Ozone and Daily Mortality in Shanghai, China

Zhang, Yunhui; Huang, Wei; London, Stephanie J.; Song, Guang-Jing; Chen, Guohai; Jiang, Lili; Zhao, Na; Chen, Bingheng; Kan, Haidong

doi:10.1289/ehp.9014

Cited by 143 publications

(81 citation statements)

References 42 publications

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“…However, this study did not find any evidence that individual characteristics and socioeconomic levels modified associations between ozone and mortality. In contrast, we find the people aged 35-64 experienced similar risk of death due to ozone exposure, which was different from findings from other studies [1,21,[31][32][33].…”

Section: Discussioncontrasting

confidence: 99%

Modifiers of Short-Term Effects of Ozone on Mortality in the Eastern Massachusetts—A Case-Crossover Analysis at Individual Level

2009

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The Harvard community has made this article openly available. Please share how this access benefits you. Your story matters. Results: A 10 ppb increase in the four-day moving average of maximal 8-hour ozone was associated with 1.68% (95% confidence interval (CI): 0.51%, 2.87%), 1.96% (95% CI: -1.83%, 5.90%), 8.28% (95% CI: 0.66%, 16.48%), 0.44% (95% CI: -1.45%, 2.37%), -0.83% (95% CI: -2.94%, 1.32%), -1.09% (95% CI: -4.27%, 2.19%) and 6.5% (95% CI: 1.74%, 11.49%) changes in all natural deaths, respiratory disorders, diabetes, cardiovascular diseases, heart diseases, acute myocardial infarction and stroke, respectively. We did not find any evidence that the associations were significantly modified by socioeconomic status or individual characteristics although small differences of estimates across subpopulations were demonstrated. Conclusions: Exposure to ozone was associated with specific cause mortality in Eastern Massachusetts during MaySeptember, 1995MaySeptember, -2002. There was no evidence that effects of ozone on mortality were significantly modified by socioeconomic status and individual characteristics.

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Section: Discussioncontrasting

confidence: 99%

Modifiers of Short-Term Effects of Ozone on Mortality in the Eastern Massachusetts—A Case-Crossover Analysis at Individual Level

2009

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“…A growing body of epidemiological and modeling evidence supports that global warming coupled with ozone and PM exposures could exacerbate the prevalence and severity of human cardio-respiratory disease and mortality. Given the large segment of the population exposed to outdoor air pollutants, a relatively modest increase in mortality and morbidity estimated from current modeling projections could translate into a substantial number of individuals at risk (Patz et al, 2005;Zhang et al, 2006). Certain subpopulations, especially the elderly, infants and children, and individuals with pre-existing health conditions, such as chronic cardiopulmonary and immunological diseases, may be especially susceptible to these adverse interactions (Ebi et al, 2006;Oberdörster, 2001;Patz et al, 2000a;Pope, 2000).…”

Section: Discussionmentioning

confidence: 99%

The toxicology of climate change: Environmental contaminants in a warming world

Noyes

McElwee

Miller

et al. 2009

Environment International

969

569

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Climate change induced by anthropogenic warming of the earth's atmosphere is a daunting problem. This review examines one of the consequences of climate change that has only recently attracted attention: namely, the effects of climate change on the environmental distribution and toxicity of chemical pollutants. A review was undertaken of the scientific literature (original research articles, reviews, government and intergovernmental reports) focusing on the interactions of toxicants with the environmental parameters, temperature, precipitation, and salinity, as altered by climate change. Three broad classes of chemical toxicants of global significance were the focus: air pollutants, persistent organic pollutants (POPs), including some organochlorine pesticides, and other classes of pesticides. Generally, increases in temperature will enhance the toxicity of contaminants and increase concentrations of tropospheric ozone regionally, but will also likely increase rates of chemical degradation. While further research is needed, climate change coupled with air pollutant exposures may have potentially serious adverse consequences for human health in urban and polluted regions. Climate change producing alterations in: food webs, lipid dynamics, ice and snow melt, and organic carbon cycling could result in increased POP levels in water, soil, and biota. There is also compelling evidence that increasing temperatures could be deleterious to pollutant-exposed wildlife. For example, elevated water temperatures may alter the biotransformation of contaminants to more bioactive metabolites and impair homeostasis. The complex interactions between climate change and pollutants may be particularly problematic for species living at the edge of their physiological tolerance range where acclimation capacity may be limited. In addition to temperature increases, regional precipitation patterns are projected to be altered with climate change. Regions subject to decreases in precipitation may experience enhanced volatilization of POPs and pesticides to the atmosphere. Reduced precipitation will also increase air pollution in urbanized regions resulting in negative health effects, which may be exacerbated by temperature increases. Regions subject to increased precipitation will have lower levels of air pollution, but will likely experience enhanced surface deposition of airborne POPs and increased run-off of pesticides. Moreover, increases in the intensity and frequency of storm events linked to climate change could lead to more severe episodes of chemical contamination of water bodies and surrounding watersheds. Changes in salinity may affect aquatic organisms as an independent stressor as well as by altering the bioavailability and in some instances increasing the toxicity of chemicals. A paramount issue will be to identify species and populations especially vulnerable to climate-pollutant interactions, in the context of the many other physical, chemical, and biological stressors that will be altered with climate change. Moreover, it w...

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“…In a Chinese study, a significant effect of ozone on daily mortality was found in Shanghai; furthermore, O 3 pollution was found to have stronger health effects in the cold than in the warm season in the city [35].…”

Section: Omentioning

confidence: 95%