Effects of industrial disturbances on biodiversity of carrion-associated beetles
Article
Silva, AE, Barnes, BF, Coyle, DR et al. (2020). Effects of industrial disturbances on biodiversity of carrion-associated beetles
. SCIENCE OF THE TOTAL ENVIRONMENT, 709 10.1016/j.scitotenv.2019.135158
Silva, AE, Barnes, BF, Coyle, DR et al. (2020). Effects of industrial disturbances on biodiversity of carrion-associated beetles
. SCIENCE OF THE TOTAL ENVIRONMENT, 709 10.1016/j.scitotenv.2019.135158
Energy production systems such as nuclear reactors and coal-burning power plants produce a multitude of waste contaminants including radionuclides, trace elements, and heavy metals. Among invertebrates, much of the effort to understand the impact of these contaminants has focused in aquatic environments, while relatively less attention has been on terrestrial communities. We investigated the effects of trace element and radionuclide contamination on assemblages of beetles that are drawn to vertebrate carrion. Samples were collected from riparian sites at the Savannah River Site in South Carolina to compare trap catches (i.e., measure of relative abundance) of beetles and species diversity along a habitat gradient (0–300 m) away from an aquatic habitat and between uncontaminated and contaminated sites. We collected 17,800 carrion-associated beetles representing 112 species in nine families, which were classified as either scavenger or predatory beetles. Beetle catches and species diversity were generally higher at contaminated than uncontaminated sites. These trends were likely driven by scavenger species, which showed similar patterns between sites, whereas patterns of catches and species diversity were variable between sites for predatory beetles. Species compositions of contaminated and uncontaminated sites were generally distinct, however habitat edges appeared to substantially affect beetle assemblages. Overall, our study suggests carrion beetle assemblages are sensitive to edge effects and may exhibit variable responses to the presence of anthropogenic contaminants or disturbances associated with energy production systems. Such results reflect the inherent variability among individual beetle species, populations, and communities to local environmental conditions, and underscores the need for multi-taxa approach in environmental impact assessments.
