Ecotoxicological soil risk assessment under the new soil exposure framework - an impact assessment.

IF 1.4 4区农林科学 Q4 ENVIRONMENTAL SCIENCES Journal of Environmental Science and Health Part B-pesticides Food Contaminants and Agricultural Wastes Pub Date : 2024-01-01 Epub Date: 2024-02-29 DOI:10.1080/03601234.2024.2319005

Agnes Schimera, Sebastian Multsch, Olga I Guevara Montemayor, Philip Branford, Melanie Bottoms, Sian Ellis, Gregor Ernst, Stefania Loutseti, Michael T Marx, David Patterson, Amanda Sharples, Frank Staab, Bernhard Gottesbueren

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Abstract

For the European risk assessment (RA) for soil organisms exposed to plant protection products (PPPs) endpoints from ecotoxicological laboratory studies are compared with predicted environmental concentrations in soil (PEC_SOIL) at first tier. A safety margin must be met; otherwise, a higher tier RA is triggered (usually soil organism field studies). A new tiered exposure modeling guidance was published by EFSA to determine PEC_SOIL. This work investigates its potential impact on future soil RA. PEC_SOIL values for >50 active substances and metabolites were calculated and compared with the respective endpoints for soil organisms to calculate the RA failure rate. Compared to the current (FOCUS) exposure modeling, PEC_SOIL values for all EU regulatory zones considerably increased, e.g., resulting in active substance RA failure rates of 67%, 58% and 36% for modeling Tier-1, Tier-2 and Tier-3A, respectively. The main driving factors for elevated PEC_SOIL were soil bulk density, crop interception and wash-off, next to obligatory modeling and scenario adjustment factors. Spatial PEC_SOIL scenario selection procedures result in agronomically atypical soil characteristics (e.g., soil bulk density values in Tier-3A scenarios far below typical European agricultural areas). Consequently, exposure modeling and ecotoxicological study characteristics are inconsistent, which hinders scientifically reasonable comparison of both in the RA.

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新土壤暴露框架下的生态毒理学土壤风险评估--影响评估。

欧洲对接触植物保护产品（PPPs）的土壤生物进行风险评估（RA）时，会将生态毒理学实验室研究的终点与土壤中的预测环境浓度（PECSOIL）进行第一级比较。必须满足安全系数，否则将触发更高级别的 RA（通常是土壤生物实地研究）。欧洲食品安全局发布了新的分级暴露建模指南，以确定 PECSOIL。这项工作研究了其对未来土壤 RA 的潜在影响。计算了 >50 种活性物质和代谢物的 PECSOIL 值，并将其与相应的土壤生物终点进行比较，以计算 RA 失败率。与当前的（FOCUS）暴露建模相比，所有欧盟监管区的 PECSOIL 值都大幅增加，例如，导致一级、二级和三级 A 建模的活性物质 RA 失败率分别为 67%、58% 和 36%。PECSOIL 升高的主要驱动因素是土壤容重、作物截流和冲刷，其次是强制性建模和情景调整因素。空间 PECSOIL 情景选择程序会导致非典型土壤特征（例如，Tier-3A 情景中的土壤容重值远远低于典型的欧洲农业区）。因此，暴露建模和生态毒理学研究的特征并不一致，这妨碍了在 RA 中对两者进行科学合理的比较。

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来源期刊

Journal of Environmental Science and Health Part B-pesticides Food Contaminants and Agricultural Wastes 环境科学-公共卫生、环境卫生与职业卫生

CiteScore

4.00

自引率

5.00%

发文量

审稿时长

1 months

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