Honors thesis students with Geography Department. L-R: Professors Madeline Hamlin, Peter Klepeis, Daisaku Yamamoto, William Meyer, Emily Mitchell-Eaton, Tingkuan Hsieh '24, Professor Mike Loranty, Garrett Kalter '24, Professors Adam Burnett and Teo Ballvé.
Seniors Tingkuan Hsieh and Garrett Kalter presented honors projects on May 5, 2024.
Tingkuan Hsieh's thesis was titled "Examining Lawnscape Decision-Making Processes within Higher Education Institutions."
Abstract
The emergence of global sustainability discourse has drastically shifted the functionality and design of landscapes in higher education institutions (HEIs). In particular, lawn spaces (lawnscapes) are commonly neglected, following traditional management practices instead of adapting to new concerns. This thesis investigates the relationship between institutional landscape management and stakeholder perceptions, focusing on Â鶹Porn as a case study. It addresses the gap in research concerning how HEIs manage their lawnscapes, particularly, when considering the needs and preferences of stakeholders, such as students, faculty, staff, and administrators. Using participatory GIS methods and drawing on Actor-Network Theory, the study exposes how stakeholders perceive the aesthetics and management of campus lawn spaces. By shifting the focus from purely ecological concerns to encompass socio-cultural dynamics, the research informs more holistic and student-centered landscape management strategies within HEIs, contributing to sustainable and inclusive campus environments.
Garrett Kalter's thesis was titled "Comparative Analysis of Heat Vulnerability and Response Strategies in Phoenix, Arizona, and Seattle, Washington."
Abstract
Heat is the most fatal environmental hazard and as such poses significant risks to public health. Seattle experiences excess mortality from heat at far lower temperatures compared to Phoenix, necessitating an investigation into this disparity. This study constructs a Heat Vulnerability Index (HVI) to analyze socioeconomic variables, assess cooling center accessibility, and evaluate government response plans. The HVI examination reveals similar vulnerability levels across Seattle and Phoenix, challenging conventional assumptions despite climate and demographic differences. Despite having fewer cooling center facilities than Phoenix, Seattle demonstrates broader coverage of cooling centers. Analysis of government response plans highlights Seattle's recent implementation efforts and Phoenix's comprehensive strategy. These findings offer insights into the complex dynamics of heat vulnerability and response mechanisms. By exploring the factors influencing vulnerability, this study contributes to discussions on climate resilience and public health adaptation strategies.
Congratulations to both presenters for receiving honors recognition.