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Matching metal pollution with bioavailability, bioaccumulation and biomarkers response in fish (Centropomus parallelus) resident in neotropical estuaries

Two neotropical estuaries affected by different anthropogenic factors were studied. We report levels of metals and metalloids in water and sediment as well as their influence on genetic, biochemical and morphological biomarkers in the native fish Centropomus parallelus. Biomarkers reflected the fish...

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Published in:Environmental pollution (1987) 2013-09, Vol.180, p.136-144
Main Authors: Souza, Iara C., Duarte, Ian D., Pimentel, Natieli Q., Rocha, Lívia D., Morozesk, Mariana, Bonomo, Marina M., Azevedo, Vinicius C., Pereira, Camilo D.S., Monferrán, Magdalena V., Milanez, Camilla R.D., Matsumoto, Silvia T., Wunderlin, Daniel A., Fernandes, Marisa N.
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Language:English
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Summary:Two neotropical estuaries affected by different anthropogenic factors were studied. We report levels of metals and metalloids in water and sediment as well as their influence on genetic, biochemical and morphological biomarkers in the native fish Centropomus parallelus. Biomarkers reflected the fish health status. Multivariate statistics indicated both spatial and temporal changes in both water and sediment, which are linked to the elemental composition and health status of inhabitant fish, showing the biggest influence of surface water, followed by sediments and interstitial water. Bioaccumulation in fish muscle was useful to identify elements that were below detection limits in water, pointing out the risk of consuming fish exceeding allowance limits for some elements (As and Hg in this case). Multivariate statistics, including physical, chemical and biological issues, presents a suitable tool, integrating data from different origin allocated in the same estuary, which could be useful for future studies on estuarine systems. •C. parallelus is a suitable bioindicator for assessing environmental quality in estuaries.•Biomarkers matched water quality pointing out different pollution scenarios.•Chemometrics allows extrapolating results from field and laboratory.•Chemometrics helps integrating biology and chemistry. Chemometrics allows matching pollution with bioaccumulation of metals and biomarkers responses in the fish Centropomus parallelus evidencing differences in estuaries quality.
ISSN:0269-7491
1873-6424
DOI:10.1016/j.envpol.2013.05.017