了一个简单的标准化暴露情景。一组预定义和保守选择的输入允许 REACH 注册人进行评估,而无需详细了解 PPP 风险评估方法或典型使用条件。这为共混物下游用户 (配方师) 带来了好处,即采用标准化和一致的方法评估共混物,并具有有意义且易于解释的使用条件。LET 可以为其他部门如何通过将定制的局部尺度暴露模型与标准 REACH 模型相结合来解决环境暴露评估中的可能差距提供一个范例。本文提供了 LET 模型的详细概念解释,并讨论了其在监管背景下的使用。2023 年,《综合环境评估与管理》第 19 卷:1544-1554 页。版权所有 © 2023 巴斯夫公司、拜耳公司等。综合环境评估与管理由威利期刊公司代表环境毒理化学学会 (SETAC) 出版。