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Bioaccumulation and maternal transfer of mercury and selenium in amphibians
Author(s) -
Bergeron Christine M.,
Bodinof Catherine M.,
Unrine Jason M.,
Hopkins William A.
Publication year - 2010
Publication title -
environmental toxicology and chemistry
Language(s) - English
Resource type - Journals
SCImago Journal Rank - 1.1
H-Index - 171
eISSN - 1552-8618
pISSN - 0730-7268
DOI - 10.1002/etc.125
Subject(s) - amphibian , bioaccumulation , mercury (programming language) , biology , methylmercury , selenium , ecology , population , offspring , zoology , environmental chemistry , chemistry , pregnancy , genetics , demography , organic chemistry , sociology , computer science , programming language
Amphibian population declines have been documented worldwide and environmental contaminants are believed to contribute to some declines. Maternal transfer of bioaccumulated contaminants to offspring may be an important and overlooked mechanism of impaired reproductive success that affects amphibian populations. Mercury (Hg) is of particular concern due to its ubiquity in the environment, known toxicity to other wildlife, and complex relationships with other elements, such as selenium (Se). The objectives of the present study were to describe the relationships between total Hg (THg), methlymercury (MMHg), and Se in three amphibian species ( Plethodon cinereus , Eurycea bislineata cirrigera , and Bufo americanus ) along a Hg‐polluted river and floodplain, and to determine if B. americanus maternally transfers Hg and Se to its eggs in a tissue residue‐dependent manner. Total Hg and MMHg concentrations in all species spanned two orders of magnitude between the reference and contaminated areas, while Se concentrations were generally low in all species at both sites. Strong positive relationships between THg and MMHg in tissues of all species were observed throughout. Both Hg and Se were maternally transferred from females to eggs in B. americanus , but the percentage of the females' Hg body burden transferred to eggs was low compared with Se. In addition, Hg concentrations appeared to positively influence the amount of Se transferred from female to eggs. The present study is the first to confirm a correlation between Hg concentrations in female carcass and eggs in amphibians and among the first to describe co‐transference of Se and Hg in an anamniotic vertebrate. The results suggest future work is needed to determine whether maternal transfer of Hg has transgenerational implications for amphibian progeny. Environ. Toxicol. Chem. 2010;29:989–997. © 2010 SETAC

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