[1] Mishchenko M I, Geogdzhayev I V, Cairns B, et al. Past, present, and future of global aerosol climatologies derived from satellite observations: A perspective[J]. J. Quant. Spectrosc. Radiat. Transfer, 2007, 106: 325-347.
[2] Kaufman Y J, Tanré D, Remer L A, et al. Operational remote sensing of tropospheric aerosol over land from EOS Moderate Resolution Imaging Spectroradiometer[J]. J. Geophys. Res.,1997, 102: 17051-17067.
[3] Diner D J, Martonchik J V, Kahn R A, et al. Using angular and spectral shape similarity constraints to improve MISR aerosol and surface retrievals over land[J]. Rem. Sens. Environ., 2005, 94: 155-171.
[4] Torres O, Tanskanen A, Veihelmann B, et al. Aerosols and surface UV products from Ozone Monitoring Instrument observations: an overview[J]. J. Geophys. Res., 2007, 112: D24S47.
[5] Tanré D, Bréon F M, Deuzé J L, et al. Remote sensing of aerosols by using polarized, directional and spectral measurements within the A-Train: the PARASOL mission[J]. Atmos. Meas. Tech., 2011, 4: 1383-1395.
[8] Jethva H, Satheesh S K, Srinivasan J, et al.Improved retrieval of aerosol size-resolved properties from moderate resolution imaging spectroradiometer over India: Role of aerosol model and surface reflectance[J]. J. Geophys. Res., 2010, 115: D18213.
[9] Torres O, Ahn C, Chen Z. Improvements to the OMI near-UV aerosol algorithm using A-train CALIOP and AIRS observations[J]. Atmos. Meas. Tech., 2013, 6: 3257-3270.
[10] Mishchenko M I, Cairns B, Hansen J E, et al. Accurate monitoring of terrestrial aerosols and total Solar irradiance: Introducing the Glory mission[J]. Bull. Am. Meteorol. Soc., 2007, 88: 677- 691.
[11] Deuzé J L, Bréon F M, Devaux C, et al. Remote sensing of aerosols over land surfaces from POLDER-ADEOS-1 polarized measurements[J]. J. Geophys. Res. 2001, 106: 4913-4926.
[12] Fan X, Goloub Ph, Deuzé J L, et al. Evaluation of PARASOL aerosol retrieval over North East Asia[J], Remote Sens. Environ., 2008, 112: 697-707.
[13] Holben N B, Eck T F, Slutsker I, et al. AERONET-A federated instrument network and data archive for aerosol characterisation[J]. Remote Sens. Environ. 1998, 66: 1-16.
[14] Dubovik O, Herman M, Holdak A, et al. Statistically optimized inversion algorithm for enhanced retrieval of aerosol properties from spectral multi-angle polarimetric satellite observations[J], Atmos. Meas. Tech., 2011, 4: 975-1018.
[15] Hasekamp O P, Litvinov P, Butz A. Aerosol properties over the ocean from parasol multiangle photopolarimetric measurements[J], J. Geophys. Res., 2011, 116: D14204.
[16] Waquet F, Goloub P, Deuzé J L, et al. Aerosol retrieval over land using a multiband polarimeter and comparison with path radiance method[J]. J. Geophys. Res., 2007, 112: D11214.
[18] Omar A H, Won J G, Winker D M, et al. Development of global aerosol models using cluster analysis of Aerosol Robotic Network (AERONET) Measurements[J]. J. Geophys. Res., 2005, 110: D10S14.
[19] LIOU K N. An introduction to atmopheric radiation[M].Second edition, California: Academic press,2002:193.
[20] Hansen J E, Travis L D. Light scattering in planetary atmospheres[J]. Space Sci. Rev., 1974, 16: 527- 610.
[21] Evans K F, Stephens G L. A new polarized atmospheric radiative transfer model[J]. J. Quant. Spectrosc. Radiat. Transfer, 1991, 46: 413-423.