1. Ito K

Thrurston GD

Haves C

Lippmann M Associations of London, England, daily mortality with particulate matter, sulfur dioxide, and acidic aerosol pollution. Arch Environ Health. 48 : 213-220 View in Article Scopus (44)

PubMed

Crossref

Google Scholar

3. Xie S

Yu T

Zhang Y

et al. Characteristics of PM 10 , SO 2 , NO(x) and O 3 in ambient air during the dust storm period in Beijing. Sci Total Environ. 345 : 153-164 View in Article Scopus (84)

Crossref

Google Scholar

4. Xu W

Wu Q

Liu X

et al. Characteristics of ammonia, acid gases, and PM 2·5 for three typical land-use types in the North China Plain. Environ Sci Pollut Res Int. 23 : 1158-1172 View in Article Scopus (53)

Crossref

Google Scholar

5. Zhou M

Liu Y

Wang L

et al. Particulate air pollution and mortality in a cohort of Chinese men. Environ Poll. 186 : 1-6 View in Article Scopus (90)

Crossref

Google Scholar

7. GBD MAPS Working Group Burden of disease attributable to coal-burning and other major source of air pollution in China. Special report 20. Health Effects Institute , Boston, MA View in Article Google Scholar

8. Lelieveld J

Evans JS

Fnais M

et al. The contribution of outdoor air pollution sources to premature mortality on a global scale. Nature. 525 : 367-371 View in Article Scopus (1716)

PubMed

Crossref

Google Scholar

9. National Bureau of Statistics of China Basic Statistics on National Population Census in 1953, 1964, 1982, 1990, 2000 and 2010. http://www.stats.gov.cn/tjsj/Ndsj/2011/html/D0305e.htm View in Article Google Scholar

13. Tao Y

Huang W

Huang X

et al. Estimated acute effects of ambient ozone and nitrogen dioxide on mortality in the Pearl River Delta of southern China. Environ Health Perspect. 120 : 393-398 View in Article Scopus (113)

Crossref

Google Scholar

14. Liu S

Zhou Y

Wang X

et al. Biomass fuels are the probable risk factor for chronic obstructive pulmonary disease in rural South China. Thorax. 62 : 889-897 View in Article Scopus (199)

PubMed

Crossref

Google Scholar

15. Li MH

Fan LC

Mao B

et al. Short-term exposure to ambient fine particulate matter increases hospitalizations and mortality in COPD: a systematic review and meta-analysis. Chest. 149 : 447-458 View in Article Scopus (103)

Crossref

Google Scholar

16. Liu T

Zhang YH

Xu YJ

et al. The effects of dust-haze on mortality are modified by seasons and individual characteristics in Guangzhou, China. Environ Pollut. 187 : 116-123 View in Article Scopus (51)

Crossref

Google Scholar

17. Liu Z

Wang Y

Hu B

et al. Source appointment of fine particle number and volume concentration during severe haze pollution in Beijing in January 2013. Environ Sci Pollut Res Int. 23 : 6845-6860 View in Article Scopus (26)

Crossref

Google Scholar

18. Zhang J

Samet JM Chinese haze versus western smog: lessons learned. J Thorac Dis. 7 : 3-13 View in Article Google Scholar

19. Shan J Smoking rate holds steady despite reduction efforts. http://usa.chinadaily.com.cn/epaper/2015-12/29/content_22855113.htm Date: Dec 29, 2015 View in Article Google Scholar

20. Seow WJ

Hu W

Vermeulen R

et al. Household air pollution and lung cancer in China: a review of studies in Xuanwei. Chin J Cancer. 33 : 471-475 View in Article Google Scholar

23. Ministry of Environmental Protection of the People's Republic of China Getting to know about environmental protection (in Chinese). http://www.mep.gov.cn/zjhb/ View in Article Google Scholar

25. WHO Regional Office for Europe Air quality guidelines. Global update 2005. Particulate matter, ozone, nitrogen dioxide and sulfur dioxide. World Health Organization , Copenhagen View in Article Google Scholar

27. Song Y

Wang X

Maher BA

et al. The spatial-temporal characteristics and health impacts of ambient fine particulate matter in China. J Clean Prod. 112 : 1312-1318 View in Article Scopus (55)

