Theses and Dissertations from UMD

Permanent URI for this communityhttp://hdl.handle.net/1903/2

New submissions to the thesis/dissertation collections are added automatically as they are received from the Graduate School. Currently, the Graduate School deposits all theses and dissertations from a given semester after the official graduation date. This means that there may be up to a 4 month delay in the appearance of a give thesis/dissertation in DRUM

More information is available at Theses and Dissertations at University of Maryland Libraries.

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    EKO RESILIENCE – (RE)DESIGNING RESIDENTIAL COMMUNITIES THAT ARE RESILIENT FOR THE URBAN POOR IN LAGOS, THE COASTAL CITY.
    (2024) AJAERO, UCHEYA; Simon, Madlen G; Architecture; Digital Repository at the University of Maryland; University of Maryland (College Park, Md.)
    This thesis addresses the urgent need for resilient community housing solutions in Lagos, where there is a growing deficit of well-designed, affordable, and accessible homes, particularly for the low-income population. The research recognizes the challenges of urban decay, transportation issues, and flooding, disproportionately affecting the poor. In Lagos, the complex interdependence of rich and poor social networks is evident, with low-income individuals often residing in slums near high-income neighborhoods or facing long commutes. The thesis aims to go beyond providing shelter and explores how affordable housing can contribute to overall urban resilience. Emphasizing four critical criteria, the research aims to show how affordable housing can support social and economic structures, reduce vulnerability to environmental risks, enhance personal security, and empower communities for self-governance. The thesis adopts a comprehensive approach, considering the broader social, economic, ecological, and political dynamics in the quest for resilient housing solutions.
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    SUBAQUEOUS SOILS OF CHESAPEAKE BAY: DISTRIBUTION, GENESIS, AND THE PEDOLOGICAL IMPACTS OF SEA-LEVEL ALTERNATIONS
    (2020) Wessel, Barret Morgan; Rabenhorst, Martin C; Environmental Science and Technology; Digital Repository at the University of Maryland; University of Maryland (College Park, Md.)
    Soils and sediments make up a substantial portion of the resource base that supports human societies and other life on Earth, yet in the subaqueous environment our understanding of these materials pales in comparison to our understanding and management of upland soils. We must develop an understanding of how subaqueous soils/sediments are distributed, how they form and change over time, and how they will be impacted by rising sea-levels as a result of climate change if we are to wisely manage these resources. The goal of this study is to improve this understanding in Chesapeake Bay subestuaries. The Rhode River subestuary was first surveyed to identify rates of bathymetric change in these settings and to characterize the common material types found in these settings. Bathymetric change was evaluated using hydrographic surveys dating back to 1846, and though the river bottom does change slowly, it has been more or less stable during the years evaluated. Several types of morphologically distinct materials make up the soil profiles in Rhode River. Materials highest in organic matter are easy to identify in the field, and commonly become ultra-acidic if disturbed. Also present were submerged upland soils, colored and structured like soils in the surrounding landscape. To better understand the impacts of submergence on these materials, a sampling campaign was conducted on shallow marine sediments, reclaimed land, and restored aquatic environments under both seawater and freshwater. This demonstrated that shallow marine sediments develop upland soil features and biogeochemical characteristics within 150 years of drainage, and that these characteristics do indeed persist in the subsoil two years after submergence. Topsoil changes more radically, releasing anomalous amounts of Fe while accumulating anomalous amounts of reduced S minerals, a process exacerbated by seawater flooding. Using these results, a soil-landscape conceptual model was developed and used to predict subaqueous soil distribution in the West River subestuary. These predictions were evaluated with a sampling campaign, and found to be significant. This model can now be used in other subestuaries to quickly and efficiently survey subaqueous soils, supporting the development of future land-use interpretations in these environments.
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    Resilience to Climate Change: An Ethnographic Approach
    (2016) Johnson, Katherine Joanne; Paolisso, Michael J; Anthropology; Digital Repository at the University of Maryland; University of Maryland (College Park, Md.)
    Global projections for climate change impacts produce a startling picture of the future for low-lying coastal communities. The United States’ Chesapeake Bay region and especially marginalized and rural communities will be severely impacted by sea level rise and other changes over the next one hundred years. The concept of resilience has been theorized as a measure of social-ecological system health and as a unifying framework under which people can work together towards climate change adaptation. But it has also been critiqued for the way in which it does not adequately take into account local perspective and experiences, bringing into question the value of this concept as a tool for local communities. We must be sure that the concerns, weaknesses, and strengths of particular local communities are part of the climate change adaptation, decision-making, and planning process in which communities participate. An example of this type of planning process is the Deal Island Marsh and Community Project (DIMCP), a grant funded initiative to build resilience within marsh ecosystems and communities of the Deal Island Peninsula area of Maryland (USA) to environmental and social impacts from climate change. I argue it is important to have well-developed understandings of vulnerabilities and resiliencies identified by local residents and others to accomplish this type of work. This dissertation explores vulnerability and resilience to climate change using an engaged and ethnographic anthropological perspective. Utilizing participant observation, semi-structured and structured interviews, text analysis, and cultural domain analysis I produce an in-depth perspective of what vulnerability and resilience means to the DIMCP stakeholder network. Findings highlight significant vulnerabilities and resiliencies inherent in the local area and how these interface with additional vulnerabilities and resiliencies seen from a nonlocal perspective. I conclude that vulnerability and resilience are highly dynamic and context-specific for the local community. Vulnerabilities relate to climate change and other social and environmental changes. Resilience is a long-standing way of life, not a new concept related specifically to climate change. This ethnographic insight into vulnerability and resilience provides a basis for stronger engagement in collaboration and planning for the future.