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- All Subjects: Ecology
Description
Fifty years ago, we embarked on a journey for the first time in all of history \u2014 an exploration of the final frontier: outer space. Now, having been to the moon and back, we are still exploring the unknown. In the 21st century, we have pioneered genetic cloning and made other unprecedented biotechnological advances. Similarly, artists have ventured into their own frontier, branching out of their own narrowly defined areas and breaking down barriers \u2014 barriers between art and science, between the concert hall and the outdoors, between manmade instruments and the sounds of nature. At first glance, it seems that music and science have little in common. But upon closer inspection, one will discover that there are similarities and intersections between these two fields that deserve attention. Interest in the correlation between music and science can be traced back at least as far as Ancient Greece; since Pythagoras, mathematicians, physicists, acousticians and many others have addressed connections between the two fields in manifold ways. It is becoming increasingly obvious that art and science are not at the opposite ends of the spectrum, where conventional wisdom has traditionally located them, but at the opposite sides of the same coin. In my thesis, I seek to explore the connections between music and the sciences by examining the field of acoustic ecology. I will first provide an overview of music as an interdisciplinary field. Then I will undertake two case studies of musicians whose endeavors have been significant to the field of acoustic ecology, and consider the benefits that can be drawn from their work. These artists are David Dunn and Andrea Polli. I will draw on their philosophy, writings and art as well as on secondary literature. I will take a philosophical approach to the intersections between the two areas and identify heretofore little explored aspects of the interdisciplinary potential of these two fields.
ContributorsChou, Cecilia (Author) / Feisst, Sabine (Thesis director) / Hackbarth, Glenn (Committee member) / Barrett, The Honors College (Contributor) / School of Historical, Philosophical and Religious Studies (Contributor) / School of Human Evolution and Social Change (Contributor) / School of Music (Contributor)
Created2014-05
Description
Bee communities form the keystone of many ecosystems through their pollination services. They are dynamic and often subject to significant changes due to several different factors such as climate, urban development, and other anthropogenic disturbances. As a result, the world has been experiencing a decline in bee diversity and abundance, which can have detrimental effects in the ecosystems they inhabit. One of the largest factors that impacts bees in today's world is the rapid urbanization of our planet, and it impacts the bee community in mixed ways. Not very much is understood about the bee communities that exist in urban habitats, but as urbanization is inevitably going to continue, knowledge on bee communities will need to strengthen. This study aims to determine the levels of variance in bee communities, considering multiple variables that bee communities can differ in. The following three questions are posed: do bee communities that are spatially separated differ significantly? Do bee communities that are separated by seasons differ significantly? Do bee communities that are separated temporally (by year, interannually) differ significantly? The procedure to conduct this experiment consists of netting and trapping bees at two sites at various times using the same methods. The data is then statistically analyzed for differences in abundance, richness, diversity, and species composition. After performing the various statistical analyses, it has been discovered that bee communities that are spatially separated, seasonally separated, or interannually separated do not differ significantly when it comes to abundance and richness. Spatially separated bee communities and interannually separated bee communities show a moderate level of dissimilarity in their species composition, while seasonally separated bee communities show a greater level of dissimilarity in species composition. Finally, seasonally separated bee communities demonstrate the greatest disparity of bee diversity, while interannually separated bee communities show the least disparity of bee diversity. This study was conducted over the time span of two years, and while the levels of variance of an urban area between these variables were determined, further variance studies of greater length or larger areas should be conducted to increase the currently limited knowledge of bee communities in urban areas. Additional studies on precipitation amounts and their effects on bee communities should be conducted, and studies from other regions should be taken into consideration while attempting to understand what is likely the most environmentally significant group of insects.
ContributorsPhan, James Thien (Author) / Sweat, Ken (Thesis director) / Foltz-Sweat, Jennifer (Committee member) / School of Music (Contributor) / School of Molecular Sciences (Contributor) / Barrett, The Honors College (Contributor)
Created2017-05