参考文献

ACTA Scientiarum Naturalium Universitatis Pekinensis - - Contents -

[1] Sultana C M, Collins D B, Prather K A, Effect of structural heterogeneity in chemical composition on online single-particle mass spectrometry analysis of

3660‒3668 sea spray aerosol particles. Environmental Science & Technology, 2017, 51(7): [2] Ming L, Jin L, Li J, et al. PM2.5 in the Yangtze River

delta, China: chemical compositions, seasonal variations,

200‒212 and regional pollution events. Environmental Pollution, 2017, 223: [3] Chen Y, Xie S, Luo B, et al. Particulate pollution in urban Chongqing of southwest China: historical trends of variation, chemical characteristics and source

523‒534 apportionment. Science of the Total Environment, 2017, 584/585: [4] Wang J, Zhang J, Liu Z, et al. Characterization of chemical compositions in size-segregated atmospheric particles during severe haze episodes in three megacities of China. Atmos Res, 2017, 187: 138–146 [5] Li Y, Zhang F, Li Z, et al. Influences of aerosol physiochemical properties and new particle formation

80‒89 on CCN activity from observation at a suburban site of China. Atmos Res, 2017, 188: [6] Kuang Y, Zhao C S, Tao J C, et al. Impact of aerosol hygroscopic growth on the direct aerosol radiative

224‒233 effect in summer on North China Plain. Atmos Environ, 2016, 147: [7] Twomey S. Pollution and the planetary albedo. Atmos Environ, 1974, 8: 1251–1256

1227‒1230 [8] Albrecht B. Aerosols, cloud microphysics, and fractional cloudiness. Science, 1989, 245: [9] Xue H, Feingold G. Large-eddy simulations of trade

1605‒1622 wind cumuli: investigation of aerosol indirect effects. J Atmos Sci, 2006, 63: [10] Zhang L, Liu L, Zhao Y, et al. Source attribution of particulate matter pollution over North China with the adjoint method. Environmental Research Letters, 2015, 10(8): 084011 [11] Zheng M, Cass G R, Schauer J J, et al. Source apportionment of PM2.5 in the southeastern United States using solvent-extractable organic compounds as tracers.

2361‒2371 Environmental Science & Technology, 2002, 36 (11): [12] Sun Y, Zhuang G, Wang Y, et al. The air-borne particulate pollution in Beijing — concentration, composition,

5991‒6004 distribution and sources. Atmospheric Environment, 2004, 38(35): [13] Song Y, Zhang Y, Xie S, et al. Source apportionment

1526‒1537 of PM2.5 in Beijing by positive matrix factorization. Atmospheric Environment, 2006, 40(8): [14] Viana M, Kuhlbusch T A J, Querol X, et al. Source apportionment of particulate matter in Europe: a

827‒849 review of methods and results. Journal of aerosol science 2008, 39(10): [15] Schleicher N, Norra S, Chen Y, et al. Efficiency of mitigation measures to reduce particulate air pollution — a case study during the Olympic Summer Games

146‒158 2008 in Beijing, China. Science of the Total Environment, 2012, 427: [16] Chen P, Wang T, Lu X, et al. Source apportionment of size-fractionated particles during the 2013 Asian Youth Games and the 2014 Youth Olympic Games in

860‒870 Nanjing, China. Science of The Total Environment, 2017, 579: [17] Wang G, Cheng S, Wei W, et al. Characteristics and emission-reduction measures evaluation of PM2.5 during

81‒92 the two major events: APEC and Parade. Science of the Total Environment, 2017, 595: [18] Zhang Z, Zhang X, Gong D, et al. Evolution of surface O3 and PM2.5 concentrations and their relationships with meteorological conditions over the last

67‒75 decade in Beijing. Atmospheric Environment, 2015, 108: [19] He X, Li C C, Lau A K H, et al. An intensive study of

8903‒ aerosol optical properties in Beijing urban area. Atmospheric Chemistry and Physics, 2009, 9(22): 8915 [20] Zhang J P, Zhu T, Zhang Q H, et al. The impact of circulation patterns on regional transport pathways and air quality over Beijing and its surroundings. 5031‒5053 Atmospheric Chemistry and Physics, 2012, 12(11): [21] Liu X G, Li J, Qu Y, et al. Formation and evolution mechanism of regional haze: a case study in the

4501‒4514 megacity Beijing, China. Atmospheric Chemistry and Physics, 2013, 13(9): [22] Hussein T, Karppinen A, Kukkonen J, et al. Meteorological dependence of size-fractionated number concentrations

1427‒1440 of urban aerosol particles. Atmospheric Environment, 2006, 40(8): [23] Kim S W, Yoon S C, Won J G, et al. Ground-based remote sensing measurements of aerosol and ozone in an urban area: a case study of mixing height evolution

7069‒7081 and its effect on ground-level ozone concentrations. Atmospheric Environment, 2007, 41(33): [24] Zhao X, Zhang X, Xu X, et al. Seasonal and diurnal variations of ambient PM2.5 concentration in urban

2893‒2900 and rural environments in Beijing. Atmospheric Environment, 2009, 43(18):

641‒ [25] 李名升, 任晓霞, 于洋, 等. 中国大陆城市 PM2.5 污染时空分布规律. 中国环境科学, 2016, 36(3): 650

Newspapers in Chinese (Simplified)

Newspapers from China

© PressReader. All rights reserved.