Heavy metal bioaccumulation, oxidative stress and genotoxicity in African catfishClarias gariepinusfrom Orontes river

One of the major problems affecting the ecosystem health is the exposure of heavy metals due to anthropogenic activities. These exposures may induce toxiogenetic damage and carcinogenesis in aquatic organism. DNA damage biomarkers for fish species detect genotoxic parameters for ecological risk asse...

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Bibliographic Details
Published in:Ecotoxicology
Main Authors: Turan, Funda, Eken, Meltem, Özyılmaz, Gül, Karan, Serpil, Uluca, Haluk
Other Authors: Deniz Bilimleri ve Teknolojisi Fakültesi -- Su Ürünleri Yetiştiriciliği Bölümü, Deniz Bilimleri ve Teknolojisi Fakültesi -- Deniz Bilimleri Bölümü
Format: Article in Journal/Newspaper
Language:English
Published: Springer 2020
Subjects:
Heavy metals
Bioaccumulation
Oxidative stress
DNA damage
Comet assay
African catfish
Ecology
Environmental Sciences
Toxicology
Comet Assay | Micronucleus Tests | Genotoxicity
DNA strand-breakage
Anguilla-anguilla
Antioxidant response
Clarias-gariepinus
European eel
Fish
Biomarkers
Damage
Exposure
Cadmium
Chromium
Copper
Iron
Manganese
Bioassay
Biomarker
Concentration (composition)
DNA
Fish culture
Genotoxicity
Africa
Animal cell
Animal tissue
Clarias gariepinus
Controlled study
Correlation coefficient
Liver cell
Liver tissue
Muscle tissue
Nonhuman
Physiological stress
Principal component analysis
Priority journal
River ecosystem
Seasonal variation
Toxic concentration
Anguilla anguilla
Online Access:https://hdl.handle.net/20.500.12508/1475
https://doi.org/10.1007/s10646-020-02253-w
Description
Summary:One of the major problems affecting the ecosystem health is the exposure of heavy metals due to anthropogenic activities. These exposures may induce toxiogenetic damage and carcinogenesis in aquatic organism. DNA damage biomarkers for fish species detect genotoxic parameters for ecological risk assessment. In the present study, the effect of heavy metals (Cr, Cd, Cu, Fe and Mn) on DNA damage and oxidative stress ofClarias gariepinuswas examined by Comet assay at Reference site and two different sampling sites of the Orontes River. Moreover, the relationship between DNA damage and physiological response to oxidative stress caused inC. gariepinuswas investigated by sampling seasonal water and fish samples for one year. In this study, Cr, Cd and Cu in water column of Orontes River and the concentrations of Fe and Mn in liver tissue ofC. gariepinuswere highly exceed the maximum permissible limit set by EPA (1999,2016) WHO (1989) and TEG (2012) that can cause adverse effects on environment health. SOD activities in liver tissues were significantly higher than those in muscle tissues. SOD, CAT activity and MDA levels of both Site 1 and Site 2 at Orontes River were higher than those of the Reference site. In result of the COMET analysis, the highest levels of DNA damage were found at gill and liver tissues in Site 2 (17.746 +/- 1.072% T-DNA; 16.014 +/- 0.710% T-DNA respectively) at Orontes river. A higher level of DNA damage in gill cells compared to liver cells was observed in all regions of the Orontes River. In Principal component analysis (PCA), the heavy metals Cd, Cr and Cu (in the water column) and MDA in liver and muscle revealed strong contribution to the observed DNA damage that were scattered opposite to each other's along the principal components. Moreover, correlations between parameters revealed a positive significant relationship between Cd, Cr and Cu in water and DNA damage levels inC. gariepinus. Pearson correlation analysis detected a positive relationship between MDA, CAT and SOD and DNA damage ...

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