Application of Zn Isotope Compositions in Oysters to Monitor and Quantify Anthropogenic Zn Bioaccumulation in Marine Environments over Four Decades: A “Mussel Watch Program” Upgrade

The application of zinc (Zn) isotope compositions in bivalve organisms to quantify anthropogenic Zn bioaccumulation in marine biota is of great interest to environmental marine management programs such as the “Mussel Watch Program”. Field studies, however, are urgently needed to test its practical v...

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Bibliographic Details
Main Authors: Daniel F. Araújo (9761155), Emmanuel Ponzevera (7881752), Dominik Jakob Weiss (8581293), Joël Knoery (9761161), Nicolas Briant (9761158), Santiago Yepez (10184729), Sandrine Bruzac (9761164), Teddy Sireau (9761167), Christophe Brach-Papa (1517755)
Format: Other Non-Article Part of Journal/Newspaper
Language:unknown
Published: 2021
Subjects:
Ecology
Inorganic Chemistry
Environmental Sciences not elsewhere classified
Astronomical and Space Sciences not elsewhere classified
Biological Sciences not elsewhere classified
Chemical Sciences not elsewhere classified
estuarine processes
management strategies
Zn isotope model
marine biota
quantifying anthropogenic Zn bioacc.
Zn isotope variations
Marine Environments
isotope profile
isotope compositions
40 years
anthropogenic Zn bioaccumulation
metal contamination
anthropogenic estuarine Zn levels
bivalve organisms
oyster Crassostrea gigas
marine management programs
marine biomonitoring programs
Loire estuary
Zn Isotope Compositions
trophic transfer
geochemical studies
Zn isotope ratios
Quantify Anthropogenic Zn Bioaccumu.
bivalve species
Crassostrea gigas
Online Access:https://doi.org/10.1021/acsestwater.1c00010.s001
Description
Summary:The application of zinc (Zn) isotope compositions in bivalve organisms to quantify anthropogenic Zn bioaccumulation in marine biota is of great interest to environmental marine management programs such as the “Mussel Watch Program”. Field studies, however, are urgently needed to test its practical value. To this end, we investigated Zn isotope variations in the oyster Crassostrea gigas collected over four decades near the Loire estuary (France), where previous geochemical studies provided evidence for a regionally uniform but temporally variable metal contamination. We show that the Zn temporal isotope profile of oysters matches that of the sedimentary records with an isotope offset of approximately +0.5–0.7‰, tentatively attributed to compromised estuarine processes and trophic transfer. A Zn isotope model for quantifying anthropogenic Zn bioaccumulation suggests an overall decrease in anthropogenic estuarine Zn levels over the past 40 years. This first successful application of Zn isotope ratios in a bivalve species to quantify anthropogenic Zn bioaccumulation confirms their utility for supporting environmental management strategies in marine biomonitoring programs.

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