Lead Principal Investigator: Underwood, Brian
Partner Institution: State University of New York College of Environmental Science and Forestry
Federal Agency: National Park Service
Project Discipline: Natural Resources
Start Year: 2014
End Year: 2017
Products Associated with this Project:
- Kilheffer, C. 2018. Plant community development in storm-induced overwash fans of the Otis Pike Fire Island High Dune Wilderness Area, New York. Dissertation. College of Environmental Science and Forestry, State University of New York, Syracuse, NY. (Thesis)
- Kilheffer, C., H. Underwood, J. Raphael, L. Ries. Factors affecting post-Sandy overwash vegetation recovery in the Otis Pike Fire Island High Dune Wilderness Area. 11th Biennial Fire Island National Seashore Science Conference. Patchogue, NY. April 27-28, 2018. (Presentation(s))
- Kilheffer, C., H. Underwood, J. Raphael, L. Ries. Impacts of white-tailed deer herbivory on post-disturbance coastal vegetation recovery. 10th Biennial Fire Island National Seashore Science Conference. Patchogue, NY. April 22-23, 2016. (Presentation(s))
- Kilheffer, C., J. Raphael, L. Ries, H. Underwood. Deer impacts to vegetation recovering from Superstorm Sandy in overwashes of Fire Island National Seashore. George Wright Society, Norfolk, VA. April 2-7, 2017. (Presentation(s))
- Kilheffer, C., J. Raphael, L. Ries, H. Underwood. Using digital point-intercept and sub-meter navigation to assess vegetation recovery in Fire Island’s wilderness. George Wright Society, Norfolk, VA. April 2-7, 2017. (Presentation(s))
- Raphael, J., J. Lynch, M. Bradley, S. Rasmussen. Robotics technology helps analyze the effects of sea-level rise and erosion on the sunken forest. 10th Biennial Fire Island National Seashore Science Conference. Patchogue, NY. April 22, 2016. (Presentation(s))