Honey bee larval toxicity study designs: Applicability of the current study protocols and endpoints as a predictor of pesticide hazard for pollinators

IF 3 4区环境科学与生态学 Q2 ENVIRONMENTAL SCIENCES Integrated Environmental Assessment and Management Pub Date : 2024-08-07 DOI:10.1002/ieam.4982

Daiana A. De Souza, Max Feken, Hudson V. V. Tomé, Daniel R. Schmehl

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Abstract

The assessment of pesticide risks to bees in North America currently relies in part on Tier 1 honey bee laboratory toxicity studies to support the registration and registration review processes for crop protection chemicals. For immature stages, the studies follow two standardized test designs recommended by the Organization for Economic Cooperation (OECD), evaluating acute (seven-day single-dose, TG OECD 237) and chronic (22-day repeated-dose, GD OECD 239) toxicity in bee larvae. In this article, we aim to evaluate the current approach for generating and interpreting honey bee larval toxicity data, enhancing pesticide risk assessment for pollinators. First, by considering that the repeated-dose larval study covers all stages of honey bee brood development up to adult emergence, we compared endpoints (larval LD/ED50 and LC/EC50 values) from seven-day acute exposure studies with the 22-day chronic exposure studies. Our goal was to identify the study design offering greater sensitivity in assessing pesticide toxicity to immature bees. Our second objective involved analyzing available weight data from emerged adults and comparing it to survival endpoints (e.g., NOEL and LD50) to determine if the weight after adult emergence would accurately represent a sensitive indicator of pesticide effects on developing honey bees. Our analysis determined that the use of a single 22-day chronic exposure study adequately covers all immature stages and that the toxicity values based on cumulative dose are more accurate and representative measures of exposure for immature bees than using endpoints based on estimated daily doses. Furthermore, our analysis suggests that measuring the weight of emerged adults was a more sensitive indicator than mortality of treatment-related effects in 22% of the compounds included in our analysis. Here we also discuss the importance of standardized protocols for proper collection of weight after emergence and the need for further discussion on the relevance of this parameter at risk assessment scheme. Integr Environ Assess Manag 2024;20:2283–2293. © 2024 Pollinator Research Task Force. Integrated Environmental Assessment and Management published by Wiley Periodicals LLC on behalf of Society of Environmental Toxicology & Chemistry (SETAC).

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蜜蜂幼虫毒性研究设计：当前研究方案和终点的适用性，作为预测农药对传粉昆虫危害的指标。

目前，北美地区对蜜蜂农药风险的评估部分依赖于一级蜜蜂实验室毒性研究，以支持作物保护化学品的注册和注册审查程序。对于未成熟阶段，这些研究遵循经济合作与发展组织（OECD）推荐的两种标准化试验设计，分别评估蜜蜂幼虫的急性毒性（七天单剂量，TG OECD 237）和慢性毒性（22 天重复剂量，GD OECD 239）。在本文中，我们旨在评估当前生成和解释蜜蜂幼虫毒性数据的方法，以加强对授粉昆虫的农药风险评估。首先，考虑到重复剂量幼虫研究涵盖了蜜蜂育雏到成虫出现的所有阶段，我们将七天急性接触研究的终点（幼虫 LD/ED50 和 LC/EC50 值）与 22 天慢性接触研究的终点进行了比较。我们的目标是确定哪种研究设计在评估农药对未成熟蜜蜂的毒性方面具有更高的灵敏度。我们的第二个目标是分析现有的成蜂体重数据，并将其与生存终点（如 NOEL 和 LD50）进行比较，以确定成蜂出壳后的体重是否能准确代表农药对发育中蜜蜂影响的敏感指标。我们的分析表明，使用单一的 22 天慢性暴露研究足以涵盖所有未成熟阶段，而且与使用基于估计日剂量的终点相比，基于累积剂量的毒性值更准确、更能代表未成熟蜜蜂的暴露量。此外，我们的分析表明，在我们分析的 22% 的化合物中，测量萌发成蜂的体重是比死亡率更灵敏的治疗相关效应指标。在此，我们还讨论了标准化规程对于正确收集出水后体重的重要性，以及进一步讨论该参数在风险评估计划中的相关性的必要性。Integr Environ Assess Manag 2024;00:1-11.© 2024 SETAC.

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来源期刊

Integrated Environmental Assessment and Management ENVIRONMENTAL SCIENCESTOXICOLOGY&nbs-TOXICOLOGY

CiteScore

5.90

自引率

6.50%

发文量

156

期刊介绍： Integrated Environmental Assessment and Management (IEAM) publishes the science underpinning environmental decision making and problem solving. Papers submitted to IEAM must link science and technical innovations to vexing regional or global environmental issues in one or more of the following core areas: Science-informed regulation, policy, and decision making Health and ecological risk and impact assessment Restoration and management of damaged ecosystems Sustaining ecosystems Managing large-scale environmental change Papers published in these broad fields of study are connected by an array of interdisciplinary engineering, management, and scientific themes, which collectively reflect the interconnectedness of the scientific, social, and environmental challenges facing our modern global society: Methods for environmental quality assessment; forecasting across a number of ecosystem uses and challenges (systems-based, cost-benefit, ecosystem services, etc.); measuring or predicting ecosystem change and adaptation Approaches that connect policy and management tools; harmonize national and international environmental regulation; merge human well-being with ecological management; develop and sustain the function of ecosystems; conceptualize, model and apply concepts of spatial and regional sustainability Assessment and management frameworks that incorporate conservation, life cycle, restoration, and sustainability; considerations for climate-induced adaptation, change and consequences, and vulnerability Environmental management applications using risk-based approaches; considerations for protecting and fostering biodiversity, as well as enhancement or protection of ecosystem services and resiliency.

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