Laetz_2020_Aquat.Toxicol_221_105424

Reference

Title : Sublethal neurotoxicity of organophosphate insecticides to juvenile coho salmon - Laetz_2020_Aquat.Toxicol_221_105424
Author(s) : Laetz CA , Baldwin DH , Scholz NL
Ref : Aquat Toxicol , 221 :105424 , 2020
Abstract :

For decades, organophosphate (OP) insecticides have been used as chemical control agents in watersheds that support at-risk populations of Pacific salmon throughout western North America. Spray drift, runoff, and other processes transport OPs to critical surface water habitats for migratory salmonids. While most OPs share a common mechanism of action (i.e., inhibition of neuronal acetylcholinesterase, or AChE), they typically vary in toxic potency. Moreover, dose-response relationships for exposure and sublethal neurotoxicity (e.g., brain AChE inhibition) in salmonids have not been defined for many OPs. Here we exposed juvenile coho salmon (Oncorhynchus kisutch) to five common anticholinesterase insecticides (dimethoate, ethoprop, naled, phorate and phosmet) that are widely used on agricultural, commercial, residential, and public lands. Each of the five pesticides produced a concentration-dependent inhibition of AChE enzyme activity. The effective concentration for 50 % AChE inhibition (96-hr EC50) indicated the highest toxicity for phorate (EC50=0.57mug/L) followed by phosmet (3.3mug/L), naled (7.8mug/L), ethoprop (90.6mug/L) and dimethoate (273mug/L). These findings can inform 1) relative hazard analyses for OP use near sensitive aquatic habitats, 2) predictions of sublethal OP mixture toxicity, and 3) ecological risk assessments for threatened or endangered species of Pacific salmon.

PubMedSearch : Laetz_2020_Aquat.Toxicol_221_105424
PubMedID: 32058876

Related information

Citations formats

Laetz CA, Baldwin DH, Scholz NL (2020)
Sublethal neurotoxicity of organophosphate insecticides to juvenile coho salmon
Aquat Toxicol 221 :105424

Laetz CA, Baldwin DH, Scholz NL (2020)
Aquat Toxicol 221 :105424