Inclusion of Pesticide Transformation Products Is Key to Estimating Pesticide Exposures and Effects in Small U.S. Streams

Overview

Journal Environ Sci Technol

Publisher American Chemical Society

Specialty Environmental Health

Date 2021 Mar 10

PMID 33689310

Citations 13

Authors

Barbara J Mahler

Lisa H Nowell

Mark W Sandstrom

Paul M Bradley

Kristin M Romanok

Christopher P Konrad

Peter C Van Metre

Affiliations

Soon will be listed here.

Abstract

Improved analytical methods can quantify hundreds of pesticide transformation products (TPs), but understanding of TP occurrence and potential toxicity in aquatic ecosystems remains limited. We quantified 108 parent pesticides and 116 TPs in more than 3 700 samples from 442 small streams in mostly urban basins across five major regions of the United States. TPs were detected nearly as frequently as parents (90 and 95% of streams, respectively); 102 TPs were detected at least once and 28 were detected in >20% samples in at least one region-TPs of 9 herbicides, 2 fungicides (chlorothalonil and thiophanate-methyl), and 1 insecticide (fipronil) were the most frequently detected. TPs occurred commonly during baseflow conditions, indicating chronic environmental TP exposures to aquatic organisms and the likely importance of groundwater as a TP source. Hazard quotients based on acute aquatic-life benchmarks for invertebrates and nonvascular plants and vertebrate-centric molecular endpoints (sublethal effects) quantify the range of the potential contribution of TPs to environmental risk and highlight several TP exposure-response data gaps. A precautionary approach using equimolar substitution of parent benchmarks or endpoints for missing TP benchmarks indicates that potential aquatic effects of pesticide TPs could be underestimated by an order of magnitude or more.

Citing Articles

Modelling the impacts of climate change on agrochemical fate and transport by water on a catchment scale.

Nagesh P, Gassmann M, Eitzinger J, de Boer H, Edelenbosch O, Van Vuuren D Heliyon. 2024; 10(15):e35669.

PMID: 39170220 PMC: 11336872. DOI: 10.1016/j.heliyon.2024.e35669.

Forever Pesticides: A Growing Source of PFAS Contamination in the Environment.

Donley N, Cox C, Bennett K, Temkin A, Andrews D, Naidenko O Environ Health Perspect. 2024; 132(7):75003.

PMID: 39046250 PMC: 11268133. DOI: 10.1289/EHP13954.

Water, Water Everywhere, but Every Drop Unique: Challenges in the Science to Understand the Role of Contaminants of Emerging Concern in the Management of Drinking Water Supplies.

Glassmeyer S, Burns E, Focazio M, Furlong E, Gribble M, Jahne M Geohealth. 2023; 7(12):e2022GH000716.

PMID: 38155731 PMC: 10753268. DOI: 10.1029/2022GH000716.

Structural Elucidation of Agrochemical Metabolic Transformation Products Based on Infrared Ion Spectroscopy to Improve In Silico Toxicity Assessment.

Vink M, Alarcan J, Martens J, Buma W, Braeuning A, Berden G Chem Res Toxicol. 2023; 37(1):81-97.

PMID: 38118149 PMC: 10792670. DOI: 10.1021/acs.chemrestox.3c00316.

Contaminant Exposure and Transport from Three Potential Reuse Waters within a Single Watershed.

Masoner J, Kolpin D, Cozzarelli I, Bradley P, Arnall B, Forshay K Environ Sci Technol. 2023; .

PMID: 36626647 PMC: 9878729. DOI: 10.1021/acs.est.2c07372.