The Dangers of Tropospheric Ozone: A Silent Threat to Health and the Environment
Carbon Drawdown Ground-Level Ozone

by Daniel Brouse
September 17, 2024

Tropospheric ozone, often referred to as low-level ozone, is a harmful form of ozone caused primarily by human activity. Unlike stratospheric ozone, which protects us from the sun's harmful ultraviolet rays, tropospheric ozone is considered "bad ozone" due to its detrimental effects on both human health and the environment. It contributes to respiratory problems, kills plants, and causes a cascade of destructive impacts.

As the National Center for Atmospheric Research explains, "Tropospheric ozone is formed by the interaction of sunlight, particularly ultraviolet light, with hydrocarbons and nitrogen oxides, which are emitted by automobiles, gasoline vapors, fossil fuel power plants, refineries, and certain other industries." Essentially, human-induced activities are the primary drivers of its formation.

A Magnifying Glass and Explosive Reactions
You could imagine this phenomenon as creating a giant magnifying glass over the Earth, intensifying harmful sunlight exposure while simultaneously generating countless tiny explosive charges -- potential chemical reactions -- near the Earth's surface. On hot, sunny days, these reactions increase, resulting in numerous "bangs" of ozone formation. Reducing the intensity of this magnifying effect or minimizing the sources of these potential reactions would, in turn, decrease the amount of bad ozone (tropospheric ozone) being created.

The Devastating Health Effects of Tropospheric Ozone
Tropospheric ozone primarily affects the respiratory and immune systems in humans. The damage it causes is both permanent and untreatable, often resulting in death. According to the Santa Barbara County Air Pollution Control District, "Roughly one out of three people in the U.S. is at risk of experiencing ozone-related health effects." The risk is especially high for children, the elderly, and those with pre-existing conditions like asthma or chronic lung diseases.

Ozone exposure acts like a million tiny explosions going off in the lungs, damaging tissue and leading to long-term respiratory problems. The consequences extend beyond humans, with ozone also destroying plants and animals, essentially accelerating the breakdown of living matter into carbon by-products.

New Research on Ozone's Impact on Tropical Forests
A study published in Nature Geoscience in September 2024, titled Reduced productivity and carbon drawdown of tropical forests from ground-level ozone exposure, highlights the extensive damage caused by tropospheric ozone. The research shows that elevated ground-level ozone -- primarily generated by human activity -- severely diminishes plant productivity and reduces the ability of forests to absorb carbon. Unfortunately, trimming back dead parts of a tree won't extend its longevity, as the damage from ozone is systemic and affects the tree's overall health.

The researchers experimentally measured the ozone susceptibility of various tropical tree species and incorporated this data into a dynamic global vegetation model. Their findings are alarming: they estimate that human-derived ozone causes a substantial decline in net primary productivity (NPP) across all tropical forests, with regions like Asia experiencing losses of up to 10.9%. This reduction in productivity translates into a cumulative loss of 0.29 petagrams of carbon (PgC) per year, equating to roughly 17% of the tropical land carbon sink since 2000. Ozone, therefore, not only harms human health but also disrupts critical natural processes that help mitigate climate change by removing carbon dioxide from the atmosphere.

Ozone and the Biofuel Paradox: Ethanol's Role in Pollution
One of the more troubling contributors to tropospheric ozone is the increased use of ethanol in gasoline. Over the past few years, ethanol has become a mandated additive to gasoline blends, touted as a cleaner alternative to traditional fossil fuels. For example, in Pennsylvania, a 10% ethanol blend in gasoline and a 30% ethanol blend in diesel fuel are required to reduce harmful emissions. However, this practice has resulted in unintended consequences -- specifically, the creation of more ozone.

As early as 1999, scientists and environmentalists began questioning ethanol's role in ozone creation. A report by David Morris and Jack Brondum of the Institute for Local Self-Reliance in 2000 acknowledged ethanol's benefits but also raised concerns. "Ethanol is an attractive fuel with many undisputed environmental and economic development benefits. Yet it suffers from one disadvantage: it raises the volatility of gasoline."

This increased volatility leads to greater emissions of hydrocarbons, which in turn form more ozone when exposed to sunlight. Environmentalists feared that increased hydrocarbon emissions would lead to heightened ozone levels and pose a serious public health risk.

Despite these concerns, ethanol received widespread support from those advocating for biofuels, and it was exempted from certain clean air emissions standards. In 1994, California engaged in a legal battle with the EPA over ethanol's contribution to ozone pollution. EPA spokesman John Millett noted that if ethanol was shown to exacerbate air quality issues, a waiver could be granted, but the evidence was still being carefully analyzed.

The 2007 Study: Ethanol's Harmful Air Pollution
A 2007 study by Mark Jacobson from Stanford University's civil and environmental engineering department further solidified the case against ethanol. Jacobson found that using ethanol as a fuel additive was not as environmentally friendly as previously believed. "It's not green in terms of air pollution," he said. "If you want to use ethanol, fine, but don't do it based on health grounds. It's no better than gasoline, apparently slightly worse. You are really spreading out pollution over a larger area."

Jacobson's study revealed that ethanol's contribution to ozone pollution could lead to an estimated 5% increase in ozone-related deaths annually. While ethanol reduces some types of pollutants, its overall impact on ozone formation and the associated health risks is concerning.

Conclusion: The Urgent Need for Smarter Solutions
Tropospheric ozone poses a significant threat to both human health and the environment, exacerbated by well-meaning but flawed solutions like ethanol fuel additives. As new research continues to uncover the far-reaching effects of ozone on everything from lung health to tropical forest productivity, it's clear that more effective strategies are needed. Reducing ozone formation through better regulation of emissions and reconsidering the widespread use of biofuel additives like ethanol will be essential steps in mitigating this invisible, yet deadly, threat.

ALSO SEE:
Climate Change: Unintended Consequences
Death By Ozone
The Ozone Know Zone
Tropospheric Ozone = Bad Ozone
Gasoline Plus Ethanol Equals Bad Ozone
The Decline of Penn's Sylvania

The Human Induced Climate Change Experiment

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