Analitis A, De' Donato F, Scortichini M, Lanki T, Basagana X, Ballester F, et al (2018) Synergistic Effects of Ambient Temperature and Air Pollution on Health in Europe: Results from the PHASE Project. Int J Environ Res Public Health 15(9):1856-1867
Bai L, Cirendunzhu, Woodward A, Dawa, Zhaxisangmu, Chen B, et al (2014) Temperature, hospital admissions and emergency room visits in Lhasa, Tibet: a time-series analysis. Sci Total Environ 490: 838-48.
Bind MA, Lepeule J, Zanobetti A, Gasparrini A, Baccarelli A, Coull BA, et al (2014) Air pollution and gene-specific methylation in the Normative Aging Study: association, effect modification, and mediation analysis. Epigenetics 9: 448-458.
Bollati V, Baccarelli A (2010) Environmental epigenetics. Heredity (Edinb) 105: 105-112.
Breitner S, Wolf K, Devlin RB, Diaz-Sanchez D, Peters A, Schneider A (2014) Short-term effects of air temperature on mortality and effect modification by air pollution in three cities of Bavaria, Germany: a time-series analysis. Sci Total Environ 485-486: 49-61.
CAO Ruoming CL, JIANG Chao, JING Yiming, ZHOU Lin, ZHANG Lin, LIU Shouqin (2018) Association between ambient ozone and mortality of respiratory diseases in Jinan, China: a time-series analysis. Journal of Shandong University(Health Sciences) 56: 1-7.
Checkley W, Epstein LD, Gilman RH, Figueroa D, Cama RI, Patz JA, et al (2000) Effects of EI Niño and ambient temperature on hospital admissions for diarrhoeal diseases in Peruvian children. The Lancet 355: 442-450.
CHEN Wei LY, CHEN Zheng-li, MA Gui-fang, GUO Xiao-fang, XUAN Shui-li, HE Jing-yang (2012) Analysis on Relativity between epidemic characteristics of bacillary dysentery and Meteorological factors in Henan Province in 2010. Modern Preventive Medicine 39: 5818-5820.
Cheng J, Xie MY, Zhao KF, Wu JJ, Xu ZW, Song J, et al (2017) Impacts of ambient temperature on the burden of bacillary dysentery in urban and rural Hefei, China. Epidemiol Infect 145: 1567-1576.
Gao L, Zhang Y, Ding G, Liu Q, Zhou M, Li X, et al (2014) Meteorological variables and bacillary dysentery cases in Changsha City, China. Am J Trop Med Hyg 90: 697-704.
Gordon CJ (2003) Role of environmental stress in the physiological response to chemical toxicants. Environmental Research 92: 1-7.
Hou L, Zhang X, Wang D, Baccarelli A (2012) Environmental chemical exposures and human epigenetics. Int J Epidemiol 41: 79-105.
Huang C, Barnett AG, Wang X, Tong S (2012) Effects of extreme temperatures on years of life lost for cardiovascular deaths: a time series study in Brisbane, Australia. Circ Cardiovasc Qual Outcomes 5: 609-14.
Juan ZXH (2015) Correlation analysis on gastrointestinal diseases and meteorological variables in Beijing. Journal of Changchun University of Chinese Medicine 31: 105-109.
Kim J, Lim Y, Kim H (2014) Outdoor temperature changes and emergency department visits for asthma in Seoul, Korea: A time-series study. Environ Res 135: 15-20.
Li K, Zhao K, Shi L, Wen L, Yang H, Cheng J, et al (2016) Daily temperature change in relation to the risk of childhood bacillary dysentery among different age groups and sexes in a temperate city in China. Public Health 131: 20-26.
LI Yang WD, ZHOU Ruyi (2018) Relationship between air pollutant and respiratory diseases. Journal of environmental pollution and prevention 40: 508-517.
Liu J, Wu X, Li C, Xu B, Hu L, Chen J, et al (2017) Identification of weather variables sensitive to dysentery in disease-affected county of China. Sci Total Environ 575: 956-962.
Liu Z, Liu Y, Zhang Y, Lao J, Zhang J, Wang H, et al (2019) Effect of ambient temperature and its effect modifiers on bacillary dysentery in Jinan, China. Sci Total Environ 650: 2980-2986.
Liu ZD, Li J, Zhang Y, Ding GY, Xu X, Gao L, et al (2016) Distributed lag effects and vulnerable groups of floods on bacillary dysentery in Huaihua, China. Sci Rep 6: 1-8.
