| [1] | Bond T C, Streets D G, Yarber K F, et al. A technology-based global inventory of black and organic carbon emissions from combustion[J]. J Geophys Res, 2004, 109, D14203, doi:10.1029/2003jd003697 |
| [2] | Penner J E, Eddleman H, Novakov T. Towards the development of a global inventory for black carbon emissions[J]. Atmos Environ, 1993, 27: 1277-1295 |
| [3] | Bond T C, Bergstrom R W. Light absorption by carbonaceous particles: an investigative review[J]. Aerosol Sci Tech, 2006,40:27-67 |
| [4] | Penner J E, Novakov T. Carbonaceous particles in the atmosphere: a historical perspective to the Fifth International Conference on carbonaceous particles in the atmosphere[J]. J Geophys Res, 1996, 101: 19373-19378 |
| [5] | Andreae M O, Geleneser A. Black carbon or brown carbon? The nature of light-absorbing carbonaceous aerosols[J]. Atmos Chem Phys, 2006, 6: 3131-3148 |
| [6] | IPCC. Third Assessment Report, Climate Change 2001: The Scientific Basis. New York: Cambridge University Press, 2001 |
| [7] | Chung C, Ramanathan V. Relationship between trends in land precipitation and tropical SST gradient[J]. Geophys Res Lett, 2007, 34, doi10.1029/2007GL030491 |
| [8] | Martin R V, Daniel J J, Robert M Y, et al.Global and regional decreases in tropospheric oxidants from photochemical effects of aerosols[J].J Geophys Res, 2003, 108: 4097-4116 |
| [9] | Chuang C C,Penner J E,GrantK E,et al. Cloud susceptibility and the first aerosol indirect forcing,sensitivity to black carbon and aerosol concentrations[J].J Geophys Res,2002, 107: 4564 |
| [10] | Strawa A W, Drdla K, Ferry G V, et al. Carbonaceous aerosol (soot) measured in the lower stratosphere during POLARIS and its role in stratospheric photochemistry[J]. Journal of Geophysical Research,1999,104:26753-26766 |
| [11] | 葛茂发,刘泽,王炜罡. 二次光化学氧化剂与气溶胶间的非均相过程[J].地球科学进展,2009,24(4):351-362 |
| [12] | Ulrich Poschl. Atmospheric aerosols: composition, transformation, climate and health effects[J]. Angew Chem Int Ed, 2005, 44: 7520-7540 |
| [13] | Andreae M O, Rosenfeld D, Artaxo P, et al. Smoking rain clouds over the amazon[J]. Science, 2004, 303: 1337-1341 |
| [14] | Rosenfeld D. TRMM observed first direct evidence of smoke from forest fires inhibiting rainfall[J]. Geophys Res Lett, 1999, 26: 3105-3108 |
| [15] | Lohmann U, Feichter J. Global indirect aerosol effects: A review[J]. Atmos Chem Phys, 2005, 5: 715-737 |
| [16] | Haywood J M, Boucher O. Estimates of direct and indirect radiative forcing due to tropospheric aerosols: A review[J]. Rev Geophys, 2000, 38: 513-543 |
| [17] | Ramanathan V, Carmichael G. Global and regional climate changes due to black carbon[J]. Nat Geosci, 2008, 1:221-227 |
| [18] | Clarke A, Noone K. Soot in the Arctic: a cause for perturbation in radiative transfer[J]. J Geophys Res, 1985, 19: 2045-2053 |
| [19] | Warren S, Wiscombe W. Dirty snow after nuclear war[J]. Nature, 1985, 313: 467-470 |
| [20] | Xu B, Cao J, Hansen J, et al. Black soot and the survival of Tibetan glaciers[J]. Proc Natl Acad Sci, 2009, 106: 22114-22118 |
| [21] | 明镜,效存德,杜振彩,等. 中国西部冰雪中的黑碳及其辐射强迫[J].气候变化研究进展,2009,5(6):328-335 |
| [22] | Hansen J, Nazarenko L. Soot climate forcing via snow and ice albedos[J]. Proc Natl Acad Sci, 2004, 101: 423-428 |
| [23] | Flanner M G, Zender C S, Randerson J T, el al. Present-day forcing and response from black carbon in snow[J]. J Geophys Res, 2007, 112, doi:10.1029/2006JD008003 |
