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Main Authors: Balzani, Paride, Kurtul, Irmak, Köse, Esengül, Aksu, Sadi, Emiroğlu, Özgür, Aksun Tümerkan, Elif Tuğçe, Başkurt, Sercan, Mol, Oğuzcan, Çınar, Emre, Tarkan, Ali Serhan
Format: Artículo científico
Language:en
Published: Bulletin of environmental contamination and toxicology 2026
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Online Access:https://pubmed.ncbi.nlm.nih.gov/41686265/
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author Balzani, Paride
Kurtul, Irmak
Köse, Esengül
Aksu, Sadi
Emiroğlu, Özgür
Aksun Tümerkan, Elif Tuğçe
Başkurt, Sercan
Mol, Oğuzcan
Çınar, Emre
Tarkan, Ali Serhan
author_facet Balzani, Paride
Kurtul, Irmak
Köse, Esengül
Aksu, Sadi
Emiroğlu, Özgür
Aksun Tümerkan, Elif Tuğçe
Başkurt, Sercan
Mol, Oğuzcan
Çınar, Emre
Tarkan, Ali Serhan
Balzani, Paride
Kurtul, Irmak
Köse, Esengül
Aksu, Sadi
Emiroğlu, Özgür
Aksun Tümerkan, Elif Tuğçe
Başkurt, Sercan
Mol, Oğuzcan
Çınar, Emre
Tarkan, Ali Serhan
collection PubMed - marine biology
contents Metals and Metalloids Accumulation and Biomagnification in Three Commercially Important Fishes from a Turkish Brackish Lake. Balzani, Paride Kurtul, Irmak Köse, Esengül Aksu, Sadi Emiroğlu, Özgür Aksun Tümerkan, Elif Tuğçe Başkurt, Sercan Mol, Oğuzcan Çınar, Emre Tarkan, Ali Serhan Animals Water Pollutants, Chemical Lakes Turkey Bioaccumulation Environmental Monitoring Metalloids Food Chain Metals Fishes Sea Bream Bass Metal and metalloid (hereafter simply 'metal') pollution is a growing global concern for both aquatic organisms and human health. Fishes are important in human diet, but they can also accumulate metals in their tissues. Therefore, it is important to monitor the concentration of metals in their muscle, and to investigate potential patterns of bioaccumulation and biomagnification. Here, we studied the bioaccumulation and biomagnification of chromium (Cr), nickel (Ni), arsenic (As), and lead (Pb) in three economically important fish species from Dalyan Lake (Türkiye): the grey mullet Mugil cephalus, the gilthead seabream Sparus aurata, and the European seabass Dicentrarchus labrax. To assess trophic transfer patterns, we combined metal and carbon and nitrogen stable isotope analyses. The trophic niches of the three species were differentiated, with D. labrax occupying a higher trophic position compared to the other species. We found significant interspecific differences in metal accumulation, especially due to different Pb, As, and Cr concentrations. The concentration of As was highest in S. aurata (2.07 µg/kg), intermediate in M. cephalus (1.49 µg/kg), and the lowest in D. labrax (1.06 µg/kg), possibly reflecting a greater exposure to polluted sediment in S. aurata. The concentration of the other metals were similar among species, ranging from 1.47 (S. aurata) to 1.58 (M. cephalus) µg/kg for Cr, from 0.51 (S. aurata and M. cephalus) to 0.56 (D. labrax) µg/kg for Ni, and from 0.25 (D. labrax) to 0.47 (M. cephalus) µg/kg for Pb. Despite no significant differences among species were found in its concentration, Cr showed evidence of biomagnification. The concentration of As, Ni, and Pb did not show biomagnification, but rather trophic dilution. This study demonstrates the value of integrating ecological tracers with contaminant analysis to better understand pollutant dynamics in aquatic food webs.
format Artículo científico
id pubmed_41686265
institution PubMed
language en
publishDate 2026
publisher Bulletin of environmental contamination and toxicology
record_format pubmed
spellingShingle Metals and Metalloids Accumulation and Biomagnification in Three Commercially Important Fishes from a Turkish Brackish Lake.
Balzani, Paride
Kurtul, Irmak
Köse, Esengül
Aksu, Sadi
Emiroğlu, Özgür
Aksun Tümerkan, Elif Tuğçe
Başkurt, Sercan
Mol, Oğuzcan
Çınar, Emre
Tarkan, Ali Serhan
Animals
Water Pollutants, Chemical
Lakes
Turkey
Bioaccumulation
Environmental Monitoring
Metalloids
Food Chain
Metals
Fishes
Sea Bream
Bass
Metals and Metalloids Accumulation and Biomagnification in Three Commercially Important Fishes from a Turkish Brackish Lake. Balzani, Paride Kurtul, Irmak Köse, Esengül Aksu, Sadi Emiroğlu, Özgür Aksun Tümerkan, Elif Tuğçe Başkurt, Sercan Mol, Oğuzcan Çınar, Emre Tarkan, Ali Serhan Animals Water Pollutants, Chemical Lakes Turkey Bioaccumulation Environmental Monitoring Metalloids Food Chain Metals Fishes Sea Bream Bass Metal and metalloid (hereafter simply 'metal') pollution is a growing global concern for both aquatic organisms and human health. Fishes are important in human diet, but they can also accumulate metals in their tissues. Therefore, it is important to monitor the concentration of metals in their muscle, and to investigate potential patterns of bioaccumulation and biomagnification. Here, we studied the bioaccumulation and biomagnification of chromium (Cr), nickel (Ni), arsenic (As), and lead (Pb) in three economically important fish species from Dalyan Lake (Türkiye): the grey mullet Mugil cephalus, the gilthead seabream Sparus aurata, and the European seabass Dicentrarchus labrax. To assess trophic transfer patterns, we combined metal and carbon and nitrogen stable isotope analyses. The trophic niches of the three species were differentiated, with D. labrax occupying a higher trophic position compared to the other species. We found significant interspecific differences in metal accumulation, especially due to different Pb, As, and Cr concentrations. The concentration of As was highest in S. aurata (2.07 µg/kg), intermediate in M. cephalus (1.49 µg/kg), and the lowest in D. labrax (1.06 µg/kg), possibly reflecting a greater exposure to polluted sediment in S. aurata. The concentration of the other metals were similar among species, ranging from 1.47 (S. aurata) to 1.58 (M. cephalus) µg/kg for Cr, from 0.51 (S. aurata and M. cephalus) to 0.56 (D. labrax) µg/kg for Ni, and from 0.25 (D. labrax) to 0.47 (M. cephalus) µg/kg for Pb. Despite no significant differences among species were found in its concentration, Cr showed evidence of biomagnification. The concentration of As, Ni, and Pb did not show biomagnification, but rather trophic dilution. This study demonstrates the value of integrating ecological tracers with contaminant analysis to better understand pollutant dynamics in aquatic food webs.
title Metals and Metalloids Accumulation and Biomagnification in Three Commercially Important Fishes from a Turkish Brackish Lake.
topic Animals
Water Pollutants, Chemical
Lakes
Turkey
Bioaccumulation
Environmental Monitoring
Metalloids
Food Chain
Metals
Fishes
Sea Bream
Bass
url https://pubmed.ncbi.nlm.nih.gov/41686265/