Crossref

Google Scholar

28. Bao J

Yang X

Zhao Z

et al. The spatial-temporal characteristics of air pollution in China from 2001–2014. Int J Environ Res Public Health. 12 : 15875-15887 View in Article Scopus (33)

Crossref

Google Scholar

29. Wang Y

Ying Q

Hu J

Zhang H Spatial and temporal variations of six criteria air pollutants in 31 provincial capital cities in China during 2013–2014. Environ Int. 73 : 413-422 View in Article Scopus (271)

Crossref

Google Scholar

30. Wang K

Tian H

Hua S

et al. A comprehensive emission inventory of multiple air pollutants from iron and steel industry in China: temporal trends and spatial variation characteristics. Sci Total Environ. 559 : 7-14 View in Article Scopus (98)

Crossref

Google Scholar

31. Tian H

Gao J

Lu L

et al. Temporal trends and spatial variation characteristics of hazardous air pollutant emission inventory from municipal solid waste incineration in China. Environ Sci Technol. 46 : 10364-10371 View in Article Google Scholar

32. Zhang Y

Guo Y

Li G

et al. The spatial characteristics of ambient particulate matter and daily mortality in the urban area of Beijing, China. Sci Total Environ. 435–36 : 14-20 View in Article Scopus (40)

Crossref

Google Scholar

33. Li L

Qian J

Ou CQ

et al. Spatial and temporal analysis of Air Pollution Index and its timescale-dependent relationship with meteorological factors in Guangzhou, China, 2001–2011. Environ Poll. 190 : 75-81 View in Article Scopus (125)

Crossref

Google Scholar

34. Zhang L

Chen R

Lv J Spatial and seasonal variations of polycyclic aeromatic hydrocarbons (PAHs) in ambient particulate matter (PM 10 , PM 2.5 ) in three mega-cities in China and identification of major contributing source types. Bull Environ Contam Toxicol. 96 : 827-832 View in Article Scopus (16)

Crossref

Google Scholar

35. Bahadar H

Mostafalou S

Abdollahi M Current understandings and perspectives on non-cancer health effects of benzene: a global concern. Toxicol Appl Pharmacol. 276 : 83-94 View in Article Scopus (98)

Crossref

Google Scholar

36. Wang ZL Association between chronic obstructive pulmonary disease and lung cancer: the missing link. Chin Med J. 126 : 154-165 View in Article PubMed

Google Scholar

38. US EPA Integrated science assessment for oxides of nitrogen—health criteria (2016 final report). US Environmental Protection Agency , Washington, DC View in Article Google Scholar

39. Xing YF

Xu YH

Shi MH

Lian YX The impact of PM 2·5 on the human respiratory system. J Thorac Dis. 8 : E69-E74 View in Article Crossref

Google Scholar

40. Huang SK

Zhang Q

Qiu Z

Chung KF Mechanistic impact of outdoor air pollution on asthma and allergic diseases. J Thorac Dis. 7 : 23-33 View in Article Google Scholar

41. Zhang Q

Qiu Z

Chung KF

Huang SK Link between environmental air pollution and allergic asthma: east meets west. J Thorac Dis. 7 : 14-22 View in Article PubMed

Google Scholar

42. Wei J

Li F

Yang J

et al. MicroRNAs are regulators of airborne pollution-induced lung inflammation and carcinogenesis. Arch Toxicol. 89 : 677-685 View in Article Scopus (18)

Crossref

Google Scholar

43. Chen ZH

Wu YF

Wang PL

et al. Autophagy is essential for ultrafine particle-induced inflammation and mucus hyperproduction in airway epithelium. Autophagy. 12 : 297-311 View in Article Scopus (84)

Crossref

Google Scholar

44. Jiang XQ

Mei XD

Feng D Air pollution and chronic airway diseases: what should people know and do?. J Thorac Dis. 8 : E31-E40 View in Article Scopus (16)

Crossref

Google Scholar

46. Liu F

Zhao Y

Liu YQ

et al. Asthma and asthma related symptoms in 23 326 Chinese children in relation to indoor and outdoor environmental factors: the Seven Northeastern Cities (SNEC) study. Sci Total Environ. 497–498 : 10-17 View in Article Scopus (36)