| [24] | Holland M M, Bitz C M, Tremblay B. Future abrupt reductions in the summer Arctic sea ice[J]. Geophys Res Lett, 2006, 33, doi:10.1029/2006GL028024 |
| [25] | Ramanathan V, Crutzen P J, Kieh J T, et al. Aerosols,climate,and the hydrological cycle[J]. Science, 2001, 294: 2119-2124 |
| [26] | Venkataraman C, Habib G, Eiguren F A, et al. Residential biofuels in South Asia: carbonaceous aerosol emission and climate impacts[J]. Science, 2005, 307: 1454-1456 |
| [27] | Ramanathan V, Ramana M V, Roberts G, et al. Warming trends in Asia amplified by brown cloud solar absorption[J]. Nature, 2007, 448: 575-578 |
| [28] | Kaufman Y J, Tanré D, Dubovik O, et al. Absorption of sunlight by dust as inferred from satellite and ground-based remote sensing[J]. Geophys Res Lett, 2001, 28: 1479-1482 |
| [29] | Haywood J M, Osborne S R, Francis P N, et al. The mean physical and optical properties of regional haze dominated by biomass burning aerosol measured from the C-130 aircrat during SAFARI 2000[J]. J Geophys Res, 2003, 108, doi:10.1029/2002JD002226 |
| [30] | Bellouin N, Boucher O, Tanré D, et al. Aerosol absorption over the clear-sky oceans deduced from POLDER-1 and AERONET observations[J]. Geophys Res Lett, 2003, 30, doi:10.1029/2003GL017121 |
| [31] | Wang C. A modeling study on the climate impacts of black carbon aerosols[J]. J Geophys Res, 2004, 109, doi:10.1029/2003JD004084 |
| [32] | Chung S H, Seinfeld J H. Climate response of direct radiative forcing of anthropogenic black carbon[J]. J Geophys Res, 2005, 110, doi:10.1029/2004JD005441 |
| [33] | Ramanathan V, Chung C, Kim D, et al. Atmospheric brown clouds: impacts on South Asian climate and hydrologic cycle[J]. Proc Natl Acad Sci, 2005, 102: 5326-5333 |
| [34] | Menon S, Hanson J, Nazarenko L, et al. Climate effects of black carbon aerosols in China and India[J]. Science, 2006, 297: 2250-2253 |
| [35] | Bellouin N, Boucher O, Haywood J, et al. Global estimate of aerosol direct radiative forcing from satellite measurements[J]. Nature, 2005, 438: 1138-1141 |
| [36] | Yu H, Kaufman Y J, Chin M, et al. A review of measurement-based assessments of the aerosol direct radiative effect and forcing[J]. Atmos Chem Phys, 2006, 6: 613-666 |
| [37] | Chung C, Ramanathan V, Kim D, et al. Global anthropogenic aerosol direct forcing derived from satellite and ground-based observations[J]. J Geophys Res, 2005, 110, doi:10.1029/2005JD006356 |
| [38] | Ramanathan V, Li F, Ramana M V, et al. Atmospheric brown clouds: Hemispherical and regional variations in long-range transport, absorption, and radiative forcing[J]. J Geophys Res, 2007, 112, doi:10.1029/2006JD008124 |
| [39] | Jacobson M Z. Strong radiative heating due to the mixing state of black carbon in atmospheric aerosols[J]. Nature, 2001, 409: 695-697 |
| [40] | Jacobson M Z. Control of fossil fuel particulate black carbon and organic matter,possibly the most effective method of slowing global warming[J]. J Geophys Res, 2002, 107: 4410-4432 |
| [41] | Kirchstetter T W, Novakov T, Hobbs P V. Evidence that the spectral dependence of light absorption by aerosols is affected by organic carbon[J]. J Geophys Res, 2004, 109, doi:10.1029/2004JD004999 |
| [42] | Popovicheva O B, Kireeva E D, Shonija N K, et al. Water interaction with laboratory simulated fossil fuel combustion particles[J]. J Phys Chem A, 2009, 113: 10503-10511 |
| [43] | Yin S, Wang W, Ge Maofa, The uptake of ethyl iodide on black carbon surface[J]. Chinese Sci Bull, 2008, 53(5): 733-738 |
