Benthic fish blood as a biomarker for recent exposure to mercury

Benthic fish blood as a biomarker for recent exposure to mercury

This study evaluated the concentration of Hg in the blood of the benthic fish species Geophagus brasiliensis captured from the Rio Grande and Billings Reservoir, which is located along the Upper Tietê River Basin (São Paulo, Brazil), to determine recent exposure. The relationship between blood and s...

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Bibliographic Details
Published in:Limnetica (València, Spain) Vol. 37; no. 37; pp. 129 - 143
Main Authors: Furlan, Natália, Quináglia, Gilson A., Esteves, Katharina E., Osti, João A. S., Lamparelli, Marta C.
Format: Magazine Article
Language:English
Published: Bilbao Asociación Ibérica de Limnología 01-01-2018
Subjects:
Atomic absorption analysis
Bioaccumulation
Bioindicators
Biomarkers
Biomonitoring
Blood
Contamination
Correlation analysis
Dry season
Exposure
Fish
Geophagus brasiliensis
Mercury
Mercury (metal)
Rainy season
River basins
Rivers
Sampling
Sediments
Spectral analysis
Spectrometry
Vapors
Water analysis
Water pollution effects
Rio Grande
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Summary:This study evaluated the concentration of Hg in the blood of the benthic fish species Geophagus brasiliensis captured from the Rio Grande and Billings Reservoir, which is located along the Upper Tietê River Basin (São Paulo, Brazil), to determine recent exposure. The relationship between blood and sediment Hg concentrations was evaluated. Sediment and fish blood samples were collected at six sampling sites during the rainy (January-March) and dry season (July-August) of 2009, and the rainy season (January) of 2010. Total Hg in blood and in sediments was determined by cold vapor atomic absorption spectrometry (CV AAS). The highest Hg concentrations in blood occurred in sampling sites located downstream from a chlor-alkali plant. Weight and length of fish were marginally associated with concentrations of Hg in blood. According to international guidelines for sediment quality, Hg concentrations were higher than Probable Effect Level (PEL) (0.49 µg/kg) in the final stretch of the Grande River and in the Billings Reservoir, while the remaining sites presented values between 0.06 and 0.35 µg/kg. Pearson correlation analysis between the concentrations of Hg in blood and sediment was positive and significant (r=0.844; p<0.05), showing that quantification of Hg in blood can be an useful tool for biomonitoring, indicating recent exposure, as well as helping as an early warning indicator of environmental contamination.
ISSN:1989-1806
0213-8409
1989-1806
DOI:10.23818/limn.37.11