Effects of clear-cut created ecotones on nocturnal macromoths in western Newfoundland, Canada

Human land use practices, especially clearing of native vegetation, tend to increase edges, creating ecotones. Ecotones are important transition zones for conservation, as they are species rich and promote biological diversity, thus they have become a focus of habitat management. Arthropod groups ar...

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Bibliographic Details
Main Author: Pinksen, Jasmine
Format: Thesis
Language:English
Published: Memorial University of Newfoundland 2020
Subjects:
Online Access:https://research.library.mun.ca/14462/
https://research.library.mun.ca/14462/1/thesis.pdf
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Summary:Human land use practices, especially clearing of native vegetation, tend to increase edges, creating ecotones. Ecotones are important transition zones for conservation, as they are species rich and promote biological diversity, thus they have become a focus of habitat management. Arthropod groups are known to be significantly more abundant and/or taxonomically diverse at the edges compared to the interior of the adjacent habitats There is, however, a knowledge gap with respect to lepidopteran diversity across anthropogenic ecotones in boreal forests. To address one of these knowledge gaps, I asked how forestry-created ecotones influence nocturnal macromoth assemblages in the eastern boreal forest. I sampled moths in western Newfoundland, Canada, to determine their responses at the local spatial scale. Sampling took place in four replicate sites, each with light traps placed in a clear-cut, adjacent forest, and the edge between them. Edges supported the highest abundance of nocturnal macromoths, forests supported an intermediate amount, and clear-cuts supported the lowest. The difference between the habitat that supported the highest abundance and the habitat that supported the lowest, i.e.edges and clear-cuts, was significant.While boasting many unique species, edges represented a macro-moth assemblage composition that was intermediate between clear-cuts and forests, and all habitats differed significantly. While composition differed significantly between the three habitats, there was no significant difference in species diversity among the three habitat types. The results of my study suggest that, like natural disturbance created edges, forest-clear-cut edges may serve as unique habitats for macro-moth assemblages in the boreal forest. These results also have important implications for the maintenance of biodiversity in the boreal and forestry in the context of natural disturbance emulation.