You are not currently logged in.
Access JSTOR through your library or other institution:
If You Use a Screen ReaderThis content is available through Read Online (Free) program, which relies on page scans. Since scans are not currently available to screen readers, please contact JSTOR User Support for access. We'll provide a PDF copy for your screen reader.
The Exposure-Response Curve for Ozone and Risk of Mortality and the Adequacy of Current Ozone Regulations
Michelle L. Bell, Roger D. Peng and Francesca Dominici
Environmental Health Perspectives
Vol. 114, No. 4 (Apr., 2006), pp. 532-536
Published by: The National Institute of Environmental Health Sciences
Stable URL: http://www.jstor.org/stable/3650933
Page Count: 5
You can always find the topics here!Topics: Mortality, Ozone, Air pollution, Environmental agencies, Dose response relationship, Government regulation, Particulate matter, Low concentrations, United States environmental policy, Air quality
Were these topics helpful?See somethings inaccurate? Let us know!
Select the topics that are inaccurate.
Since scans are not currently available to screen readers, please contact JSTOR User Support for access. We'll provide a PDF copy for your screen reader.
Preview not available
Time-series analyses have shown that ozone is associated with increased risk of premature mortality, but little is known about how O3 affects health at low concentrations. A critical scientific and policy question is whether a threshold level exists below which O3 does not adversely affect mortality. We developed and applied several statistical models to data on air pollution, weather, and mortality for 98 U.S. urban communities for the period 1987-2000 to estimate the exposure-response curve for tropospheric O3 and risk of mortality and to evaluate whether a "safe" threshold level exists. Methods included a linear approach and subset, threshold, and spline models. All results indicate that any threshold would exist at very low concentrations, far below current U.S. and international regulations and nearing background levels. For example, under a scenario in which the U.S. Environmental Protection Agency's 8-hr regulation is met every day in each community, there was still a 0.30% increase in mortality per 10-ppb increase in the average of the same and previous days' O3 levels (95% posterior interval, 0.15-0.45%). Our findings indicate that even low levels of tropospheric O3 are associated with increased risk of premature mortality. Interventions to further reduce O3 pollution would benefit public health, even in regions that meet current regulatory standards and guidelines.
Environmental Health Perspectives © 2006 The National Institute of Environmental Health Sciences