Lethal and Sublethal Toxicity of Un-Ionized Ammonia to Early-Life Stages of Danio rerio

Lethal and Sublethal Toxicity of Un-Ionized Ammonia to Early-Life Stages of Danio rerio

Un-ionized ammonia (NH ) is a prevalent contaminant found in aquatic ecosystems, frequently associated with complex mixtures of other toxic contaminants. Early embryo-larval stages of zebrafish became an important model for water quality monitoring, and it is necessary to characterize its susceptibi...

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Bibliographic Details
Published in:Zebrafish Vol. 20; no. 2; p. 67
Main Authors: Mariz, Jr, Célio Freire, Melo Alves, Maria Karolaine de, Santos, Shaieny Marcela Ventura Dos, Alves, Romulo Nepomuceno, Carvalho, Paulo S M
Format: Journal Article
Language:English
Published: United States 01-04-2023
Subjects:
Acetylcholinesterase - pharmacology
Ammonia - toxicity
Animals
Ecosystem
Embryo, Nonmammalian
Larva
Water Pollutants, Chemical - toxicity
Zebrafish - physiology
blood circulation
mortality
developmental delay
swimming behavior
swim bladder
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Summary:Un-ionized ammonia (NH ) is a prevalent contaminant found in aquatic ecosystems, frequently associated with complex mixtures of other toxic contaminants. Early embryo-larval stages of zebrafish became an important model for water quality monitoring, and it is necessary to characterize its susceptibility to NH exposure. Fertilized eggs were exposed to NH concentrations ranging from 0.02 to 5.23 mg NH L until 168 h postfertilization (hpf). The lethal concentration to 50% of exposed zebrafish during 96 h was 2.07 mg NH L , 25% above the median value reported values for early developmental stages of fishes. Sublethal toxicity endpoints indicated the lowest observed effect concentrations for slow blood circulation at 24 hpf, decreased heart ventricular contractions at 72 hpf, incomplete yolk sac absorption at 96 hpf, failure in swim bladder inflation at 96 hpf, developmental retardation at 96 hpf, decreased total length, decreased swimming speed, altered trajectories, and acetylcholinesterase inhibition at 168 hpf of 0.85, 0.06, 0.15, 0.06, 0.15, 0.61, 1.35, 0.35, and 0.85 mg NH L , respectively. Environmentally relevant NH concentrations can affect zebrafish's early development and larval viability, and our results help discriminate NH contribution to the toxicity of complex environmental mixtures when zebrafish is used in water quality monitoring.
ISSN:1557-8542
DOI:10.1089/zeb.2022.0064