| [44] | Ge Maofa, Wang W, Yin S. Heterogenous chemistry of dimethyl sulfide on soot surfaces[J]. Chem Phys Lett, 2008, 453: 296-300 |
| [45] | Mikhailov E F, Vlasenko S S, Podgorny I A, et al. Optical properties of soot water drop agglomerates: An experimental study[J]. J Geophys Res, 2006, 111, D07209, doi:10.1029/2005JD006389 |
| [46] | Wiley J, Hoboken N J, Sierk B, et al. Field measurements of water vapor continuum absorption in the visible and near-infrared[J]. J Geophys Res, 2004, 109, D08307, doi:10.1029/ 2003JD003586 |
| [47] | Adachi K, Buseck P R.Internally mixed soot, sulfates, and organic matter in aerosol particles from Mexico City[J]. Atmos Chem Phys,2008, 8: 6469-6481 |
| [48] | Fuller K A, Malm W C, Kreidenweis S M. Effects of mixing on extinction by carbonaceous particles[J]. J Geophys Res, 1999, 104: 15941-15954 |
| [49] | Jacobson M Z. A physically-based treatment of elemental carbon optics: Implications for global direct forcing of aerosols[J]. Geophys Res Lett, 2000, 27: 217-220 |
| [50] | Xue H, Khalizov A F, Wang L, et al. Effects of dicarboxylic acid coating on the optical properties of soot[J]. Phys Chem Chem Phys, 2009, 11: 7869-7875 |
| [51] | Peng C, Chan M N, Chan C K. The hygroscopic properties of dicarboxylic and multifunctional acids: Measurements and UNIFAC predictions[J]. Environ Sci Technol, 2001, 35: 4495-4501 |
| [52] | Prenni A J, DeMott P J, Kreidenweis S M, et al. The effects of low molecular weight dicarboxylic acids on cloud formation[J]. J Phys Chem A, 2001, 105: 11240-11248 |
| [53] | Erlick C, Schlesinger D. Another look at the influence of absorbing aerosols in drops on cloud absorption: large aerosolsm[J]. J Aerosol Sci, 2008, 65: 661-669 |
| [54] | Xue H, Khalizov A F, Wang L, et al. Effects of coating of dicarboxylic acids on the mass mobility relationship of soot particles[J]. Environ Sci Technol, 2009, 43: 2787-2792 |
| [55] | Zhang R, Khalizov A F, Pagels J, et al. Variability in morphology, hygroscopicity, and optical properties of soot aerosols during atmospheric processing[J]. Proc Natl Acad Sci, 2008, 105: 10291-10296 |
| [56] | Khalizov A F, Zhang R, Zhang D, et al. Formation of highly hygroscopic soot aerosols upon internal mixing with sulfuric acid vapor[J]. J Geophys Res, 2009, 114, D05208, doi:10.1029/2008JD01059 |
| [57] | Schnaiter M, Linke V, Mhler O, et al. Absorption amplification of black carbon internally mixed with secondary organic aerosol[J]. J Geophys Res, 2005, 110, D19204, doi:10.1029/2005JD006046 |
| [58] | Adachi K, Buseck P R. Internally mixed soot, sulfates, and organic matter in aerosol particles from Mexico City[J]. Atmos Chem Phys, 2008, 8: 6469-6481 |
| [59] | Gangl M, Kocifajb M, Videenc G, et al. Light absorption by coated nano-sized carbonaceous particles[J]. Atmos Environ, 2008, 42: 2571-2581 |
| [60] | Shiraiwa M, Kondo Y, Iwamoto T, et al. Amplification of light absorption of black carbon by organic coating[J]. Aerosol Sci Tech, 2010, 44: 46-54 |
| [61] | Chen Y, Penner J E, Uncertainty analysis for estimates of the first indirect aerosol effect[J]. Atmos Chem Phys, 2005, 5: 2935-2948 |
| [62] | Liousse C, Cachier H, Jennings S G, Optical and thermal measurements of black carbon aerosol content in different environments: Variation of the specific attenuation cross section[J]. Atmos Environ, 1993, 27: 1203- 1211 |
