@article{aschehoug_sivakoff_cayton_morris_haddad_2015, title={Habitat restoration affects immature stages of a wetland butterfly through indirect effects on predation}, volume={96}, ISSN={["1939-9170"]}, DOI={10.1890/14-2403.1}, abstractNote={Habitat loss worldwide has led to the widespread use of restoration practices for the recovery of imperiled species. However, recovery success may be hampered by focusing on plant communities, rather than the complex suite of direct and indirect interactions among trophic levels that occur in natural systems. Through a factorial field experiment, we tested the effects of wetland restoration on egg and juvenile survival of a locally rare butterfly, Satyrodes appalachia, via tree removal and damming. Tree removal more than tripled S. appalachia host plant abundance, but neither restoration action directly affected S. appalachia egg and juvenile survival. Instead, we found strong indirect effects of habitat manipulation on S. appalachia egg and juvenile survival that were mediated through predation. The interaction of tree removal and damming significantly decreased predation of S. appalachia eggs relative to each treatment alone. Damming alone had a significant positive indirect effect on the survival of S. appalachia juveniles, likely because increases in standing water reduced predator access. Our results emphasize the need for experiments that evaluate the demographic responses of imperiled species to habitat restoration prior to management action and quantify potential indirect effects mediated through higher trophic levels.}, number={7}, journal={ECOLOGY}, author={Aschehoug, Erik T. and Sivakoff, F. S. and Cayton, H. L. and Morris, W. F. and Haddad, N. M.}, year={2015}, month={Jul}, pages={1761–1767} } @article{diamond_cayton_wepprich_jenkins_dunn_haddad_ries_2014, title={Unexpected phenological responses of butterflies to the interaction of urbanization and geographic temperature}, volume={95}, ISSN={["1939-9170"]}, url={http://www.scopus.com/inward/record.url?eid=2-s2.0-84907211442&partnerID=MN8TOARS}, DOI={10.1890/13-1848.1}, abstractNote={Urbanization and global climate change can profoundly alter biological systems, yet scientists often analyze their effects separately. We test how the timing of life cycle events (phenology) is jointly influenced by these two components of global change. To do so, we use a long‐term phenological data set of 20 common butterfly species from 83 sites across the state of Ohio, USA, with sites that range from rural undeveloped areas to moderately sized cities. These sites span a latitudinal gradient in mean temperature of several °C, mimicking the range of projected global climate warming effects through the end of the century. Although shifts toward earlier phenology are typical of species' responses to either global climate change or urbanization, we found that their interaction delayed several Ohio butterfly species' first appearance and peak abundance phenology. Exploitative species exhibited smaller delays in first appearance and peak abundance phenology in areas that were urbanized and geographically warm. Our results show that phenological responses to urbanization are contingent upon geographic variation in temperature, and that the impacts of urbanization and global climate change should be considered simultaneously when developing forecasts of biological responses to environmental change.}, number={9}, journal={ECOLOGY}, author={Diamond, Sarah E. and Cayton, Heather and Wepprich, Tyson and Jenkins, Clinton N. and Dunn, Robert R. and Haddad, Nick M. and Ries, Leslie}, year={2014}, month={Sep}, pages={2613–2621} }