Crossref

Google Scholar

47. Ma YN

Zhao Y

Liu YQ

et al. Effects of indoor air pollution on asthma and asthma-related symptoms among children in Shenyang city. Zhonghua Yu Fang Yi Xue Za Zhi. 47 : 49-54 View in Article Google Scholar

48. Zhao Z

Zhang Z

Wang Z

et al. Asthmatic symptoms among pupils in relation to winter indoor and outdoor air pollution in schools in Taiyuan, China. Environ Health Perspect. 116 : 90-97 View in Article Scopus (126)

PubMed

Crossref

Google Scholar

49. Dong GH

Chen T

Liu MM

et al. Gender differences and effect of air pollution on asthma in children with and without allergic predisposition: northeast Chinese children health study. PLoS One. 6 : e22470 View in Article Scopus (65)

PubMed

Crossref

Google Scholar

50. Wong GW

Ko FW

Lau TS

et al. Temporal relationship between air pollution and hospital admissions for asthmatic children in Hong Kong. Clin Exp Allergy. 31 : 565-569 View in Article Scopus (63)

PubMed

Crossref

Google Scholar

51. Lee SL

Wong WHS

Lau YL Association between air pollution and asthma admission among children in Hong Kong. Clin Exp Allergy. 36 : 1138-1146 View in Article Scopus (103)

PubMed

Crossref

Google Scholar

52. Qiu H

Yu ITS

Tian L

et al. Effects of coarse particulate matter on emergency hospital admissions for respiratory diseases: a time-series analysis in Hong Kong. Environ Health Perspect. 120 : 572-576 View in Article Scopus (119)

PubMed

Crossref

Google Scholar

53. Ko FW

Tam W

Wong TW

et al. Effects of air pollution on asthma hospitalization rates in different age groups in Hong Kong. Clin Exp Allergy. 37 : 1312-1319 View in Article Scopus (133)

PubMed

Crossref

Google Scholar

54. Cheng MH

Cheng CC

Chiu HF

Yang CY Fine particulate air pollution and hospital admission for asthma: a case-crossover study in Taipei. J Toxicol Environ Health. 77 : 1071-1083 View in Article Scopus (30)

Crossref

Google Scholar

55. Hua J

Yin Y

Peng L

et al. Acute effects of black carbon and PM 2·5 on children asthma admissions: a time-series study in a Chinese city. Sci Total Environ. 481 : 433-438 View in Article Scopus (61)

Crossref

Google Scholar

56. Deng Q

Lu C

Norback D

et al. Early life exposure to ambient air pollution and childhood asthma in China. Environ Res. 143 : 83-92 View in Article Scopus (87)

PubMed

Crossref

Google Scholar

57. Schultz ES

Gruzieva O

Bellander T

et al. Traffic-related air pollution and lung function in children at 8 years of age: a birth cohort study. Am J Respir Crit Care Med. 186 : 1286-1291 View in Article Scopus (89)

PubMed

Crossref

Google Scholar

58. Su N

Lin J

Liu G

et al. An epidemiological survey of current asthma control status in China. Zhonghua Nei Ke Za Zhi. 53 : 601-606 View in Article Google Scholar

59. Song Q

Christiani DC

Wang X

Ren J The global contribution of outdoor air pollution to the incidence, prevalence, mortality and hospital admission for chronic obstructive pulmonary disease: a systematic review and meta-analysis. Int J Environ Res Public Health. 11 : 11822-11832 View in Article Scopus (79)

Crossref

Google Scholar

60. Chapman RS

He X

Blair AE

et al. Improvement in household stoves and risk of chronic obstructive pulmonary disease in Xuanwei, China: retrospective cohort study. BMJ. 331 : 1050 View in Article Scopus (128)

PubMed

Crossref

Google Scholar

62. Zhou Y

Zou Y

Li X

et al. Lung function and incidence of chronic obstructive pulmonary disease after improved cooking fuels and kitchen ventilation: a 9-year prospective cohort study. PLoS Med. 11 : e1001621 View in Article Scopus (85)

