[1] SUN Y L, ZHUANG G S, TANG A H, et al. Chemical characteristics of PM2.5 and PM10 in haze-fog episodes in Beijing[J]. Environmental Science and Technology,2006,40:3148-3155.
[2] THURSTON G D, ITO K, HAYES C G, et al. Respiratory hospital admissions and summertime haze air pollution in Toronto, Ontario:Consideration of the role of acid aerosols[J]. Environmental Research, 1994,65(2):271-290.
[3] 孙峰,张大伟,孙瑞雯,等.北京地区冬季典型PM2.5重污染案例分析[J]. 中国环境监测,2014,30(6):2-12. SUN F, ZHANG D W,SUN R W, et al. Typical heavy pollution episode analysis on PM2.5 in winter of Beijing[J]. Environmental Monitoring in China,2014,30(6):2-12(in Chinese).
[4] 孙颖,潘月鹏,李杏茹,等.京津冀典型城市大气颗粒物化学成分同步观测研究[J]. 环境科学,2011,32(9):2733-2739. SUN Y, PAN Y P, LI X R, et al.Chemical compositon and mass closure of particulate matter in Beijing, Tianjin and Hebei megacities, Northern China[J]. Environmental Science,2011,32(9):2733-2739(in Chinese).
[5] 李云婷,王占山,安欣欣,等. 2015年"十一"期间北京市大气重污染过程分析[J]. 中国环境科学,2016,36(11):3218-3226. LI Y T, WANG Z S, AN X X, et al.Analysis on a heavy air pollution process in Beijing during national day holiday,2015[J].China Environmental Science,2016,36(11):3218-3226(in Chinese).
[6] 刘庆阳,刘艳菊,杨峥,等. 北京城郊冬季一次大气重污染过程颗粒物的污染特征[J]. 环境科学学报,2014,34(1):12-18. LIU Q Y, LIU Y J, YANG Z, et al. Daily variations of chemical properties in airborne particulate matter during a high pollution winter episode in Beijing[J]. Acta Scientiae Circumstantiae,2014,34(1):12-18(in Chinese).
[7] 郑子龙,张凯,陈义珍,等. 北京一次混合型重污染过程大气颗粒物元素组分分析[J].环境科学研究,2014,27(11):1219-1226. ZHENG Z L, ZHANG K, CHEN Y Z, et al. Study on elements in aerosols during a mixed serious pollution episode in Beijing[J]. Research of Environmental Sciences,2014,27(11):1219-1226(in Chinese).
[8] YANG L X, GAO X M, WANG X F, et al. impacts of firecracker burning on aerosol chemical characteristics and human health risk level during the Chinese New Year Celebration in Jinan, China[J]. Science of the Total Environment, 2014,476:57-64.
[9] 高愈霄,霍晓芹,闫慧,等. 京津冀地区大气重污染过程特征初步分析[J].中国环境监测,2016,32(6):26-35. GAO Y X, HUO X Q, YAN H, et al.Preliminary analysis on the characteristics of heavy air pollution events in Beijing-Tianjin-Hebei Region[J]. Environmental Monitoring in China,2016,32(6):26-35(in Chinese).
[10] 魏欣,毕晓辉,董海燕,等. 天津市夏季灰霾与非灰霾天气下颗粒物污染特征与来源解析[J].环境科学研究,2012,25(11):1193-1200. WEI X, BI X H, DONG H Y, et al. Characteristics and sources of particulate matter during hazy and non-hazy episodes in Tianjin City in summer[J]. Research of Environment Sciences,2012,25(11):1193-1200(in Chinese).
[11] LI J H, ZHANG D Z, SHAO L Y, et al. Individual particle analysis of aerosols collected under haze and non-haze conditions at a high-elevation mountain site in the North China plain[J]. Atmospheric Chemistry and Physics,2011,11:11733-11744.
[12] YE X N, MA Z, ZHANG J C, et al. Important role of ammonia on haze formation in Shanghai[J].Environmental Research Letter 2011,6:2419-2424.
[13] 赵雪艳,谷超,杨焕明,等. 新疆奎独乌区域冬季大气重污染过程PM2.5组成特征及来源解析[J]. 环境科学研究,2017,30(10):1515-1523. ZHAO X Y, GU C, Yang H M, et al. Chemical composition and source apportionment of PM2.5 during a winter air pollution episode in the Kui-Du-Wu Area of Xinjiang Uygur Autonomous Region[J]. Research of Environmental Sciences,2017,30(10):1515-1523(in Chinese).
[14] CHOW J C, WATSON J G, LOWENTHAL D H, et al. Size-resolved aerosol chemical concentrations at rural and urban sites in central California, USA[J]. Atmospheric Research,2008,90:243-252.
[15] 杨晓倩,刘仲,刘岚铮,等.2013年济南市大气PM2.5中水溶性离子特征分析[J]. 中国公共卫生管理,2015,31(5):723-724. YANG X Q, LIU Z, LIU L Z, et al. Analysis of water-soluble ions in air PM2.5 in jinan in 2013[J].Chinese Journal of Public Health Management,2015,31(5):723-724(in Chinese).
[16]
[17] WANG Y, ZHUANG G S, TANG A, et al. The ion chemistry and the source of PM2.5 aerosol in Beijing[J]. Atmospheric Environment,2005,39:3771-3784.
