Determining Habitat Suitability for Ruffed Grouse (Bonasa umbellus) in Five Forest Harvest Method Plots on the Paul Smith’s Visitors Interpretation Center Land to Promote Long Term Suitable Habitat.
Sun, 04/28/2013 - 11:42
Abstract: Ruffed grouse (Bonansa umbellus) populations are in a steady decline due to the loss of early successional forests. Our study focused on the suitability of ruffed grouse habitat which is considered an area with adequate food and cover in. We used a habitat suitability index designed for ruffed grouse in Colorado that included average height of woody stems, percent conifers, density of mature yellow birch, and total equivalent stem density as the variables that indicate whether an area has suitable cover and food for ruffed grouse. Using the habitat suitability index we measured the vegetation in five forest harvest methods including: single tree selection, two-age cut, shelter-wood cut, clear-cut, and a control plot to determine if a habitat suitability index developed in Colorado can be used to assess habitat suitability for ruffed grouse in New York. These plots are located in the Adirondacks in Northern New York State at the Paul Smith’s College Visitors Interpretation Center (VIC). Our results suggested that 14 years after harvest a single tree selection harvest method has the highest overall habitat suitability (0.95) for ruffed grouse. This is different from other studies we found that indicated clear-cut was the most suitable forest harvest method for ruffed grouse. We also projected the change in habitat suitability for height of woody stems over time for the clear-cut based on the yearly growth rate of 0.656 feet. Based on our findings from the study we made recommendations to land owners and land managers to develop and promote short term and long term suitable habitat for ruffed grouse. These recommendations included using a variety of forestry practices that included: single tree selection, shelterwood, and clear-cut because ruffed grouse require a variety of different cover types and habitat over their lifetime.
Literary Rights: On
Major: Fisheries and Wildlife Science, Forestry
File Attachments: Final_Draft.doc
Remote Sensing for Forest Change Detection in Afghanistan
Fri, 04/26/2013 - 08:41
Abstract: Abstract: Afghanistan’s forests are one of the country’s most important natural resources. Afghanistan has faced conflicts that have plagued the country for more than 25 years and resulted in rapid deforestation and environmental despoliation. Forested lands need to be preserved in order for Afghanistan to revamp social and economic livelihoods and control the environmental degradation. This study will analyze Landsat satellite imagery using Geographic Information Systems (GIS) and ERDAS DeltaCue change detection software to assess forest deviations in Afghanistan between 1998 and 2010. Areas in Nangarhar Province identified significant change in vegetation cover in terms of both deforestation and reforestation. Deforestation occurred more frequently around the city edges of Jalalabad, whereas reforestation occurred farther from settlements. The Tasseled Cap process produced a final output change detection layer which represented the combined detection of all significant change between the three images. Determining where deforestation is occurring through Remote Sensing is a critical first step towards rehabilitating Afghanistan’s forest productivity.
Literary Rights: On
Major: Natural Resources Management and Policy
File Attachments: Capstone_Report_Final_Hopefully.docx