PubMed

Crossref

Google Scholar

64. Tam WW

Wong TW

Wong AH

et al. Effect of dust storm events on daily emergency admissions for respiratory diseases. Respirology. 17 : 143-148 View in Article Scopus (60)

PubMed

Crossref

Google Scholar

65. Ko FW

Tam W

Wong TW

et al. Temporal relationship between air pollutants and hospital admissions for chronic obstructive pulmonary disease in Hong Kong. Thorax. 62 : 780-785 View in Article Scopus (170)

PubMed

Crossref

Google Scholar

66. Kan H

Chen B A case-crossover analysis for air pollution and daily mortality in Shanghai. J Occup Health. 45 : 119-124 View in Article Scopus (72)

Crossref

Google Scholar

67. Tian L

Ho KF

Wang T

et al. Ambient carbon monoxide and the risk of hospitalization due to chronic obstructive pulmonary disease. Am J Epidemiol. 180 : 1159-1167 View in Article Scopus (38)

PubMed

Crossref

Google Scholar

68. Hansell A

Ghosh RE

Blangiardo M

et al. Historic air pollution exposure and long-term mortality risks in England and Wales: prospective longitudinal cohort study. Thorax. 71 : 330-338 View in Article Scopus (36)

Crossref

Google Scholar

69. Burnett RT

Pope 3rd, CA

Ezzati M

et al. An integrated risk function for estimating the global burden of disease attributable to ambient fine particulate matter exposure. Environ Health Perspect. 122 : 397-403 View in Article PubMed

Google Scholar

70. Chen Y

Shen G

Huang Y

et al. Household air pollution and personal exposure risk of polycyclic aromatic hydrocarbons among rural residents in Shanxi, China. Indoor Air. 26 : 246-258 View in Article Scopus (46)

Crossref

Google Scholar

72. Guo Y

Zeng H

Zheng R

et al. The association between lung cancer incidence and ambient air pollution in China: a spatiotemporal analysis. Environ Res. 144 : 60-65 View in Article Scopus (130)

Crossref

Google Scholar

73. Hosgood 3rd, HD

Wei H

Sapkota A

et al. Household coal use and lung cancer: systematic review and meta-analysis of case-control studies, with an emphasis on geographic variation. Int J Epidemiol. 40 : 719-728 View in Article Scopus (74)

PubMed

Crossref

Google Scholar

74. Mu L

Liu L

Niu R

et al. Indoor air pollution and risk of lung cancer among Chinese female non-smokers. Cancer Causes Control. 24 : 439-450 View in Article Scopus (66)

PubMed

Crossref

Google Scholar

75. Galeone C

Pelucchi C

La Vecchia C

et al. Indoor air pollution from solid fuel use, chronic lung diseases and lung cancer in Harbin, northeast China. Eur J Cancer Prev. 17 : 473-478 View in Article Scopus (31)

PubMed

Crossref

Google Scholar

76. Wang J

Chen S

Tian M

et al. Inhalation cancer risk associated with exposure to complex polycyclic aromatic hydrocarbon mixtures in an electronic waste and urban area in south China. Environ Sci Technol. 46 : 9745-9752 View in Article Scopus (88)

Crossref

Google Scholar

77. Zhang Y

Tao S

Shen H

et al. Inhalation exposure to ambient polycyclic aromatic hydrocarbons and lung cancer risk of Chinese population. Proc Natl Acad Sci USA. 106 : 21063-21067 View in Article Scopus (295)

PubMed

Crossref

Google Scholar

78. Hu W

Downward GS

Reiss B

et al. Personal and indoor PM 2·5 exposure from burning solid fuels in vented and unvented stoves in a rural region of China with a high incidence of lung cancer. Environ Sci Technol. 48 : 8456-8464 View in Article Scopus (85)

PubMed

Crossref

Google Scholar

79. Xia Z

Duan X

Tao S

et al. Pollution level, inhalation exposure and lung cancer risk of ambient atmospheric polycyclic aromatic hydrocarbons (PAHs) in Taiyuan, China. Environ Pollut. 173 : 150-156 View in Article Scopus (159)

PubMed

Crossref

Google Scholar

80. Hosgood 3rd, HD

Chapman R

Shen M

et al. Portable stove use is associated with lower lung cancer mortality risk in lifetime smoky coal users. Br J Cancer. 99 : 1934-1939 View in Article Scopus (39)

