[1] Chan C K,Yao X H.Air pollution in mega cities in China[J].Atmospheric Environment,2008,42:1-42.
[2] 朱彤,尚静,赵德峰.大气复合污染及灰霾形成中非均相化学过程的作用[J].中国科学(B),2010,40:1731-1740.
[3] 吴兑,刘啟汉,梁延刚,等.粤港细粒子(PM2.5)污染导致能见度下降与灰霾天气形成的研究[J].环境科学学报,32(11):2660-2669.
[4] 王跃思,姚利,王莉莉,等.2013年元月我国中东部地区强霾污染成因分析[J].中国科学(D),2014,44(1):15-26.
[5] 陈秋方,孙在,谢小芳.杭州灰霾天气超细颗粒浓度分布特征[J].环境科学,2014,35(8):2851-2856.
[6] 李娟.中亚地区沙尘气溶胶的理化特性、来源、长途传输及其对全球变化的可能影响[D].上海:复旦大学,2009.
[7] 邵龙义,杨书申,李卫军,等.大气颗粒物单颗粒分析方法的应用现状及展望[J].古地理学报,2005,7(4):535-548.
[8] Vecchi R,Bernardoni V,Cricchio D,et al.The impact of fireworks on airborne particles[J].Atmospheric Environment,2008,42(6):1121-1132.
[9] Shi Y,Zhang N,Gao J,et al.Effect of fireworks display on perchlorate in air aerosols during the Spring Festival[J].Atmospheric Environment,2011,45(6):1323-1327.
[10] 徐鸣,徐峰.乌鲁木齐市采暖季首要污染物污染特征初探[J].干旱环境监测,2004,18(1):36-38.
[11] Ge X L,Zhang Q,Sun Y L,et al.Effect of aqueous-phase processing on aerosol chemistry and size distributions in Fresno,California,during wintertime[J].Environmental Chemistry,2012,9:221-235.
[12] 郑玉萍,李景林.乌鲁木齐近31年大雾天气气候特征分析[J].气象,2008,34(8):2-28.
[13] 肖正辉.兰州市大气PM10的物理和化学特征及生物活性研究[D].北京:中国矿业大学,2007.
[14] Shi Z B,Shao L Y,Jones T P,et al.Characterization of airborne individual particles collected in an urban area,a satellite city and a clean air site in Beijing,2001[J].Atmospheric Environment,2003,37(29):4097-4108.
[15] 宋晓众.煤矿区城市大气PM10的物理化学特征及毒性研究[D].北京:中国矿业大学,2009.
[16] Takahashi Y,Miyoshi T,Yabuki S,et al.Observation of transformation of calcite to gypsum in mineral aerosols by Ca K-edge X-ray absorption near-edge structure(XANES)[J].Atmospheric Environment,2008,42(26):6535-6541.
[17] Mori I,Nishikawa M,Iwasaka Y.Chemical reaction during the coagulation of ammonium sulphate and mineral particles in the atmosphere[J].Science of the Total Environment,1998,224(1):87-91.
[18] 刘彦飞,邵龙义,程晓霞.大气可吸入颗粒物(PM10) 单颗粒硫化特征[J].环境科学,2010,31(11):2555-2562.
[19] Li W,Shao L,Wang Z,et al.Size,composition,and mixing state of individual aerosol particles in a South China coastal city[J].Journal of Environmental Sciences,2010,22(4):561-569.
[20] Zhuang H,Chan C K,Fang M,et al.Size distributions of particulate sulfate,nitrate,and ammonium at a coastal site in Hong Kong[J].Atmospheric Environment,1999,33(6):843-853.
[21] Cabada J C,Rees S,Takahama S,et al.Mass size distributions and size resolved chemical composition of fine particulate matter at the Pittsburgh supersite[J].Atmospheric Environment,2004,38(20):3127-3141.
[22] He K,Yang F,Ma Y,et al.The characteristics of PM2.5 in Beijing,China[J].Atmospheric Environment,2001,35(29):4959-4970.
[23] 热比古丽·达木拉,阿布力孜·伊米提,迪丽努尔·塔力甫.乌鲁木齐冬季雾天可吸入颗粒物透射电子显微镜研究[J].中国环境监测,2013,29(4):107-110.
[24] Li J,Zhuang G,Huang K,et al.Characteristics and sources of air-borne particulate in Urumqi,China,the upstream area of Asia dust[J].Atmospheric Environment,2008,42(4):776-787.
[25] 赵克蕾,刘新春,陆辉,等.乌鲁木齐冬季大气细颗粒物水溶性离子特征及来源[J].中国沙漠,2015,35(3):707-714.
[26] Stockwell W R,Watson J G,Robinson N F,et al.The ammonium nitrate particle equivalent of NOx emissions for wintertime conditions in Central California's San Joaquin Valley[J].Atmospheric Environment,2000,34(27):4711-4717.
[27] Lee T,Yu X Y,Ayres B,et al.Observations of fine and coarse particle nitrate at several rural locations in the United States[J].Atmospheric Environment,2008,42(11):2720-2732.
[28] Beilke S,Gravenhorst G.Heterogeneous SO2-oxidation in the droplet phase[J].Atmospheric Environment,1978,12(1):231-239.
[29] Wang Y,Zhuang G,Tang A,et al.The ion chemistry and the source of PM2.5 aerosol in Beijing[J].Atmospheric Environment,2005,39(21):3771-3784.
[30] Wang Y,Zhuang G,Zhang X,et al.The ion chemistry,seasonal cycle,and sources of PM2.5 and TSP aerosol in Shanghai[J].Atmospheric Environment,2006,40(16):2935-2952.
[31] 李卫军.极端污染天气条件下气溶胶单颗粒特性和非均相转化[D].北京:中国矿业大学,2009.
[32] 肖正辉,邵龙义,张宁,等. 兰州市冬季大气PM10的微观形貌和粒度分布[J].辽宁工程技术大学学报,2007,26(1):147-150.
[33] 段菁春,潭吉华,王淑兰,等.兰州市大气单颗粒来源识别及应用[J].环境工程技术学报,2012,2(3):234-239.