Title: | Evaluating the Functional Equivalency of Test Organism Performance in Negative and Solvent Controls During Chronic Sediment Ecotoxicity Studies Based on US Environmental Protection Agency Guidance |
Author(s): | Valenti T; Kabler K; Dreier D; Henry K; Jones A; McCoole M; Cafarella M; Collins J; Bradley M; Samel A; Basu M; |
Address: | "Syngenta, Greensboro, North Carolina, USA. Tessenderlo Kerley, Phoenix, Arizona, USA. ADAMA, Raleigh, North Carolina, USA. Bayer, Monheim, Nordrhein-Westfalen, Germany. Three Points Ecotox Consulting, Marion, Massachusetts, USA. Waterborne Environmental, Leesburg, Virginia, USA. Smithers, Wareham, Massachusetts, USA. FMC, Newark, Delaware, USA. CropLife America, Washington, DC, USA" |
ISSN/ISBN: | 1552-8618 (Electronic) 0730-7268 (Linking) |
Abstract: | "The US Environmental Protection Agency (USEPA) considers sediment toxicity tests as conditional registration requirements for pesticides with soil Kd >/=50 L/kg-solid, Koc >/=1000 L/kg-organic carbon, or log Kow >/=3. The hydrophobicity of these compounds often necessitates use of solvents to ensure accurate and homogeneous dosing of spiked-sediment studies. For sediment tests, a volatile solvent (e.g., acetone) is generally used as a transient carrier. Due to low water solubility, test material is dissolved in a volatile solvent to create stock solutions. A measured aliquot of stock solution is then mixed with sand substrate, after which the solvent is evaporated. This spiking process results in negligible solvent exposure to organisms. In 2016, USEPA released final ecotoxicity test guidelines for subchronic freshwater (850.1735) and marine (850.1740) sediment test. These methods provide an option for conducting experiments with only a solvent control and no negative control. To adopt this testing strategy, functional equivalency between the negative and solvent control must be demonstrated. These test guidelines describe specific factors that should be considered for evaluating functional equivalency, including (a) the concentration of solvent in the test sediment after evaporation, (b) the levels of solvent that are known to affect organism health, (c) the known impurities in the solvent and their potential impact on organism health, and (d) the historical organism performance of solvent versus negative controls. Our analysis considers these factors and overall supports the elimination of the negative control requirement because this change is unlikely to impact the robustness or interpretability of spiked-sediment toxicity tests. Environ Toxicol Chem 2023;00:1-7. (c) 2023 CropLife America. Environmental Toxicology and Chemistry published by Wiley Periodicals LLC on behalf of SETAC" |
Keywords: | Acetone Chironomus dilutus Control performance Hyalella azteca Sediment; |
Notes: | "PublisherValenti, Theodore Kabler, Kent Dreier, David Henry, Kevin Jones, Alan McCoole, Matt Cafarella, Mark Collins, Jennifer Bradley, Michael Samel, Alan Basu, Manoit eng 2023/02/01 Environ Toxicol Chem. 2023 Jan 31. doi: 10.1002/etc.5576" |