[18] 欧盛菊,吴丽萍,王信梧,等. 典型"族群式"城市夏季大气颗粒物中水溶性离子化学特征及来源[J]. 环境科学研究,2018,31(4):669-678. OU S J, WU L P, WANG X W, et al. Chemical characteristics and sources of water-soluble ions of airborne particles during summer in the typical ‘group’ city[J]. Research of Environmental Sciences,2018,31(4):669-678(in Chinese).
[19] SUN Y, WANG Z F, FU P Q, et al. The impact of relative humidity on aerosol composition and evolution processes during wintertime in Beijing, China[J]. Atmospheric Environment, 2013,77:927-937.
[20] XU L L, DUAN F K, HE K B, et al. Characteristics of the secondary water-soluble ions in a typical autumn haze in Beijing[J]. Environment Pollution,2017,227:296-305.
[21] CHENG Y F, ZHENG G J,WEI C,et al. Reactive nitrogen chemistry in aerosol water as a source of sulfate during haze events in China[J]. Science Advances,2016,12(2):1-11.
[22] 刘雨思,李杏茹,张怡萌,等. 济南市秋冬季大气细粒子污染特征及来源[J]. 环境化学,2017,36(4):787-798. LIU S Y, LI X R, ZHANG Y M, et al. Characteristics and sources of fine atmospheric particles pollution in Jinan autumn and winter[J]. Environmental Chemistry, 2017,36(4):787-798(in Chinese).
[23] 安欣欣,张大伟,冯鹏,等. 北京地区夏季PM2.5中碳组分和二次水溶性无机离子浓度特征[J].环境化学,2016,35(4):713-720. AN X X, ZHANG D W, FENG P, et al. Characteristics of carbon component and second water soluble ions of PM2.5 in Beijing summer[J]. Environmental Chemistry, 2016,35(4):713-720(in Chinese).
[24] 杨起超,曾立民,唐静玥,等.无锡冬季和春季大气中细粒子化学组分及其特性分析[J]. 环境化学,2014,33(9):1501-1513. YANG Q C, ZENG L M, TANG J Y, et al. Analysis of the chemical components and characteristics of fine atmosphere particles in winter and spring in Wuxi[J]. Environmental Chemistry,2014,33(9):1501-1513(in Chinese).
[25] TURPIN B J, CARY R A, HUNTZICKER J J. An in-situ, time-resolved analyzed for aerosol organic and elemental carbon[J]. Aerosol Science Technology,1990,12(1):161-171.
[26] HOU B, ZHUANG G S, ZHANG R,et al. The implication of carbonaceous aerosol to the formation of haze:Revealed from the characteristics and sources of OC/EC over a mega-city in China[J]. Journal of Hazardous Materials,2011,190:529-536.
[27] CHOW J C,WATSON J G, LU Z, et al. Descriptive analysis of PM2.5 and PM10 at regionally representative locations during SJVAQS/AUSPEX[J].Atmospheric Environment,1996,30(12):2079-2112.
[28] MENG Z Y,JIANG X M,YAN P, et al. Characteristics and sources of PM2.5 and carbonaceous species during winter in Taiyuan, China[J]. Atmospheric Environment,2007,41(32):6901-6908.
[29] 于海斌,薛荔栋,郑晓燕,等. APEC期间京津冀及周边地区PM2.5中碳组分变化特征及来源[J]. 中国环境监测,2015,31(2):48-52. YU H B, XUE L D, ZHENG X Y, et al. Characterization and sources of carbonaceous components in PM2.5 mental monitoring in China, 2015,31(2):48-52(in Chinese).
[30] PANDIS S N, HARLEY R A, CASS G R, et al. Secondary organic aerosol formation and transport[J]. Atmospheric Environment, 1996,26A:2269-2282.
[31] TURPIN B J, HUNTZICKER J J. Secondary formation of organic aerosol in the Los Angeles Basin:A descriptive analysis of organic and elemental carbon concentrations[J]. Atmospheric Environment, 1991,25A:207-215.
[32] TURPIN B J, HUNTZICKER J J. Identification of secondary organic aerosol episodes and quantitation of primary and secondary organic aerosol concentrations during SCAQS[J]. Atmospheric Environment,1995,29(23):3527-3544.
[33] CASTRO L M, PIO C A, HARRISON R M, et al. Carbonaceous aerosol in urban and rural European atmospheres:Estimation of secondary organic carbon concentrations[J]. Atmospheric Environment,1999,33(17):2771-2781.
[34] ZHOU S Z, YANG L X, GAO R, et al. A comparison study of carbonaceous aerosols in a typical North China Plain urban atmosphere:Seasonal variability, sources and implications to haze formation[J]. Atmospheric Environment,2017,149:95-103, 35.
[35] ZHANG J M, CHEN J M, YANG L X, et al. Indoor PM2.5 and its chemical composition during a heavy haze-fog episode at Jinan, China[J]. Atmospheric Environment,2014,99:641-649.
[36] 郭松,胡敏,郭庆丰,等.二次有机气溶胶估算方法比较研究[J].化学学报,2014,72:658-666. GUO S, HU M, GUO Q F, et al.Comparison of secondary organic aerosol estimation methods[J]. Acta Chim. Sinica, 2014 , 72:658-666(in Chinese).
[37] LIM Y B, TAN Y, PERRI M J, et al. Aqueous chemistry and its role in secondary organic aerosol(SOA) formation[J]. Atmospheric Chemistry and Physics,2010,10:10521-10539.