Matching Items (3)
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Description
Environmental changes are occurring at an unprecedented rate, and these changes will undoubtedly lead to alterations in resource availability for many organisms. To effectively predict the implications of such changes, it is critical to better understand how organisms have adapted to coping with seasonally limited resources. The vast majority of

Environmental changes are occurring at an unprecedented rate, and these changes will undoubtedly lead to alterations in resource availability for many organisms. To effectively predict the implications of such changes, it is critical to better understand how organisms have adapted to coping with seasonally limited resources. The vast majority of previous work has focused on energy balance as the driver of changes in organismal physiology. While energy is clearly a vital currency, other resources can also be limited and impact physiological functions. Water is essential for life as it is the main constituent of cells, tissues, and organs. Yet, water has received little consideration for its role as a currency that impacts physiological functions. Given the importance of water to most major physiological systems, I investigated how water limitations interact with immune function, metabolism, and reproductive investment, an almost entirely unexplored area. Using multiple species and life stages, I demonstrated that dehydrated animals typically have enhanced innate immunity, regardless of whether the dehydration is a result of seasonal water constraints, water deprivation in the lab, or high physiological demand for water. My work contributed greatly to the understanding of immune function dynamics and lays a foundation for the study of hydration immunology as a component of the burgeoning field of ecoimmunology. While a large portion of my dissertation focused on the interaction between water balance and immune function, there are many other physiological processes that may be impacted by water restrictions. Accordingly, I recently expanded the understanding of how reproductive females can alter metabolic substrates to reallocate internal water during times of water scarcity, an important development in our knowledge of reproductive investments. Overall, by thoroughly evaluating implications and responses to water limitations, my dissertation, when combined previous acquired knowledge on food limitation, will enable scientists to better predict the impacts of future climate change, where, in many regions, rainfall events are forecasted to be less reliable, resulting in more frequent drought.
ContributorsBrusch, George, IV (Author) / DeNardo, Dale F (Thesis advisor) / Blattman, Joseph (Committee member) / French, Susannah (Committee member) / Sabo, John (Committee member) / Taylor, Emily (Committee member) / Arizona State University (Publisher)
Created2019
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Description
Utilizing a compilation of existing literature, theory and current praxis, a clear case for instituting a needle exchange in Maricopa County is visible.. Research on HIV rates are consulted to establish a foundation for understanding the value of needle exchange programs nationally and in Maricopa County. Case studies on existing

Utilizing a compilation of existing literature, theory and current praxis, a clear case for instituting a needle exchange in Maricopa County is visible.. Research on HIV rates are consulted to establish a foundation for understanding the value of needle exchange programs nationally and in Maricopa County. Case studies on existing needle exchange efficacy are also used to support the proposal and outline the success of needle exchanges in reducing rates of infection.
ContributorsGuntermann, Christel Young Shin (Author) / Jacobs, Bertram (Thesis director) / Jackson, Danielle (Committee member) / Taylor, Emily (Committee member) / Barrett, The Honors College (Contributor) / T. Denny Sanford School of Social and Family Dynamics (Contributor) / School of Community Resources and Development (Contributor)
Created2013-05
Description
Arizona State University presents numerous opportunities beyond the classroom for students of various academic disciplines, such as through organizations and publications. However, there is a demand by students for more extracurricular activities pertaining to the field of fashion. This thesis presents a solution to the dilemma by outlining a business

Arizona State University presents numerous opportunities beyond the classroom for students of various academic disciplines, such as through organizations and publications. However, there is a demand by students for more extracurricular activities pertaining to the field of fashion. This thesis presents a solution to the dilemma by outlining a business plan for SPARK, a funded and student-led campus fashion and beauty magazine. The content of this paper will discuss the need for an outlet of this nature and the research that was conducted to support this idea, such as the fashion-related opportunities that already exist at ASU, an overview of the university’s current student publications and a comprehensive competitive analysis of fashion magazines from colleges around the nation. A main research component of this creative project was a survey that was distributed as a means of understanding the fashion media interests and consumption habits of ASU students. The results of this study will be discussed, followed by an analysis of how these data played into the organization and planning of the publication. Attached to this dissertation is a business plan comprised of a thorough value proposition, three-year budget, audience insights and more. A sustainable business plan for SPARK, an interdisciplinary and original student-led fashion magazine, will be presented.
ContributorsTaylor, Emily Anne (Co-author) / Taylor, Emily (Co-author) / Parrish, Mi-Ai (Thesis director) / Pucci, Jessica (Committee member) / School of Art (Contributor) / Walter Cronkite School of Journalism & Mass Comm (Contributor, Contributor) / Barrett, The Honors College (Contributor)
Created2019-12