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Predicting The Future: Parental Progeny Investment In Response To Environmental Stress Cues, Leah Gulyas, Jennifer R. Powell
Predicting The Future: Parental Progeny Investment In Response To Environmental Stress Cues, Leah Gulyas, Jennifer R. Powell
Biology Faculty Publications
Environmental stressors can severely limit the ability of an organism to reproduce as lifespan is decreased and resources are shifted away from reproduction to survival. Although this is often detrimental to the organism’s reproductive fitness, certain other reproductive stress responses may mitigate this effect by increasing the likelihood of progeny survival in the F1 and subsequent generations. Here we review three means by which these progeny may be conferred a competitive edge as a result of stress encountered in the parental generation: heritable epigenetic modifications to nucleotides and histones, simple maternal investments of cytosolic components, and the partially overlapping phenomenon …
Toxic Effects Of Copper, Cadmium, And Methoxychlor Shown By Neutral Red Retention Assay In Two Species Of Freshwater Molluscs, Nikolett Molnar, Peter Fong
Toxic Effects Of Copper, Cadmium, And Methoxychlor Shown By Neutral Red Retention Assay In Two Species Of Freshwater Molluscs, Nikolett Molnar, Peter Fong
Biology Faculty Publications
We used neutral red retention assay in lysosomes of digestive gland cells as an indicator for stress effects by the environmental contaminants Cu, Cd, and the pesticide methoxychlor in two freshwater molluscs, the unionid mussel, Elliptio complanata (Lightfoot) and the ramshorn snail Helisoma trivolvis (Say). Mussels and snails were exposed for 7 and 14 days to Cu and Cd each at nominal concentrations of 2.5 μg/L, 5.0 μg/L, and 10.0 μg/L, and to methoxychlor concentrations of 1.0 μg/L, 10.0μg/L, and 100.0 μg/L. Both mussels and snails exposed to Cu showed a significant increase in the percent of destabilized lysosomes compared …