Filtering by
one’s self-reported measure of well-being and is thought of as having a high level of positive affect, low level of negative affect, and high degree of life satisfaction (Diener, 1984).
This study was conducted to assess the interrelationships between affective experiences, SWB, and usage of campus outdoor spaces in order to learn how outdoor spaces on the Arizona State University (ASU) Tempe campus can be enhanced to increase SWB and usage. In total, 832 students completed a survey questionnaire 1,140 times for six campus outdoor spaces. The results showed that students experience the greatest amount of happiness in the Secret Garden
and James Turrell ASU Skyspace, relaxation/restoration is the affective experience most strongly related to SWB, and SWB is negatively correlated with frequency of visits but positively link with duration of visits. To improve student happiness and usage of outdoor spaces on campuses, planners and designers should work on increasing the relaxing/restorative qualities of existing
locations, creating new spaces for relaxation/restoration around campus, reducing the perception of crowding and noise in large spaces, increasing fun/excitement by adding stimuli and/or opportunities for activity and entertainment, and adding equipment necessary for students to perform the activities they want. In addition to the ASU Tempe campus, the methodology and
findings of this research could be used to improve outdoor spaces on other college and university campuses and other types of outdoor environments.
As sustainability grows in popularity, it is important to understand what may influence people’s perceptions of the environment so that knowledge of how to motivate people to engage in sustainable practices is obtained. This project investigates people's perceptions on green infrastructure in relation to people’s motivation in order to engage in pro-environmental behavior. This study employs an online survey sent to student athletes at Arizona State University followed up by an semi-constructed interview to understand what kind of access these athletes had to green infrastructure while growing up, how much they value the environment today, and whether or not they attribute their current perceptions of the environment to their childhood access to green infrastructure. Findings suggest that there may be a relationship between student athletes’ access to green infrastructure and a higher value of the environment but only in those who are knowledgeable about how green infrastructure can impact the human population. By showing a possible correlation between access to green infrastructure and motivation to conserve the environment, this study shows the importance of environmental design and how the built environment influences people’s perceptions and behavior toward environmental sustainability.
There are unfortunately very few curricular guides that focus on community engagement within the higher education of landscape architecture. A Beginner’s Guide to Community Engagement in the Curriculum of Landscape Architecture and Urban Planning to Improve Social Justice and Sustainability helps resolve this issue and serves as a resource to students, educators, designers, and more. The guide centralizes a diverse collection of resources, guides students through learning materials, shares insight, and proposes potential community engagement methods. The booklet aims to help readers understand the importance of community engagement in design and shares different curricular approaches to introduce the work to students.
Urban heat island effect is caused by the built environment and impervious surfaces in urban areas causing the local air temperature to be significantly higher than that of near-by rural areas. This effect continues to worsen and spread nationwide as urban sprawl increases through land development. As more land gets paved over, more heat energy is produced and radiated into the local atmosphere. In Phoenix, urban heat island effect is expected to be the most prominent when the city has been the fastest growing metro area in the United States in this decade and continues to grow at a rapid pace. As urban heat island effects increase, climate change caused by anthropogenic activities continues to worsen. This causes drought conditions to worsen all across the American Southwest. California was the first state to enact water restrictions in response to the current drought conditions in 2015, with Nevada and Colorado following in 2021 in efforts to preserve water. Sustainable urban water systems management and design have been an emerging research area. One of the most effective systems being the reuse of greywater in irrigation. With this use of greywater for all outdoor water needs, excluding swimming pools, there is the ability to use equal amounts of outdoor water as indoor water. This increases the amount of available water for all landscaping. With increased amounts of available water, plants and vegetation will most often grow fast and larger. Larger and healthier vegetation both increase shade as well as evaporative-transpiration. Both of these can decrease the local air temperature. This research aims to investigate if and how the reuse of greywater for landscape irrigation can ultimately lead to cooler air temperatures, decreasing the urban heat island effect. In Spring 2022, I partnered with a local landscape architecture firm to examine a case study of a pilot greywater reuse system. The pilot was the basis for a larger greywater reuse system integrated into a multifamily apartment complex, currently under construction, in downtown Phoenix.