| [63] | Sorensen C M. Light scattering by fractal aggregates: A review[J]. Aerosol Sci Tech, 2001, 35: 648-687 |
| [64] | Carrico C M, Bergin M H, Xu J, et al. Urban aerosol radiative properties: measurements during the 1999 Atlanta supersite experiment[J]. J Geophys Res, 2003, 108(D7), 8422, doi:10.1029/2001JD001222 |
| [65] | Arnott W P, Moosmüller H, Rogers C F, et al. Photoacoustic spectrometer for measuring light absorption by aerosol: instrument description[J]. Atmos Environ, 1999, 33: 2845-2852 |
| [66] | Weingartner E, Saathof H, Schnaiter M, et al. Absorption of light by soot particles: determination of the absorption coefficient by means of aethalometers[J]. J Aerosol Sci, 2003, 34: 1445-1463 |
| [67] | Bond T C, Anderson T L, Campbell D. Calibration and intercomparison of filter-based measurements of visible light absorption by aerosols[J]. Aerosol Sci Tech, 1999, 30: 582-600 |
| [68] | Arnott W P, Hamasha K, Moosmüller H, et al. Towards aerosol light-absorption measurements with a 7-wavelength aethalometer: evaluation with a photoacoustic instrument and 3-wavelength nephelometer[J]. Aerosol Sci Tech, 2005, 39: 17-29 |
| [69] | Petzold A, Schloesser H, Sheridan P J, et al. Evaluation of multi-angle absorption photometry for measuring aerosol light absorption[J]. Aerosol Sci Tech, 2005, 39: 40-51 |
| [70] | Petzold A, Schnlinner M. Multi-angle absorption photometry-a new method for the measurement of aerosol light absorption and atmospheric black carbon[J]. J Aerosol Sci, 2004, 35: 421-441 |
| [71] | Sheridan P J, Arnott W P, Ogren J A, et al. The reno aerosol optics study: an evaluation of aerosol absorption measurement methods[J]. Aerosol Sci Tech, 2005, 39: 1-16 |
| [72] | Schnaiter M, Horvath H, Mhler O, et al. UV-VIS-NIR spectral optical properties of soot and soot-containing aerosols[J]. J Aerosol Sci, 2003, 34: 1421-1444 |
| [73] | Schnaiter M, Schmid O, Petzold A, et al. Measurement of wavelength-resolved light absorption by aerosols utilizing a UV-VIS extinction cell[J]. Aerosol Sci Tech, 2005, 39: 249-260 |
| [74] | Schnaiter A, Gimmler M, Llamas I, et al. Strong spectral dependence of light absorption by organic carbon particles formed by propane combustion[J]. Atmos Chem Phys, 2006, 6: 2981-2990 |
| [75] | Thompson J E, Duvall R, Policarpro D, et al. Development of a fixed frequency aerosol albedometer[J]. Opt Express, 2008, 16:2191-2205 |
| [76] | 汤洁,温玉璞,周凌唏等.中国西部大气清洁地区黑碳气溶胶的观测研究[J].应用气象学报,1999,2(5):160-169 |
| [77] | 潘晓乐,颜鹏,汤洁,2006年北京春季气溶胶吸收系数的分离研究[J].气候变化研究进展,2007,3:249-254 |
| [78] | 白建辉,王庚辰. 黑碳气溶胶研究新进展[J].科学技术与工程,2005,5(9):585-607 |
| [79] | 朱崇抒,曹军骥,刘随心.西安大气黑碳气溶胶的观测和分析[J].过程工程学报,2006,6(增刊2):10-13 |
| [80] | 陶俊,朱李华,韩静磊等,2007年春季广州城区黑碳气溶胶污染特征的初步研究[J].气候与环境科学研究,2008,13(5):658-662 |
| [81] | 张立盛,石广玉.硫酸盐和烟尘气溶胶辐射特性及辐射强迫的模拟估算[J].大气科学,2001,25(2):213-242 |
| [82] | 张靖,银燕.黑碳气溶胶对我国区域气候影响的数值模拟[J].南京气象学院学报,2008,31(6):852-859 |
| [83] | 张华,马井会,郑有飞.黑碳气溶胶辐射强迫全球分布的模拟研究[J].大气科学,2008,32(5):1147-1158 |
| [84] | 马井会,郑有飞,张华. 黑碳气溶胶光学厚度的全球分布以及分析[J].气象科学,2007,27:549-556 |
| [85] | 王志立,郭品文,张华.黑碳气溶胶直接辐射强迫及其对中国夏季降水影响的模拟研究[J].气候与环境研究,2009,14(2):161-171 |
| [86] | Novakov T, Ramanthan V, Kirchstetter T W, et al. Large historical changes of fossil-fuel black carbon aerosols[J]. Geophys Res Lett, 2003, 30, doi:10.1029/2002GL016345 |
| [87] | Bond T C, Bhardwaj E, Dong R, et al. Historical emissions of black and organic carbon aerosol from energy-related combustion, 1850—2000[J]. Global Biogeochem Cy, 2007, 21, doi:10.1029/2006GB002840 |