Freshwater snail vital rates affected by non-lethal concentrations of silver nanoparticles

Freshwater gastropods are widespread and common members of benthic communities that interact with other species and conspecifics. Anthropogenic activities are increasing the presence of chemical contaminants in aquatic systems, which have the potential to disrupt species interactions through acute toxic effects and low-exposure chronic effects on vital rates and behaviors of organisms. We determined the effects of the commonly used manufactured nanomaterial, silver nanoparticles (AgNPs), on the survival, growth, reproduction, and behaviors of a common pulmonate gastropod, Physa acuta. Gastropod survival decreased in higher concentrations of AgNP (LC50 = 2.18 μg/l), but was enhanced when experimental containers included sediment (LC50 > 10 μg/l). Chronic exposures resulted in growth rates and size at first reproduction of snails declining in only the highest exposure concentration of 1 μg/l AgNP. Physa egg production was reduced by 50% when chronically exposed to 0.01 μg/l or greater AgNP. Physa crawled more rapidly when exposed to 0.01 μg/l AgNP and greater, indicating a stress response to higher AgNP concentrations. Physa exposed to 1 μg/l AgNP used near-surface habitats in a similar manner to those exposed to the threat of crayfish predation, indicating that the stress response to AgNP is similar in magnitude and direction to the threat of a predator. The sublethal effects reported here suggest that low but environmentally relevant concentrations of AgNP are likely to affect gastropod populations in many ways, potentially leading to measurable effects on communities and ecosystems.