Your search keyword '"Hepner, Mark J"' showing total 3 results

1. Does maternal exposure to an environmental stressor affect offspring response to predators?

Author

Todd, Brian D., Bergeron, Christine M., Hepner, Mark J., Burke, John N., and Hopkins, William A.

Published

2011

2. Aquatic and terrestrial stressors in amphibians: A test of the double jeopardy hypothesis based on maternally and trophically derived contaminants.

Author

Todd, Brian D., Bergeron, Christine M., Hepner, Mark J., and Hopkins, William A.

Subjects

AMPHIBIANS, POLLUTANTS, MERCURY, LARVAE, AMPHIBIAN declines, AMERICAN toad, ANIMAL feeding behavior

Abstract

Amphibians with biphasic life histories occupy aquatic and terrestrial habitats at different times in their lives, leading to a double jeopardy of contaminant risk in both habitats. The present study examines individual and interactive effects of mercury exposure to terrestrial adults and aquatic larvae on fitness-related traits of American toads, Bufo americanus. Eggs from reference mothers or contaminated mothers were allowed to hatch and larvae were fed diets of either no added Hg or 2.5 or 10 µg/g total Hg (dry wt). Both dietary and maternal Hg had adverse effects on developing larvae, but there was no interaction between these factors. Dietary Hg had a marginal effect of decreased survival with increasing Hg in the diet. Animals from Hg-exposed mothers weighed 14% less than those from reference mothers, and size at metamorphosis was directly correlated with hopping performance. Animals from Hg-exposed mothers also took longer to complete metamorphosis and had 2.5 times the prevalence of spinal malformations compared with those from reference mothers. Results of the present study demonstrate that amphibians do indeed face a double jeopardy of contaminant exposure stemming from terrestrial and aquatic environments, because both exposure pathways adversely affected developing offspring. The present study also demonstrates that all possible routes of exposure over an organism's life history must be examined to provide a comprehensive picture of the ecological consequences of habitat contamination. Environ. Toxicol. Chem. 2011;30:2277-2284. © 2011 SETAC [ABSTRACT FROM AUTHOR]

Published

2011

3. Interactive effects of maternal and dietary mercury exposure have latent and lethal consequences for amphibian larvae.

Author

Bergeron, Christine M., Hopkins, William A., Todd, Brian D., Hepner, Mark J., and Unrine, Jason M.

Subjects

*MERCURY & the environment, *PHYSIOLOGICAL effects of mercury, *MERCURY poisoning, *LARVAE, *AMPHIBIANS, *TOADS, *MATERNAL-fetal exchange

Abstract

Organisms born into the same contaminated environment as their parents can be exposed both maternally and environmentally to contaminants, potentially placing them at greater risk of adverse effects than when exposed via either of the two pathways independently. We examined whither embryonic exposure to maternally derived mercury (Hg) interacts with dietary exposure to negatively influence larval development in American toads (Bufa americanus). We collected eggs from breeding pairs at reference and Hg-contaminated sites and monitored performance, development, and survival of larvae fed three experimental Hg diets (total Hg, 0.01, 2.5, and 10 /μg/g). The negative sublethal effects of maternal and/or dietary Hg manifested differently, but maternal Hg exposure had a greater overall influence on offspring health than dietary exposure. However, the combination of sublethal effects of the two exposure routes interacted with lethal consequences; larvae exposed to maternal Hg and high dietary Hg experienced 50% greater mortality compared to larvae from reference mothers fed the control diet. This study is the first to demonstrate that the latent effects of maternally transferred contaminants may be exacerbated by further exposure later in ontogeny, findings that may have important implications for both wildlife and human health. [ABSTRACT FROM AUTHOR]

Published

2011