LU Xiao-min CH-y, WU Dong-mei, SUN Zhongg-you (2018) Influence of air pollutants on occurrence risk of hand-foot-mouth disease in Yancheng city. Chinese Journal of Woman and Child Health Research 29: 276-280.
Ma W, Zeng W, Zhou M, Wang L, Rutherford S, Lin H, et al (2015a)The short-term effect of heat waves on mortality and its modifiers in China: an analysis from 66 communities. Environ Int 75: 103-109.
Ma Y, Zhang T, Liu L, Lv Q, Yin F(2015b) Spatio-Temporal Pattern and Socio-Economic Factors of Bacillary Dysentery at County Level in Sichuan Province, China. Sci Rep 5: 1-9.
QIAN Ying-jun LS-z, WANG Qiang, YANG Kong, YANG Guo-jing, LV Shan, ZHOU Xiao-nong ( 2010) Research progress on the impact of climate change on human health. ADVANCES IN CLIMATE CHANGE RESEARCH 6: 241-247.
QIANG Li YJ-p, TAO Yan, LIU Ya-meng (2013) Relationship between daily incidence of bacterial dysentery and meteorological factors in Chengguan District of Lanzhou City. J Environ Health 30: 644-646.
Ren C, Williams GM, Tong S (2006)Does particulate matter modify the association between temperature and cardiorespiratory diseases? Environ Health Perspect 114: 1690-16966.
Renate Stiller- Winkler, Helga Mel, I, Gahiele Leng CS, 2 and Reinhard Dolgner3( 1996) Influence of Air Pollution on Humoral Immune Response. J Clin Epidemiol Vol 49: 527-534.
SUN peiyuan,ZHANG deshan Wy, ZHAO na,PU yonglan, GUO qing, SHI rujing, LIyang( 2008) Relationship between incidence of bacillary dysentery and meteorological factors. Capit al Journal of Public Health 2: 100-103.
von Seidlein L, Kim DR, Ali M, Lee H, Wang X, Thiem VD, et al (2006) A multicentre study of Shigella diarrhoea in six Asian countries: disease burden, clinical manifestations, and microbiology. PLoS Med 3: 1559-1569.
WANG Jin-yu1 LS, DONG Ji-yuan3, LI Shou-yu1, LI Pu4, JIA Qing2, WANG Ling-qing2, CHANG Xu-hong (2018) Distributed lag effects on the relationship between daily mean temperature and the incidence of bacillary dysentery in Lanzhou city. Journal of Peking University(Health Sciences): 1-13.
Xuan-yi Wang aFT, b Donglou Xiao,c Hyejon Lee,a Jacqueline Deen,a Jian Gong,d Yuliang Zhao,e, Weizhong Zhou fWL, g Bing Shen,h Yang Song,i Jianming Ma,j Zheng-mao Li,c Zijun Wang,c Pu-yu Su,b, Nayoon Chang aJ-hX, i Pei-ying Ouyang,k Lorenz von Seidlein,a Zhi-yi Xu,a & John D Clemensa (2006) Trend and disease burden of bacillary dysentery in China (1991–2000). Bulletin of the World Health Organization 84: 561-568.
Xuewen Li N, Wang, 3 Guoyong, Ding XLa, Xue2 X (2018) The relationship between meteorological factors and the risk of bacillary dysentery in the highest incidence area of Hunan Province, China during 2005–2010. Royal Meteorological Society 99: 1-5.
Yan-ping SZ-hC (2013) An Overview of PM2.5 Impacts on Human Health. Environmental Science and Technology 26: 75-78.
YANG Jun OY-c, DING Yan, CHEN Ping-yan (2012) Distributed lag non-linear model. Chinese Journal of Health Statistics 29: 772-777.
Yu G, Li Y, Cai J, Yu D, Tang J, Zhai W, et al (2019) Short-term effects of meteorological factors and air pollution on childhood hand-foot-mouth disease in Guilin, China. Sci Total Environ 646: 460-470.
Zhang Y, Bi P, Hiller JE, Sun Y, Ryan P (2007) Climate variations and bacillary dysentery in northern and southern cities of China. J Infect 55: 194-200.
Zhang Y, Rohde C, Tierling S, Jurkowski TP, Bock C, Santacruz D, et al (2009) DNA methylation analysis of chromosome 21 gene promoters at single base pair and single allele resolution. PLoS Genet 5: 1-15.
Zhou yanli Xw, Zhang haiyan,Ma lixian,Pan jinghai,Huang hui,Liu qinghua (2009) Time series analysis on bacillary dysentery andme teorological factors in Dongcheng distr ict, Beijing. D isease Surveillance 24: 697-700.