Open Access. Powered by Scholars. Published by Universities.®
- Institution
- Keyword
- Publication
Articles 1 - 2 of 2
Full-Text Articles in Life Sciences
Plant Regulatory Lists In The U.S. Are Reactive And Inconsistent - Appendix 1, Evelyn M. Beaury, Emily J. Fusco, Jenica M. Allen, Bethany A. Bradley
Plant Regulatory Lists In The U.S. Are Reactive And Inconsistent - Appendix 1, Evelyn M. Beaury, Emily J. Fusco, Jenica M. Allen, Bethany A. Bradley
Data and Datasets
This file includes supplemental information for Beaury, E.M.*, Fusco, E.J., Allen, J.M., Bradley, B.A. Plant regulatory lists in the U.S. are reactive and inconsistent. Journal of Applied Ecology. The file contains the sources for regulated plant lists, the lists themselves, and summarized findings of the study (whether taxa are listed proactively or as climate change proactive). Metadata are included in the file.
*corresponding author: Evelyn M. Beaury (ebeaury@umass.edu), 312B Holdsworth Hall, University of Massachusetts Amherst, Amherst, MA, 01002.
Interacting Effects Of Urbanization And Coastal Gradients On Ant Thermal Responses, Robert Warren
Interacting Effects Of Urbanization And Coastal Gradients On Ant Thermal Responses, Robert Warren
Biology Faculty Datasets
Urban-to-rural gradients intersect with other, often unmeasured, environmental gradients that may influence or even supersede species responses. Here we use coastal-to-interior and urban-rural gradients to investigate woodland ant response (physiological thermal tolerance, community structure and spring phenology) to two overlapping thermal gradients, the Great Lakes (Erie and Ontario) and the Buffalo, NY urban center (USA). Woodland ant physiological and behavioral responses, and community responses, shifted along the coastal-to-interior and urban-rural gradients, but they were generally best explained by lake effects (though urban ants tolerated higher temperatures than rural ants). The relatively colder spring temperatures in coastal areas (as compared to …