We are identifying historical relationships between climate extremes and species abundance, and then developing downscaled climate projections for the extreme climate metric. This information is then used to provide an initial projection of how the species abundance and location may change in the future. These initial assessments can help inform future assessments that consider broader types of climate and ecological information

Using Coupled Model Intercomparison Project Phase 5 (CMIP5) and CMIP3 data, we are developing a range of projections for the Eastern U.S.  We are also developing extreme event projections for stakeholder-relevant metrics (e.g., days over 90 °F, days below 32 °F, and days with over 1 inch of precipitation) based on CMIP5 models and North American Regional Climate Change Assessment Program (NARCCAP) dynamical downscaling.  We are also evaluating the performance of these models over historical time periods. Current research thrusts include emphasis on extreme heat stress (heat plus humidity) events and the relationship between extreme minimum temperatures and Southern Pine Beetle range expansion in the Northeast U.S.   We are finding that small changes in average conditions are associate with large changes in the frequency and intensity of extreme events