The Conservation and Management of Wolverine (Gulo gulo) Populations in Northern Idaho to Help Prevent Human Caused Extirpation from the Contiguous United States
Thu, 05/02/2013 - 11:21
Abstract: Wolverines (Gulo gulo) were once a thriving species in the North Western United States, but large scale trapping and poison programs in the early 1900s lead to the species near extinction. Since then, populations in the United States have been struggling to maintain a strong presence in Idaho. Its current listing as threatened on the Endangered Species Act prohibits hunting and trapping, but more management is needed to sustain populations. Human development and recreation activities have caused wolverines to disperse from its nature range. Using habitat preservation techniques on current and historical wolverine habitat, increase availability and connectivity will improve dispersal. Close relationship with state officials will provide protection regarding land use, recreation, hunting, trapping and harassment. Public education will teach residents ways they can help prevent wolverine populations from further decline. Extensive research and population monitoring are needed due to the currently declining populations and the low fecundity of the species.
Literary Rights: On
Major: Biology, Fisheries and Wildlife Science
File Attachments: Wolverine management in northern Idaho, U.S.
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