Environmental Health

2002

Mun S Ho, Dale W Jorgenson, and Wenhua Di. 2002. “Pollution taxes and public health.” In Economics of the Environment in China, edited by Jeremy J. Warford and Yi Ning Li. Bethesda, MD: Aileen International Press.

Jonathan I Levy, Scott K. Wolff, and John S Evans. 2002. “A regression-based approach for estimating primary and secondary particulate matter intake fractions.” Risk Analysis, 22, 5, Pp. 893-901. Publisher's Version Abstract

One of the common challenges for life cycle impact assessment and risk assessment is the need to estimate the population exposures associated with emissions. The concept of intake fraction (a unitless term representing the fraction of material or its precursor released from a source that is eventually inhaled or ingested) can be used when limited site data are available or the number of sources to model is large. Although studies have estimated intake fractions for some pollutant‐source combinations, there is a need to quickly and accurately estimate intake fractions for sources and settings not previously evaluated. It would be expected that limited source or site information could be used to yield intake fraction estimates with reasonable accuracy. To test this theory, we developed regression models to predict intake fractions previously estimated for primary fine particles (PM_2.5) and secondary sulfate and nitrate particles from power plants and mobile sources in the United States. Our regression models were able to predict pollutant‐specific intake fractions with R² between 0.53 and 0.86 and equations that reflected expected relationships (e.g., intake fraction increased with population density, stack height influenced the intake fraction of primary but not secondary particles). Further analysis would be needed to generalize beyond this case study and construct models applicable across source categories and settings, but our analysis demonstrates that inclusion of a limited number of parameters can significantly reduce the uncertainty in population‐average exposure estimates.

2001

Scott A. Venners, Binyan Wang, Jiatong Ni, Yongtang Jin, Jianhua Yang, Zhian Fang, and Xiping Xu. 2001. “Indoor air pollution and respiratory health in urban and rural China.” International Journal of Occupational and Environmental Health , 7, 3, Pp. 173-181. Publisher's Version Abstract

During the summer of 1999, information about respiratory health outcomes and relevant covariates was collected from 3,709 Chinese adults in Beijing, Anqing City, and rural communities in Anqing Prefecture. Indoor PM10 and SO2 were measured in a random sample of selected households. Using logistic regression and controlling for important covariates (excluding PM10 and SO2) and familial intraclass correlation, highly significant differences were found between study areas in the prevalences of chronic cough, chronic phlegm, wheeze, and shortness of breath, but not physician-diagnosed asthma. Generally, the lowest prevalence of respiratory symptoms was observed in Anqing City, a higher prevalence in rural Anqing, and the highest prevalence in Beijing. Median indoor concentrations of PM10 were similar in Anqing City (239 microg/m3) and rural Anqing (248 microg/m3), but much higher in Beijing (557 microg/m3). Median indoor concentrations of SO2 were similar in all three areas (Beijing: 14 microg/m3, Anqing City: 25 microg/m3, rural Anqing: 20 microg/m3).

2000

Z.Y. Xu, D.Q. Yu, L.B. Jing, and X.P. Xu. 2000. “Air pollution and daily mortality in Shenyang, China.” Archives of Environmental Health, 55, 2, Pp. 115-120. Publisher's Version Abstract

The authors analyzed daily mortality data in Shenyang, China, for calendar year 1992 to identify possible associations with ambient sulfur dioxide and total suspended particulates. Both total suspended particulate concentrations (mean = 430 μmlg/m³, maximum = 1,141 μmlg/m³) and sulfur dioxide concentrations (mean 197 = μmlg/m³, maximum = 659 μmlg/m³) far exceeded the World Health Organization's recommended criteria. An average of 45.5 persons died each day. The lagged moving averages of air-pollution levels, calculated as the mean of the nonmissing air-pollution levels of the concurrent and 3 preceding days, were used for all analyses. Locally weighted regression analysis, including temperature, humidity, day of week, and a time variable, showed a positive association between daily mortality and both total suspended particulates and sulfur dioxide. When the authors included total suspended particulates and sulfur dioxide separately in the model, both were highly significant predictors of daily mortality. The risk of all-cause mortality increased by an estimated 1.7% and 2.4% with a 100-μmlg/m³ concomitant increase in total suspended particulate and sulfur dioxide, respectively. When the authors analyzed mortality separately by cause of death, the association with total suspended particulates was significant for cardiovascular disease (2.1%), but not statistically significant for chronic obstructive pulmonary diseases (2.6%). In contrast, the association with sulfur dioxide was significant for chronic obstructive pulmonary diseases (7.4%), but not for cardiovascular disease (1.8%). The mortality from cancer was not associated significantly with total suspended particles or with sulfur dioxide. The correlation between sulfur dioxide and total suspended particulates was high (correlation coefficient = .66). When the authors included sulfur dioxide and total suspended particulates simultaneously in the model, the association between total suspended particulates and mortality from all causes and cardiovascular diseases remained significant. Sulfur dioxide was associated significantly with increased mortality from chronic obstructive pulmonary diseases and other causes. The results of the current study reveal increased mortality associated with both total suspended particulates and sulfur dioxide.

