Our data suggests that the Habitat Diversity Theory better explains species richness of woody plants on islands in the BWCAW than the Equilibrium Theory.

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Our data suggests that the Habitat Diversity Theory better explains species richness of woody plants on islands in the BWCAW than the Equilibrium Theory of Island Biogeography. Larger islands contained a greater amount of habitats, providing a more diverse environment and allowing for greater species diversity. Distance from shore had no effect on species richness, likely due to the limited space between islands and the mainland in the BWCAW. Islands of various sizes and distances from shore were chosen for sampling. Area and distance were estimated in the field using a map and measured in the lab using Google Earth ©. Woody plants were chosen as the species to sample because of their importance in providing food and habitats for local organisms. A belt transect was made across the longest part of each island. The transect was consistently 1m wide and the length of sections doubled continuously, starting with 1m. The number of different species within each section of the transect was counted and recorded. The data from each belt transect was used to calculate species to area ratio. Total number of species on each island was estimated by taking the largest count of species for each transect. Number of habitats were determined by qualitative observation and by comparison of canopy cover, slope, and analysis of soil samples for pH, conductivity, and % organic matter. Evaluating the application of island biogeography theory and the effects of insularity in the Boundary Waters Canoe Area Wilderness Brian Hull, Alexandra Karosas, Brenna O’Gorman, and Ernest Ruiz Faculty Advisor: Dr. Todd Wellnitz Department of Biology, UW-Eau Claire Island biogeography explores the factors that may effect the species richness of islands. Few studies have been done on the biogeography of the islands in the Boundary Waters Canoe Area Wilderness (BWCAW), a federally protected area on the border of Minnesota and Canada that encompasses 1.3 million acres of pristine forests, lakes, and islands. Our objective was to determine which of two different theories of island biogeography better describes the species richness of islands in the BWCAW. The Habitat Diversity Theory (HDT) states that the number of species on an island is a function of the number of habitats on that island (i.e. larger islands will have more habitats). The Equilibrium Theory of Island Biogeography (ETIB) states that the species richness of an island is a function of immigration and extinction of species, determined by island size and distance from shore (i.e. the larger and closer an island is, the more species it will have). HYPOTHESIS: The HDT will better determine species richness because more habitats will provide additional environments for different species to live in. Islands in the BWCAW do not vary enough in their distance from shore for the ETIB to be plausible. Discussion Introduction Methods Results As island size increased, both number of habitats and species richness increased significantly. As number of habitats increased, species richness increased significantly. Island size may have had an indirect effect on species richness because of its significant effect on number of habitats. Distance from shore had no significant effect on total number of species. Fig. 7 - Sketch of an average habitat layout of the islands. 1: Coastal, low shrubs, sometimes rocky 2: Coniferous trees, sometimes sloped (by varying degrees) 3: Grassy and open, fallen trees, new growth Island Habitats Fig. 5 – Path model representing species richness on 11 islands of the Boundary Waters Canoe Area as a function of island area, number of habitats, and distance to nearest shore. Island area positively affected the number of habitats (r=0.81, P < 0.001) and species richness increased with habitat availability (r=0.53, P < 0.012). Island area also had a direct effect on species richness (r=0.44, P <.038). Distance to nearest shore had no effect on species richness. Model fit: df = 1, GFI = 0.98, P = Fig. 1 - Alexandra takes canopy cover data as Brian counts species. Fig 2 - Running a transect through a dense island forest. Fig 3 - Laying out a belt transect in a rare open area. Fig 4 – The team chooses islands to sample. Fig. 6 – A view of one of the islands sampled on Ensign Lake. Acknowledgements: Special thanks to Bill Hintz and Dr. Evan Weiher for their help with statistical analysis. Island Area Number of Habitats r²=0.65 Species Richness r²=0.84 Distance from Shore ee 0.44 ns