Abstract

 
 
 This paper assesses the threat that ambient air pollution poses to urban public health and the potential role of urban vegetation to mitigate those threats. Air pollution is a major global risk to health, especially in urban areas. In this paper, four major air pollutants were assessed: particulate matter, tropospheric ozone, nitrogen dioxide, and sulfur dioxide. These pollutants were found to have several adverse effects, including increasing mortality and respiratory morbidity. These pollutants come from a variety of sources, but a major contributor in urban areas is the burning of fossil fuels in automobiles. The adverse health effects of pollution are expected to grow as climate change worsens air quality. Research and case studies find that urban vegetation can filter air and remove pollutants through deposition and stomatal uptake. The effectiveness of air pollution removal is dependent upon specific variables, including leaf characteristics, type of vegetation, and seasons. Urban vegetation may worsen air quality in some cases due to slowing ventilation and producing biological volatile organic compounds. While urban vegetation has potential to mitigate ambient air pollution, conducting site specific research is needed when implementing greenspace policies.
 
 
Highlights
Air pollution represents the most significant environmental risk to health (World Health Organization [World Health Organisation (WHO)], 2016)
Approximately 90% of the population lives in a region that does not achieve WHO air quality guidelines
Ambient air pollution is estimated to lead to the death of over 3 million people annually (WHO, 2016)
Summary
Air pollution represents the most significant environmental risk to health (World Health Organization [WHO], 2016). Nitrogen dioxide remains a dangerous pollutant because it can lead to the production of ground-level ozone and particulate matter, which have demonstrated significant negative health impacts. Vegetation has a natural ability to filter pollutants, including particulate matter, tropospheric ozone, nitrogen dioxide, and sulfur dioxide (Zupancic et al, 2015). Green buildings were found to have a significant effect on air pollution mitigation, as evidenced by a study of eight green roof experiments finding that the average nitrogen dioxide concentration was reduced by 49% (Zupancic et al, 2015). Locating street trees further apart may increase the effectiveness of trees in urban canyons (Shaneyfelt et al, 2017)
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