Bioaccumulation and acute toxicity of As(III) and As(V) in Nile tilapia (Oreochromis niloticus)

The distribution of arsenic in the different tissues of tilapia fish is determined by the exposure time and the depuration rate. The mechanisms of toxicity/carcinogenicity depend on the arsenic species involved in the biotransformation processes. After a 7-day exposure period, the accumulation of in...

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Bibliographic Details
Published in:Chemosphere (Oxford) 2019-02, Vol.217, p.349-354
Main Authors: Ferreira, Nathalia S., Oliveira, Luciano H.B., Agrelli, Vitor, de Oliveira, Aline F., Nogueira, Ana R.A., Oliveira, Andrea, Gonzalez, Mario H.
Format: Article
Language:English
Subjects:
Acute toxicity
Animals
Arsenic - pharmacokinetics
Arsenic - toxicity
Bioaccumulation
Biotransformation
Cichlids - metabolism
Gastric Mucosa - metabolism
Gills - metabolism
Inorganic arsenic
Liver - metabolism
Muscles - metabolism
Tilapia
Tilapia - metabolism
Tissue Distribution
Water Pollutants, Chemical - pharmacokinetics
Water Pollutants, Chemical - toxicity
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Summary:The distribution of arsenic in the different tissues of tilapia fish is determined by the exposure time and the depuration rate. The mechanisms of toxicity/carcinogenicity depend on the arsenic species involved in the biotransformation processes. After a 7-day exposure period, the accumulation of inorganic arsenic (iAs) in the tilapia tissues studied was in the order: liver > stomach > gills > muscles. In bioaccumulation assays, the values of the organ uptake constant (ka) ranged from 0.06 to 0.51 mL g−1 d−1, while the depuration rate constant (kd) values were in the range 0.03–1.15 d−1. Higher iAs bioaccumulation factor (BCF) values were observed for the stomach (3.1 mL g−1) and the liver (1.6 mL g−1), reflecting their high capacity to accumulate iAs species. These organs act as long-term storage sites for iAs, following chronic exposure. The LC50 values were determined considering the average iAs concentration and the cumulative fish mortality. For As(III), the LC50 values indicated fish mortality at concentrations above 30 mg L−1. The fish showed greater tolerance to exposure to As(V), compared to As(III), with fish mortality after the second day of exposure requiring an As(V) concentration 7-fold higher than As(III). •Tissues of fish have different toxicological capacities in the iAs bioaccumulation.•The bioaccumulation of arsenic followed the order: liver > stomach > gills > muscle.•Tilapia stomach and liver presented higher values of bioconcentration factor (BCF).•The As(V) concentration 7-fold higher than As(III) was required to cause fish death.
ISSN:0045-6535
1879-1298
DOI:10.1016/j.chemosphere.2018.11.013