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The Effects of Urban Edge Proximity on Mesopredator Populations Adjacent to Gold Canyon, Az

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Urbanization is a landscape-level alteration of habitat that can lead to habitat fragmentation, degradation, and the introduction of nonnative species. Due to their life history characteristics, mammalian predators are particularly vulnerable to these effects. The categorization of many species as synanthropic, benefiting from human development, has been difficult as species

Urbanization is a landscape-level alteration of habitat that can lead to habitat fragmentation, degradation, and the introduction of nonnative species. Due to their life history characteristics, mammalian predators are particularly vulnerable to these effects. The categorization of many species as synanthropic, benefiting from human development, has been difficult as species have a gradient of responses to urbanization. Although coyotes, gray foxes and bobcats have all been shown to benefit from light to moderate levels of urbanization, often due to the increase in food resources, they typically require access to natural areas as escape cover. Camera traps at varying distances were used to document mesopredator response to the urban edge of Gold Canyon, Arizona from November 2015 through March 2016. Coyote, gray fox and bobcat relative abundance did not vary with distance to urban edge during this time period. Although, negative trends suggest that a larger scale study may reveal a negative relationship between distance to urban edge and mesopredator abundance for all 3 of these species. The efficacy of different baits at increasing mesopredator detections was also tested, with insignificant results. However, coyotes seemed to be more likely to interact with Carman's Raccoon Lure No. 2 than coyote urine. Understanding the responses of mesopredators to urbanization will allow us to better coexist with these vulnerable species as land continues to be developed at high rates across the globe.
ContributorsEvans, Jacquelyn Diane (Author) / Cunningham, Stanley (Thesis director) / Allen, Daniel (Committee member) / College of Letters and Sciences (Contributor) / Barrett, The Honors College (Contributor)
Created2016-05
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How Do Variations in Urban Heat Islands in Space and Time Influence Household Water Use? The Case of Phoenix, Arizona

Description

This paper explores how urbanization, through its role in the evolution of Urban Heat Island (UHI), affects residential water consumption. Using longitudinal data and drawing on a mesoscale atmospheric model, we examine how variations in surface temperature at the census tract level have affected water use in single family residences

This paper explores how urbanization, through its role in the evolution of Urban Heat Island (UHI), affects residential water consumption. Using longitudinal data and drawing on a mesoscale atmospheric model, we examine how variations in surface temperature at the census tract level have affected water use in single family residences in Phoenix, Arizona. Results show that each Fahrenheit rise in nighttime temperature increases water consumption by 1.4%. This temperature effect is found to vary significantly with lot size and pool size. The study provides insights into the links between urban form and water use, through the dynamics of UHI.
ContributorsAggarwal, Rimjhim M. (Author) / Guhathakurta, Subhrajit (Author) / Grossman‐Clarke, Susanne (Author) / Lathey, Vasudha (Author)
Created2012-06-14