PubMed

Crossref

Google Scholar

81. He Q

Wu SL

Xu F

et al. The relationship between the potential years of life lost of lung cancer and air pollution in Wuhan. Zhonghua Liu Xing Bing Xue Za Zhi. 28 : 1175-1178 View in Article Google Scholar

82. Zhou BS

Wang TJ

Guan P

et al. Indoor air pollution and pulmonary adenocarcinoma among females: a case-control study in Shenyang, China. Oncol Rep. 7 : 1253-1259 View in Article PubMed

Google Scholar

84. Jin ZY

Wu M

Han RQ

et al. Household ventilation may reduce effects of indoor air pollutants for prevention of lung cancer: a case-control study in a Chinese population. PLoS One. 10 : e102685 View in Article Scopus (16)

Crossref

Google Scholar

85. Barone-Adesi F

Chapman RS

Silverman DT

et al. Risk of lung cancer associated with domestic use of coal in Xuanwei, China: retrospective cohort study. BMJ. 345 : e5414 View in Article Scopus (81)

PubMed

Crossref

Google Scholar

87. Downward GS

Hu W

Rothman N

et al. Polycyclic aromatic hydrocarbon exposure in household air pollution from solid fuel combustion among the female population of Xuanwei and Fuyuan counties, China. Environ Sci Technol. 48 : 14632-14641 View in Article Scopus (38)

Crossref

Google Scholar

88. Prüss-Ustün A

Wolf J

Corvalán C

Bos R

Neira M Preventing disease through healthy environments: a global assessment of the burden of disease from environmental risks. WHO , Geneva View in Article Google Scholar

89. Sun Z

An X

Tao Y

Hou Q Assessment of population exposure to PM10 for respiratory disease in Lanzhou (China) and its health-related economic costs based on GIS. BMC Public Health. 13 : 891 View in Article Scopus (28)

Crossref

Google Scholar

90. Broome RA

Fann N

Cristina TJ

et al. The health benefits of reducing air pollution in Sydney, Australia. Environ Res. 143 : 19-25 View in Article Scopus (48)

Crossref

Google Scholar

91. Royal College of Physicians of London Every breath we take: the lifelong impact of air pollution. Report of a working party. RCP , London View in Article Google Scholar

95. Zhang C Xhinhua insight: lawmakers approve China's five-year plan against economic headwinds. http://news.xinhuanet.com/english/2016-03/16/c_135194463.htm Date: March 16, 2016 View in Article Google Scholar

96. Zhou W

Yuan D

Ye S

et al. Health effects of occupational exposures to vehicle emissions in Shanghai. Int J Occup Environ Health. 7 : 23-30 View in Article Scopus (24)

Crossref

Google Scholar

97. Yan C

Zheng M

Yang Q

et al. Commuter exposure to particulate matter and particle-bound PAHs in three transportation modes in Beijing, China. Environ Pollut. 204 : 199-206 View in Article Scopus (39)

Crossref

Google Scholar

98. Cai H

Xie S Traffic-related air pollution modeling during the 2008 Beijing Olympic Games: the effects of an odd-even day traffic restriction scheme. Sci Total Environ. 409 : 1935-1948 View in Article Scopus (50)

PubMed

Crossref

Google Scholar

99. Yao Z

Zhang Y

Shen X

et al. Impacts of temporary traffic control measures on vehicular emissions during the Asian games in Guangzhou, China. J Air Waste Manag Assoc. 63 : 11-19 View in Article Scopus (26)

Crossref

Google Scholar

100. Xinhuanet China's policies and actions for addressing climate change. http://news.xinhuanet.com/english2010/china/2011-11/22/c_131262368_3.htm Date: Nov 22, 2011 View in Article Google Scholar

101. Xinhuanet China to subsidize electric, hybrid car purchases in five cities. http://news.xinhuanet.com/english2010/china/2010-06/01/c_13327814.htm Date: June 1, 2010 View in Article Google Scholar

102. Wang XM

Tian ZJ

Zhang YL Influence of fuel quality on vehicle emission and economic analysis of upgrading fuel quality in China. Zhong Guo Ke Xue Yuan Yuan Kan. 30 : 535-541 View in Article Google Scholar

