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Climate in the southeastern U.S. is predicted to be changing at a slower rate than other parts of North America; however, land use change associated with urbanization is having a significant effect on wildlife populations and habitat availability. We sought to understand the effect of global warming on both beneficial and pest insects of trees. We used urban warming as a proxy for global warming in as much as many cities have already warmed as much, due to heat island effects, as they are expected to warm due to climate change by 2050 or even 2100. We were able to develop good predictive models of how warming influences beneficial and pest insects for cities in the Southeast and across the east coast more generally....
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In the Southeast, where rapid human development is increasingly dividing natural areas, habitat fragmentation and loss threaten the health and even genetic viability of wildlife populations, and interrupt migration routes. Climate change is projected to exacerbate fragmentation by further disrupting landscapes. To make matters worse, it is also expected to shift the range of many species, forcing animals capable of adapting by moving to expand into new areas to find more suitable temperatures and adequate food supplies – a challenge made difficult, if not impossible, by disconnected landscapes. Maintaining connectivity between habitats is a key strategy for conserving wildlife populations into the future, and sound...
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Habitat loss is splitting the world’s plant and animal populations into smaller, more isolated fragments. At the same time, many organisms must also withstand rapid and stressful changes to their environment. Combined, these factors can increase extinction risk. A possible escape from extinction is through adaptation. Yet, small populations with low genetic diversity may be unable to adapt in time to keep pace with environmental change. One strategy to mitigate these problems is to move individuals from larger, more resilient populations with higher genetic variation into small, declining populations to induce 'genetic rescue'. This project will use cutting-edge genomic tools to evaluate the potential for genetic...
    map background search result map search result map Understanding How Warming Temperatures Will Impact Trees and Insects Using Cities as a Proxy Understanding Habitat Connectivity to Inform Conservation Decisions Leveraging Genomic Data to Increase Adaptive Potential and Inform Management Action for the Endangered Mitchell's Satyr Butterfly Under Climate Change Understanding How Warming Temperatures Will Impact Trees and Insects Using Cities as a Proxy Leveraging Genomic Data to Increase Adaptive Potential and Inform Management Action for the Endangered Mitchell's Satyr Butterfly Under Climate Change Understanding Habitat Connectivity to Inform Conservation Decisions