The Application of Silvicultural Treatments to Establish and Maintain Early Successional Habitat in the Adirondack Forests of New York State
Sat, 04/29/2017 - 15:12
Abstract: Early successional habitat (ESH) in New York state can be described as young forests comprising trees, shrubs, grasses, and other herbaceous plants that form relatively open canopies with dense understories. ESH has decreased due to nearly ninety percent of the naturally occurring shrublands of North America having been destroyed. The destruction of this habitat is of top concern due to the threatened and endangered species whom rely on these sorts of habitats to thrive. Considering the future climate projections, population models, and theoretical species distribution, responsible stewardship is needed to manage in favor of ESH types. A meta-analysis of various journals and databases was performed to synthesize information into a general management plan for establishing ESH in the Adirondacks. Through combining methods and silvicultural management practices from past plans in the northeastern United States, as well as background knowledge of the area, this management plan has been tailored specifically for an Adirondack forest. These outlined silvicultural treatments may also be extended to a variety of other forest types in the eastern U.S.A. Re-establishing young forests throughout the region is the goal of this plan. In doing so, these practices will enhance the health, resiliency, and biodiversity of the Adirondack region, and New York State by creating critical ESH which the fauna and flora of this region depend upon.
Literary Rights: On
Major: Integrative Studies, Natural Resources Management and Policy
File Attachments: Morin_Baker_Bice_capstone.docx
Wildfire Probability of Paul Smith’s College Lands
Tue, 12/05/2017 - 13:07
Abstract: For centuries, wildfires have been seen as devastating natural disasters burning homes, property and forests. For many years, man has tried to fight these fires to mitigate the damage that they do. In recent years, climate change has increased both the number of fires and the intensity at which they burn. We have developed a GIS model that incorporates factors such as slope, aspect, and land cover to determine what areas of Paul Smith’s College lands are prone to wildfires. Our goal was to find areas within the Paul Smiths College land that have a high probability for an intense wildland fire. We gathered our GIS data from online resources such as Cugir, NYS Clearing House and Earth Explorer. We then reclassified each of the data layers based on criteria determined from other scholarly papers to then use that criteria to develop our model. After running the model, we found twenty-two areas of interest also known as hot spots. We then proceeded to check five of the twenty-two hot spot areas to double-check that the characteristics that our model depicted were true hazardous areas.
Literary Rights: On
Major: Natural Resources Management and Policy
File Attachments: CapstonePaper.pdf