Research
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Job Market Paper: The Economics of Eliminating Plastic Water Bottles in the United States
Abstract: As of the most recent 2018 data, U.S. residents purchased more than 70 billion plastic water bottles. On average, this amounts to each U.S. resident buying 214 plastic water bottles during 2018. Virtually all these bottles are manufactured as fossil fuel-based products, and 86 percent are disposed of after only one use. Such fossil fuel-based single-use plastic bottles inflict a range of severe negative impacts on the environment and human health. They leach toxic chemicals into the soil, water and food supply, which in turn contribute to causing various types of cancers as well as infertility, in humans and other species. They also release tiny ‘microplastic’ particles, which have been found in, among other parts of the human body, the carotid artery tissues that supply blood to the brain. Recent research has found that people with microplastics in their carotid artery tissues were twice as likely to have a heart attack, stroke or die from any cause over the next three years than people who had none. Beyond this, plastic bottles litter beaches and roadways, clog water drains, strangle animals and contaminate habitats.
It is clear that continuing, and expanding, the consumption of single-use fossil fuel-based plastic water bottles, in the U.S. and elsewhere, is unsustainable. In this study, I examine alternative approaches to phasing out their use. More specifically I consider six possible alternatives to single-use fossil fuel-based plastic water bottles within the U.S. economy. These include: recycling fossil-fuel based bottles; utilizing plants as the raw material for producing ‘bioplastic’ bottles; and producing bottles with materials other than plastics, including paperboard cartons; glass; aluminum; and stainless steel. Of these alternatives, I show that, in terms of both environmental impacts and production costs, the most viable substitutes for single-use fossil-fuel based plastic bottles are reusable bottles made from either aluminum or stainless steel. Overall, aluminum or stainless steel-based bottles can significantly reduce the environmental impacts of water bottles, in particular the chemical toxicity that results from their use. Substituting aluminum or stainless steel-based bottles can also dramatically reduce the levels of waste and raw material extraction associated with fossil fuel-based plastic bottles. Further, I estimate that the costs of producing bottles from either aluminum or stainless steel will fall by over 30 percent in a scenario in which they substitute for 90 percent of the fossil fuel-based single-use plastic bottles now being consumed in the U.S. Overall, my results demonstrate that there are realistic prospects to achieve major environmental and economic benefits through phasing out single-use plastic bottles and creating viable alternatives to their continued use.
Publications:
Working Papers
Diaz-Loar, Emily Petra. “The Economics of Eliminating Plastic Water Bottles”. Political Economy Research Institute, Working Paper. Link.
Journal Publications
Mathews, L. G., Hamilton, L., Diaz-Loar, E.P., Whitlock, C., Eichenlaub, B., and Vicenty, T. “The Contributions of Undergraduate Research Experiences to Skill and Career Development: A Multi-Institutional Analysis,” NACTA Journal, (2019).
Diaz-Loar, Emily Petra. “What do UNC Asheville Alumni Think About Their Undergraduate Research Experiences?.” 2016 NCUR (2016).
For more information about my research experience, please see my curriculum vitae.