Many people use public transportation in their daily lives, which is often praised at as a healthy and sustainable choice to make. However, in extreme temperatures this also puts people at a greater risk for negative consequences resulting from such exposure to heat. In Phoenix, public transportation riders are faced with extreme heat in the summer along with the increased internal heat production caused by the physical activity required to use public transportation. In this study, I estimated total exposure and average exposure per rider for six stops in Phoenix. To do this I used City of Phoenix ridership data, weather data, and survey responses from an ASU City of Phoenix Bus Stop Survey conducted in summer 2016. These data sets were combined by multiplying different metrics to produce various exposure values. During analysis two sets of calculations were made. One keeping weather constant and another keeping ridership constant. I found that there was a large range of exposure between the selected stops and that the thermal environment influences the amount of exposure depending on the time of day the exposure is occurring. During the morning a greener location leads to less exposure, while in the afternoon an urban location leads to less exposure. Know detailed information about exposure at these stops I was also able to evaluate survey participants' thermal comfort at each stop and how it may relate to exposure. These findings are useful in making educated transportation planning decisions and improving the quality of life for people living in places with extreme summer temperatures.
This report summarizes the proceedings of the workshop focusing primarily on two sessions: the first related to social vulnerability mapping and the second related to the identification and prioritization of interventions necessary to address the impacts of climate-sensitive hazards.
To address the dearth of knowledge about person-based and trip-level exposure, we developed the Icarus model. Icarus uses mesoscale traffic model—activity-based model—to analyze the heat exposure of regions of interest at an individual level. The goal with Icarus was to design accurate, granular models of population and temperature behavior for a target region, which could be transformed into a heat exposure model by means of simulation and spatial-temporal joining. By combining and implementing the most robust software and data available, Icarus was able to capture person-based exposure with unparalleled detail. Here we describe the model methodology. We use the metropolitan region of Phoenix, Arizona, USA to carry out a case study using Icarus.
This study addresses the social and physical constraints and opportunities for South Mountain Village, particularly along the Rio Salado as it intersects with the proposed light rail extension on Central Avenue. The primary goals guiding this document are ecological restoration, social and physical connectivity, maintenance, management, development and future planning. This study discusses the history of the Rio Salado riparian area, analyses current riparian conditions, and provides context from similar cases both locally and nationally.
It has been demonstrated that access to recreational opportunities can improve the livelihood and reduce negative health effects for residents nearby. With this in mind, the physical connectivity of South Mountain residents is assessed to determine the degree of accessibility to recreational areas of the Rio Salado. This analysis will also be used to address areas in which residents do not have equitable access and will be used to guide recommendations to increase that access. Additionally, as growth occurs, existing social vulnerability concerns are addressed in regard to marginalized populations relying on the area’s ecological and grey infrastructure for refuge.
As the Rio Salado 2.0 Project and the Valley Metro South Central light rail extension begins construction and the opportunity to develop increases, residents and business owners are concerned that redevelopment will affect the integrity and connectivity of the area. This study outlines how these changes may affect stakeholders while keeping the area accessible and equitable for all. Evaluation of the sites and parcels surrounding the Rio Salado for future development while taking into account its rich history and needs of the community is important for the community and the City of Phoenix as a whole. This study incorporates concepts from the Rio Salado Beyond the Banks Area Plan and other existing plans and regulations for the area. This study aims to provide a roadmap for future development along the Rio Salado at South Mountain Village in a sustainable and equitable way.