1999

B.Y. Wang, Z.G. Peng, X.B. Zhang, Y. Xu, H.J. Wang, G. Allen, L.H. Wang, and X.P. Xu. 1999. “Particulate matter, sulfur dioxide, and pulmonary function in never-smoking adults in Chongqing, China.” International Journal of Occupational and Environmental Health , 5, 1, Pp. 14-19. Publisher's Version Abstract

Chongquing is one of the most polluted cities in China. To study the respiratory health effects of air pollution for this city, the authors monitored the ambient levels of particulate matter (PM2.5) and sulfur dioxide (SO2) in urban and suburban areas and performed pulmonary function testing on 1,075 adults 35 to 60 years of age who had never smoked and did not use coal stoves for cooking or heating. The mean concentration of SO2 in the urban areas (213 micrograms/m3) was twice as high as that in suburban areas (103 micrograms/m3). Mean PM2.5 levels were high in both urban (143 micrograms/m3) and suburban (139 micrograms/m3) areas. A generalized additive model was used to estimate the differences between the two areas in FEV1, FVC, and FEV1/FVC%, with adjustment for potential confounding factors, including sex, age, height, education, passive smoking, and occupational exposures to dust, gas, or fumes. Estimated differences in FEV1 between the urban and suburban areas were 199 mL (SE = 50 mL) for men and 87 mL (SE = 30 mL) for women, both statistically significant. When the men and women were pooled, the estimated difference in FEV1 was 126 mL (SE = 27 mL). Similar trends were observed for FVC and FEV1/FVC%. After exclusion of 104 subjects with histories of occupational exposures to dust, gas, or fumes, the estimated difference was some-what smaller than that of the total samples. However, the effects on FEV1 and FEV1/FVC% remained significant for both men and women.

1998

X.P. Xu. 1998. “Air pollution and its health effects in urban China.” In Energizing China: Reconciling Environmental Protection and Economic Growth, edited by M.B. McElroy, C.P. Nielsen, P. Lydon, and eds.. Cambridge, MA: HUCE/Harvard University Press. Publisher's Version Abstract

As China develops its booming, fossil fuel-powered economy, is it taking lessons from the history of Western industrialization and the unforeseen environmental harms that accompanied it? Given the risks of climate change, is there an imperative, shared responsibility to help China respond to the environmental effects of its coal dependence? By linking global hazards to local air pollution concerns—from indoor stove smoke to burgeoning ground-level ozone—this volume of eighteen studies seeks integrated strategies to address simultaneously a range of harmful emissions. Counterbalancing the scientific inquiry are key chapters on China’s unique legal, institutional, political, and cultural factors in effective pollution control.

Energizing China, the stage-setting publication of an ongoing program of Harvard–China research collaboration, is distinguished by its conceptual breadth and spirit of exchange. Its contributors include twenty-two Western and seventeen Chinese scholars with a disciplinary reach that includes science, public health, engineering, economics, public policy, law, business, and China studies.

1998. Energizing China: Reconciling Environmental Protection and Economic Growth. Cambridge, MA: HUCE/Harvard University Press. Publisher's Version Abstract

R.C. Peng, L.H. Wang, H. Wang, K.B. He, and X.P. Xu. 1998. “Indoor air pollution from residential energy use in China.” In Energizing China: Reconciling Environmental Protection and Economic Growth, edited by M.B. McElroy, C.P. Nielsen, P. Lydon, and eds.. Cambridge, MA: HUCE/Harvard University Press. Publisher's Version Abstract

Environmental Health

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