School of Sustainability Graduate Culminating Experiences
Student capstone and applied projects from ASU's School of Sustainability.
Displaying 281 - 290 of 353
Created2017-12-01
Created2019-05-15
Description
"Community and Composting in Victory Acres” implemented a pilot composting program for a local neighborhood in an effort to increase community cohesion. Victory Acres is a low-income, culturally diverse neighborhood located in Tempe that used to have easier access to the Escalante Community Center before the 101 freeway divided the community. Residents of the neighborhoods surrounding ECC do not have access to the Escalante Community Garden except on Community Harvest Days twice a month. The goal of the project was to reconnect broken ties to the ECG through a neighborhood composting service. Through composting, residents could directly benefit from the community garden’s composting capabilities while encouraging a more sustainable method for dealing with food waste. The composting pilot project in Victory Acres was used as a way to mitigate the greenhouse gases emanating from food waste along with other neighborhood issues. The project would encourage aspects of community cohesion, sustainability, and happiness. By the completion of the project, composting in the neighborhood could continue through increased access to the Escalante Community Center Garden. An assessment via survey responses was made on improvements in perceived community connectedness, sustainability, and happiness. The pilot was unsuccessful in gaining a large client base for composting participation, but it was successful in exploring challenges and barriers to implementation of projects in Victory Acres. Several intervention points were explored, several lessons were learned from successful and unsuccessful engagement techniques, and opportunities arose for further future research.
ContributorsKiefer, Alyssa (Author) / Cloutier, Scott (Contributor) / Prosser, Paul (Contributor)
Created2017-04-28
Created2017-11-15
Created2018-04-25
Description
As arid cities’ water scarcity concerns grow, so does the importance of residential water conservation. Understanding the drivers of participation in water conservation programs can aid policymakers in designing programs that achieve conservation and enrollment targets while achieving cost-effectiveness and distributional goals. In this study I identify and analyze the characteristics that drive participation in the Southern Nevada Water Authority’s Water Smart Landscaping rebate program – a program that pays homeowners to replace their grass lawns with xeric landscaping – and how those characteristics change over time as rebate values and water prices vary.
In order to determine what characteristics influence participation in this program I gathered data from multiple sources. I use a panel dataset of household water consumption that spans 12 years of approximately 300,000 homes. I merged this dataset with home structural characteristics, geographical, and demographic context. I then use these characteristics in a linear probability model, with school enrollment zone fixed effects to determine their influence on a household’s probability of participation. School zones are used to control for unobserved characteristics, such as demographics, which are not at a household level. I then utilize these school zone fixed effects in a 2nd stage regression to decompose these elements and analyze their effect on participation.
I find that a household’s water costs, as reflected in the marginal price faced in the summer and the differential between summer and winter water bills, as well as yard size are primary factors that influence participation. I also show that changes in rebate value and water rates can affect different types of households. There is also evidence to support that neighborhood characteristics affect a household’s likelihood of participating.
In order to determine what characteristics influence participation in this program I gathered data from multiple sources. I use a panel dataset of household water consumption that spans 12 years of approximately 300,000 homes. I merged this dataset with home structural characteristics, geographical, and demographic context. I then use these characteristics in a linear probability model, with school enrollment zone fixed effects to determine their influence on a household’s probability of participation. School zones are used to control for unobserved characteristics, such as demographics, which are not at a household level. I then utilize these school zone fixed effects in a 2nd stage regression to decompose these elements and analyze their effect on participation.
I find that a household’s water costs, as reflected in the marginal price faced in the summer and the differential between summer and winter water bills, as well as yard size are primary factors that influence participation. I also show that changes in rebate value and water rates can affect different types of households. There is also evidence to support that neighborhood characteristics affect a household’s likelihood of participating.
ContributorsRusso, Jonathan (Author) / Abbott, Joshua (Contributor) / Brelsford, Christa (Contributor) / Larson, Kelli (Contributor)
Created2018-04-21
Created2020-05-13
Description
Since the the Long Walks of the 1860’s Navajo people have wrestled with the problems of acculturation and assimilation, while trying to preserve their spiritual and cultural foundations. Though history has negatively affected Navajo wellbeing (happiness), sustainable Navajo principles and practices act as a positive counterweight.
Aspiring to build the most socially and environmentally sustainable chapter house possible, the Navajo Nation’s Tonalea Chapter collaborated with our ASU research team. Two roundtable discussion with Chapter elders and members, led to a vision foundation that embodies physical, functional and environmental conditions, as well as cultural and spiritual beliefs and values.
Initially, Houde’s (2007) Six Faces of Traditional Ecological Knowledge (TEK) were used to sort commentary. Analysis and review led to expanding the framework from six to eight traditional ecological knowledge categories (TEK8): Culture, Spirituality, Ecosystem, Time, Land, Design, Social Justice and Equity, and Economics.
Sorted narratives and discussions revealed traditional ways of life, beliefs, and values, along with suggestions about who to design for, and what functions are most needed. Based on the TEK8 categorized comments, design recommendations were offered.
Additional work is needed, but a strong foundation for a framework mapping TEK to sustainable design for indigenous people has been developed. By using the TEK8 to address social justice issues through participatory visioning, culturally appropriate design and broader opportunities for happiness may result.
Aspiring to build the most socially and environmentally sustainable chapter house possible, the Navajo Nation’s Tonalea Chapter collaborated with our ASU research team. Two roundtable discussion with Chapter elders and members, led to a vision foundation that embodies physical, functional and environmental conditions, as well as cultural and spiritual beliefs and values.
Initially, Houde’s (2007) Six Faces of Traditional Ecological Knowledge (TEK) were used to sort commentary. Analysis and review led to expanding the framework from six to eight traditional ecological knowledge categories (TEK8): Culture, Spirituality, Ecosystem, Time, Land, Design, Social Justice and Equity, and Economics.
Sorted narratives and discussions revealed traditional ways of life, beliefs, and values, along with suggestions about who to design for, and what functions are most needed. Based on the TEK8 categorized comments, design recommendations were offered.
Additional work is needed, but a strong foundation for a framework mapping TEK to sustainable design for indigenous people has been developed. By using the TEK8 to address social justice issues through participatory visioning, culturally appropriate design and broader opportunities for happiness may result.
ContributorsProsser, Paul (Author) / Cloutier, Scott (Author)
Created2016-11-24