2022
DOI: 10.3389/fenvc.2022.767202
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Dynamics of Dietary Mercury Determined by Mercury Speciation and Isotopic Composition in Dicentrarchus labrax

Abstract: Seafood has a great ecological and nutritional value for human and wildlife communities. However, accumulation of mercury (Hg) in fish is a concern to animal and human health. There is a crucial need to understand Hg speciation in marine organisms through controlled feeding experiments. This study represents a first assessment of the biological processes that may influence Hg bioaccumulation and dynamics in a marine predatory fish. We conducted a feeding experiment to investigate the dynamics of MeHg and iHg, … Show more

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Cited by 6 publications
(3 citation statements)
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“…Other factors, not investigated here, such as tissular and subcellular distribution driving metal bioaccessibility could also play a key role on trace element assimilation (Ni et al, 2000;Pouil et al, 2016). Moreover, differences in trophic transfer of iHg and MeHg has been previously seen in copepods, in mussels and in fish (Trudel and Rasmussen, 1997;Wang and Wong, 2003;Feng et al, 2015;Lee and Fisher, 2017;Pinzone et al, 2022), especially with respect to the lower excretion rates of organomercurial species when compared to the iHg observed in fish (Trudel and Rasmussen, 1997;Feng et al, 2015). Thus, our results strongly suggest that the more abundant iHg contained in the shrimp is rapidly eliminated contributing to the lower Tb1/2 of the total assimilated 203 Hg when compared to the long Hg retention in fish-fed cuttlefish.…”
Section: Discussionmentioning
confidence: 77%
“…Other factors, not investigated here, such as tissular and subcellular distribution driving metal bioaccessibility could also play a key role on trace element assimilation (Ni et al, 2000;Pouil et al, 2016). Moreover, differences in trophic transfer of iHg and MeHg has been previously seen in copepods, in mussels and in fish (Trudel and Rasmussen, 1997;Wang and Wong, 2003;Feng et al, 2015;Lee and Fisher, 2017;Pinzone et al, 2022), especially with respect to the lower excretion rates of organomercurial species when compared to the iHg observed in fish (Trudel and Rasmussen, 1997;Feng et al, 2015). Thus, our results strongly suggest that the more abundant iHg contained in the shrimp is rapidly eliminated contributing to the lower Tb1/2 of the total assimilated 203 Hg when compared to the long Hg retention in fish-fed cuttlefish.…”
Section: Discussionmentioning
confidence: 77%
“…This onshore fasting implies that MeHg in all seal tissues may come from the same offshore dietary sources . Moreover, as MeHg isotope ratios are similar between different tissues of seals fed a constant diet, and MeHg fraction is high in seal hair, Δ 199 Hg and δ 202 Hg values of THg in NES hair represent a relevant proxy for the MeHg isotopic signature in other tissues (e.g., blubber and muscle) …”
Section: Methodsmentioning
confidence: 99%
“…Total Hg (THg) is known to be predominantly in the MeHg form in the dermis and muscle of various shark species, , aquatic and marine mammal hair, as well as in pelagic fish muscle and squid mantle. , THg was thus used as a proxy for MeHg concentrations in all the species studied here. Moreover, THg isotope ratios in sharks and seals analyzed in this work, or obtained in pelagic organisms from previous studies, , mainly reflect the isotopic signature of MeHg.…”
Section: Methodsmentioning
confidence: 99%