103. US Energy Information Administration China consumes nearly as much coal as the rest of the world combined. http://www.eia.gov/todayinenergy/detail.cfm?id=9751 Date: Jan 29, 2013 View in Article Google Scholar

104. Zhou Y

Hu G

Wang D

et al. Community based integrated intervention for prevention and management of chronic obstructive pulmonary disease (COPD) in Guangdong, China: cluster randomised controlled trial. BMJ. 341 : c6387 View in Article Scopus (47)

PubMed

Crossref

Google Scholar

105. Shan J Smoking rate holds steady despite reduction efforts. http://usa.chinadaily.com.cn/epaper/2015-12/29/content_22855113.htm Date: Dec 29, 2015 View in Article Google Scholar

106. Clean Technica China and renewable energy: the outlook for growth. http://cleantechnica.com/2013/01/10/china-renewable-energy-the-outlook-for-growth Date: Jan 10, 2013 View in Article Google Scholar

107. Su JG

Jerrett M

Meng YY

et al. Integrating smart-phone based momentary location tracking with fixed site air quality monitoring for personal exposure assessment. Sci Total Environ. 506–07 : 518-526 View in Article Scopus (34)

Crossref

Google Scholar

108. Zhang JJ

Smith KR Household air pollution from coal and biomass fuels in China: measurements, health impacts, and interventions. Environ Health Perspect. 115 : 848-855 View in Article Scopus (458)

PubMed

Crossref

Google Scholar

109. Chen RJ

Chen BH

Kan HD The establishment and application of Shanghai air quality health index. Zhonghua Yu Fang Yi Xue Za Zhi. 46 : 443-446 View in Article Google Scholar

110. Langrish JP

Li X

Wang S

et al. Reducing personal exposure to particulate air pollution improves cardiovascular health in patients with coronary heart disease. Environ Health Perspect. 120 : 367-372 View in Article Scopus (149)

PubMed

Crossref

Google Scholar

112. Liu C

Hsu PC

Lee HW

et al. Transparent air filter for high-efficiency PM2.5 capture. Nat Comm. 6 : 6205 View in Article Scopus (391)

Crossref

Google Scholar

113. Zhang Y

Yuan S

Feng X

et al. Preparation of nanofibrous metal-organic framework filters for efficient air pollution control. J Am Chem Soc. 138 : 5785-5788 View in Article Scopus (247)

Crossref

Google Scholar

116. Dacunto PJ

Klepeis NE

Cheng KC

et al. Determining PM2.5 calibration curves for a low-cost particle monitor: common indoor residential aerosols. Environ Sci Process Impacts. 17 : 1959-1966 View in Article Crossref

Google Scholar

117. Sienra-Monqe JJ

Ramirez-Aquilar M

Moreno-Macias H

et al. Antioxidant supplementation and nasal inflammatory responses among young asthmatics exposed to high levels of ozone. Clin Exp Immunol. 138 : 317-322 View in Article Scopus (71)

Crossref

Google Scholar

118. Carlsten C

MacNutt MJ

Zhang Z

et al. Anti-oxidant N-acetylcysteine diminishes diesel exhaust-induced increased airway responsiveness in person with airway hyper-reactivity. Toxicol Sci. 139 : 479-487 View in Article Scopus (28)

PubMed

Crossref

Google Scholar

119. Dong GH

Cao Y

Ding HL

et al. Effects of environmental tobacco smoke on respiratory health of boys and girls from kindergarten: results from 15 districts of northern China. Indoor Air. 17 : 475-483 View in Article Google Scholar

120. Gan Q

Hammond SK

Jiang Y

et al. Effectiveness of smoke-free policy in lowering secondhand smoke concentrations in offices in China. J Occup Environ Med. 50 : 570-575 View in Article Scopus (15)

Crossref

Google Scholar

121. Zhou Y

Sun H

Xie J

et al. Urinary polycyclic aromatic hydrocarbon metabolites and altered lung function in Wuhan, China. Am J Respir Crit Care Med. 15 : 835-846 View in Article Scopus (45)

Crossref

Google Scholar