Essays on Environmental and Health Economics


Autoria(s): Zhai, Muxin
Contribuinte(s)

Halvorsen, Robert

Data(s)

14/07/2016

01/06/2016

Resumo

Thesis (Ph.D.)--University of Washington, 2016-06

This dissertation examines the linkages between public policy, environment and human health. The first chapter evaluates the environmental impact of the world’s largest Low Emission Zone (LEZ) in London. The second chapter reviews recent literature in assessing the health effects of air pollution, and at the same time, provides a national scale estimation on the impacts of four “criteria air pollutants” on fetal health using natality data in the United States from 1991 to 2008. The third chapter explores fetal sensitivity to different air pollution thresholds and analyzes the heterogeneous effects of air pollution across socioeconomic groups. Chapter one concerns the environmental impact of the world’s largest LEZ introduced in London in early 2008. The LEZ policy restricts heavily polluting diesel vehicles from entering Greater London by charging 100 to 200 euros per day. The empirical estimation relies on a difference-in-differences (DID) method that compares the air pollution concentrations before and after the introduction of the LEZ. Using daily level particulate matter (PM10) and nitrogen dioxide (NO2) data, I find that the initial phase of London’s LEZ does not lead to substantially reduced air pollution inside London. The subsequent phases, on the other hand, generate an 8 to 13 percent reduction of air pollution. A further spatial analysis shows that a majority of this air pollution reduction occurs in industrial instead of roadside areas. Combining data from traffic sectors, I provide evidence that the insignificant DID estimator in the initial phase is partially caused by the positive spillover effects nearby and far from Greater London. I supplement this result with evidence showing that drivers may substitute toward a non-subject vehicle to avoid paying the LEZ fee inside the zone. Chapter two provides a thorough literature review on the health impact of direct and indirect exposures to air pollution. The reviewed articles span the fields of epidemiology, environmental health, medical science and economics. For each reviewed article, I discuss in detail the identification strategies, which include quasi-experimental design, instrumental variables approach and difference-in-differences method. The estimation results, however, show some degree of inconsistency. Motivated by the literature gap, the rest of Chapter 2 performs a comprehensive analysis on the health effect of maternal exposure to air pollution using data from over 20 million births in the United States from 1991 to 2008. For the four “criteria air pollutants” studied, carbon monoxide imposes the greatest health risk on fetuses during the first and third trimesters. Nitrogen dioxide, ozone and sulfur dioxide each shows some adverse effects on birth outcome, but their impacts are weaker than those of carbon monoxide. In addition, I find that maternal avoidance behaviors against air pollution may largely reduce the health risks of air pollution, especially for pre-term babies during the second trimester. Chapter three constructs an innovative pollution index to empirically investigate whether there exists a “safety threshold” of air pollution. The econometric model is constructed based on the traditional approach but has an important revision on the key regressor. Specifically, a series of hypothetical “safety thresholds” are tested against the assumption that only pollution ranging above the threshold will convey explanatory power on health outcomes. The model is estimated using individual-level birth data in the U.S. from 1991 to 2008. Among the four pollutants analyzed, carbon monoxide imposes significant health risks even if its concentration approaches zero, whereas nitrogen dioxide, ozone and sulfur dioxide do not affect fetal health conditions unless their concentrations rise above certain thresholds. According to my estimation, the thresholds that generate the most sensitive changes of fetal birth weight are about 15.30 ppb for nitrogen dioxide, 0.029 ppm for ozone and 13.4 ppb for sulfur dioxide, all at the weekly average level. Meanwhile, the analysis also implies the existence of heterogeneity in the responsiveness to air pollution across different socioeconomic groups. In particular, smoking mothers giving subsequent births are found to be at high risk of environmental hazards.

Formato

application/pdf

Identificador

Zhai_washington_0250E_15975.pdf

http://hdl.handle.net/1773/36563

Idioma(s)

en_US

Palavras-Chave #Economics #economics
Tipo

Thesis