Giorgi F, Bi X Q, Qian Y. Indirect vs. direct effects of anthropogenic sulfate on the climate of East Asia as simulated with a regional coupled climate-chemistry/aerosol model. Climatic Change,2003, 58: 345-376.
[5]
Pal J, Small E, Eltahir E. Simulation of regional-scale water and energy budgets: Representation of subgrid cloud and precipitation processes within regcm. J Geophys Res,2000, 105 (D24):29579 - 29594.
[6]
Zeng X, Zhao M, Dickinson R E. Intercomparison of bulk aerodynamic algorithms for the computation of sea surface fluxes using TOGA Coarse and TAO data. J Climate, 1998, U (10): 2628 - 2644.
[7]
Qian Y, Giorgi F. Interactive coupling of regional climate and sulfate aerosol models over eastern Asia. J Geophys Res , 1999, 104(D6): 6477-6499.
[8]
Qian Y, Giorgi F, Huang Y, et al. Simulation of anthropogenic sulfur over East Asia with a regional coupled chemistry-climate model.Tellus, Ser B, 2001, 53: 171- 191.
[9]
Cooke W F, Liousse C,Cachier H, et al. Construction of 1°× 1°fossil fuel emission data set for carbonaceous aerosol and implementation and radiative impact in the ECHAM4 model. J Geophys Res ,1999, 104 (D18): 22137-22162.
[10]
Matsumato K, Uematsu M, Hayano T, et al. Simultaneous measurements of particulate elemental carbon on the ground observation network over the western North Pacific during the ACE-Asia campaign. J Geophys Res , 2003, 108 (D23): 8635, doi: 10.1029/2002JD002744.
[11]
Liousse C, Penner J E, Chuang C, et al. A global three-dimensional model study of carbonaceous aerosols. J Geophys Res , 1996,101 (D14): 19411-19432.
[12]
Ramanathan V, Crutzen P J, Lelieveld J, et al. Indian Ocean experiment : An integrated analysis of the climate forcing and effects of the great Indo-Asian haze. J Geophys Res , 2001, 106 (D22):28371 - 28398.
[13]
Streets D G, Bond T C, Carmichael G R, et al. An inventory of gaseous and primary aerosol emissions in Asia in the year 2000. J Geophys Res , 2003, 108 ( D21 ): 8809, doi: 10. 1029/2002JD003093.
[14]
Breon F-M ,Tanre D, Generoso S. Aerosol effect on cloud droplet size monitored from satellite. Science, 2002, 295:834-838.
[15]
Liu H Y, Chang W L, Samuel J O, et al. On springtime high ozone events in the lower troposphere from Southeast Asian biomass burning. Atmos Environ , 1999, 33 (15): 2403 -2410.
[16]
Chan L Y, Chan C Y, Liu H Y. A case study on the biomass burning in Southeast Asia and enhancement of tropospheric ozone over Hong Kong. Geophys Res Lett , 2000, 27 (10): 1479- 1482.
[17]
Uno I, Carmichael G R, Street D, et al. Analysis of surface black carbon distributions during ACE-Asia using a regional-scale aerosol model. J Geophys Res , 2003, 108 (D23): 8636, doi: 10.1029/2002JD003252.
[18]
HansenJ, Sato Mki, Ruedy R. Radiative forcing and climate response. J Geophys Res , 1997, 102:6831-6864.
[19]
Cook J, Highwood E J. Climate response to tropospheric absorbing aerosols in an intermediate general-circulation model. Quart J Roy Meteor Soc , 2004, 130: 175- 191.
[20]
Wu J, Jiang W M, Fu C B, et al. Simulation of the radiative effect of black carbon aerosols and the regional climate responses over China. Adv Atmos Sci , 2004, 21 (4): 637-649.
[21]
Wang C. A modeling study on the climate impacts of black carbon aerosols. J Geophys Res , 2004, 109: D03106, doi: 10.1029/2003 JD004084.
[22]
Menon S, Hansen J, Nazarenko L, et al. Climate effects of black carbon aerosols in China and India. Science, 2002, 297:2250 -2253.
[23]
Roberts D L,Jones A. Climate sensitivity to black carbon aerosol from fuel combustion. J Geophys Res , 2004, 109: D16202, doi:10. 1029/2004JD004676.
[24]
IPCC. Climate Change 2001: The Scientific Basis. Contribution of Working Group Ⅰ to the Third Assessment Report of the Intergovernmental Panel on Climate Change. Cambridge University Press, UK, 944pp.
[25]
Streets D G, Gupta S, Waldhoff S T, et al. Black carbon emissions in China. Atmos Environ , 2001, 35:4281-4296.
