Description
Cities are hubs for economic and social development, but they are increasingly becoming hotspots of environmental problems and socio-economic inequalities. Because cities result from complex interactions among ecological, social and economic factors, environmental problems and socio-economic inequalities are often spatially interconnected, generating emergent environmental inequity issues due to the unfair distribution of environmental quality among socioeconomic groups. Since urban environmental quality is tightly related to the capacity of urban landscapes to provide ecosystem services, optimizing the allocation of ecosystem services within cities is a main goal for moving towards more equitable and sustainable cities. Nevertheless, we often lack the empirical data and specific methods for planning urban landscapes to optimize the provision of ecosystem services. Therefore, the development of knowledge and methods to optimize the provision of ecosystem services is essential for tackling urban environmental problems, reducing environmental inequities, and promoting sustainable cities. The main goal of this dissertation is to generate actionable knowledge for helping decision-makers to optimize the allocation of urban vegetation for reducing environmental inequities through the provision of ecosystem services. The research uses the city of Santiago de Chile as a case study from a Latin-American city. To achieve this goal, I framed my dissertation in four linked research chapters, each of them providing methodological approaches to help link environmental inequity problems with the development of urban planning interventions promoting an equitable provision of urban ecosystem services. These chapters are specifically aimed at providing actionable knowledge for: (1) Identifying the level, distribution, and spatial scales at which environmental inequities are more relevant; (2) Identifying the areas and administrative units where environmental inequities interventions should be prioritized; (3) Identifying optimal areas to allocate vegetation for increasing the provision of urban ecosystem services; (4) Evaluating the role that planned urban vegetation may have in the long-term provision of ecosystem services by natural remnants within the urban landscape. Thus, this dissertation contributes to urban sustainability science by proposing methods and frameworks to address urban environmental inequities through the provision of ecosystem services, but it also provides place-based information that can be readily used for planning urban vegetation in Santiago.
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Details
Title
- Planning for Urban Ecosystem Services: Generating Actionable Knowledge for Reducing Environmental Inequities in Santiago de Chile
Contributors
- Fernández, Ignacio C., Ph.D (Author)
- Wu, Jingle (Thesis advisor)
- Perrings, Charles (Committee member)
- Sala, Osvaldo (Committee member)
- Simonetti, Javier (Committee member)
- Arizona State University (Publisher)
Date Created
The date the item was original created (prior to any relationship with the ASU Digital Repositories.)
2017
Subjects
- urban planning
- Sustainability
- environmental justice
- Ecosystem Services
- Environmental Inequalities
- Landscape Planning
- Urban Ecology
- urban forestry
- urban sustainability
- City planning--Chile--Santiago--Case studies.
- City planning
- Urban ecology (Sociology)--Chile--Santiago--Case studies.
- Urban ecology (Sociology)
- Urban plants--Social aspects--Chile--Santiago--Case studies.
- Urban plants
- Environmental justice--Social aspects--Chile--Santiago--Case studies.
- environmental justice
- Environmental sciences--Social aspects--Chile--Santiago--Case studies.
- Environmental sciences
- Environmental sociology--Social aspects--Chile--Santiago--Case studies.
- Environmental sociology
Resource Type
Collections this item is in
Note
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thesisPartial requirement for: Ph.D., Arizona State University, 2017
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bibliographyIncludes bibliographical references (pages 133-148)
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Field of study: Sustainability
Citation and reuse
Statement of Responsibility
by Ignacio C. Fernandez