[1] A. Morel, B. Gentili, M. Chami et al.. Bio-optical properties of high chlorophyll case 1 waters and of yellow-substance dominated case 2 water[J]. Deep-Sea Research I, 2006, 53(9): 1439~1459
[2] A. Hommersom, S. Peters, M. R. Wernand et al.. Spatial and temporal variability in bio—optical properties of the wadden sea[J]. Estuar Coast Shelf S, 2009, 83(3): 360~370
[3] S. E. Lohrenz, A. D. Weldemann, M. Tuel. Phytoplankton spectral absorption as influenced by community size structure and pigment composition[J]. J. Plankton Res, 2003, 25(1): 35~61
[5] E. J. Rochelle-Newall, T. R. Fisher. Chromophoric dissolved organic matter and dissolved organic carbon in Chesapeake Bay [J]. Mar. Chem., 2002, 77(1): 23~41
[7] A. V. Vhtalo, R. G. Wetzel, H. W. Paerl. Light absorption by phytoplankton and chromophoric dissolved organic matter in the drainage basin and estuary of the Neuse River, North Carolina (U. S. A)[J]. Freshwater Biol, 2005, 50(3): 477~493
[8] H. Sasaki, T. Miyamura, S. I. Saitoh et al.. Seasonal variation of absorption by particles and colored dissolved organic matter (CDOM) in Funka Bay, southerwestern Hokkaido, Japan [J]. Estuar Coast Shelf S, 2005, 64(2-3): 447~458
[9] C. Le, Y. Li , Y. Zha et al.. Specific absorption coefficient and the phytoplankton package effect in Lake Taihu,China[J]. Hydrobiologia, 2009, 619(1): 27~37
[10] Z. P. Lee, K. L. Carder, R. A. Arnone. Deriving inherent optical properties from water color: a multi-band quasianalytical algorithm for optically deep waters[J]. Appl. Opt., 2002, 41(27): 5755~5772
[11] Le Chengfeng, Li Yunmei, Zha Yong et al.. Simulation of backscattering properties of Taihu Lake[J]. Advance in Water Science, 2009, 20(5): 705~713
[12] R. W. Gould Jr, R. A. Amone, P. M. Martinolich. Robert et al.. Spectral dependence of the scattering coefficient in case 1 and case 2 waters[J]. Appl. Opt., 1999, 38(12): 2377~2388
[13] O. V. Kopelevich. Small-Parameter Model of Optical Properties of Seawater, Chapter 8 in Ocean Optics, vol 1: Physical Ocean Optics [M]. Moscow: Nauka Pub, 1983. 20~100
[14] H. R. Gordon, A. Morel. Remote Assessment of Ocean Color for Interpretation of Satellite Visible Imagery: a Review[M]. New York: Springer Verlag, 1983. 114
[15] M. Babin, A. Morel. Scattering properties of case 2 water particles[C]. Monaco: Society of Photo-Optical Instrumentation Engineers, 2000
[16] A. Morel. Diffusion de la lumier epar lese aux de mer: resultants experiment aux et approche theorique[J]. AGARD Lect Ser, 1973, 61: 3.1.1~3.1.76
[17] Song Qingjun,Tang Junwu. The study on the scattering properties in the Huanghai Sea and East China Sea[J]. Acta Oceanologica Sinica, 2006, 28(4): 56~63
[18] Sun Deyong, Li Yunmei, Le Chengfeng et al.. Scattering characteristics of taihu lake and its relationship models with suspended particle concentration[J]. Environmental Science, 2007, 28(12): 2688~2694
[19] M. Chami, E. B. Shybanov, T. Y. Churilova et al.. Optical properties of the particles in the Crimea coastal waters (Black Sea)[J]. J. Geophysical Research, 2005, 110: C11020
[20] T. J. Petzold. Volume Scattering Functions for Selected Ocean Waters[M]. San Diego: Scripps Institution of Oceanography Ref, 1972.72~78
[21] J. T. O. Kirk. Light and Photosynthesis in Aquatic Ecosystems[M]. Cambridge: Cambridge University Press, 1994
[22] E. Boss, W. S. Pegau, M. Lee, et al.Particulate backscattering ratio at LEO 15 and its use to study particle composition and distribution [J]. J. Geophysical Research, 2004, 109: C01014
[23] H. Loisel, X. Meriaux, J. F. Berthon et al.. Investigation of the optical backscattering to scattering ratio of marine particles in relation to their biogeochemical composition in the eastern English Channel and southern North Sea[J]. Limnol. Oceanogr., 2007, 52(2): 739~752
[24] E. Aas, J. Hkedal, K. Srensen. Spectral backscattering coefficient in coastal waters[J]. International J. Remote Sensing, 2005, 26(2): 331~343
[25] A. L. Whitmire, E. Boss, T. J. Cowles et al.. Spectral variability of the particulate backscattering ratio[J]. Opt. Express, 2007, 15(11): 7019~7031
[26] D. G. Bowers, E. G. Mitchelson-Jacob. Inherent optical properties of the Irish Sea determined from underwater irradiance measurements[J]. Estuar Coast Shelf Sic, 1996, 43(4): 433~447
[27] Qin Boqiang, Hu Weiping, Chen Weiming. The Process and Mechanism of Water Environment Evolvement in Taihu Lake[M]. Beijing: Science Press, 2004. 1~2
[28] Wang Zhigang, Liu Wenqing, Li Hongbin. Analysis of CDOM spatial distributions variations in Chaohu Lake and its sources by three dimensional fluorescence excitation-emission matrix[J]. Acta Scientiae Circumstantiae, 2006, 26(2): 275~279
[29] C. Morre, A. Barnard, D.Hankins et al.. Spectral absorption and attenuation mater(ac-s) user′s guide, revision A[R]. American: WET Labs Inc, 2005. 2~13
[30] Tang Junwu, Wang Xiaomei, Song Qingjun. Statistical inversion models for case 2 water color elements in the Yellow Sea and East china sea[J]. Advance in Marine Science, 2004, 22(B10): 1~7
[31] Li Yunmei, Huang Jiazhu, Wei Yuchun et al.. Inversing chlorophyll concentration of taihu lake by analytic model[J]. J. Remote Sensing, 2006, 10(2): 169~175
[32] H. R. Gordon, O. B. Brown, M. M. Jacobs. Computed relationships between the inherent and apparent optical properties of a flat homogeneous ocean[J]. Appl. Opt., 1975, 14(2): 417~427
[33] I. J. Althuis, S. Shimwell. Modeling of remote sensing reflectance spectra for suspended matter concentration detection in coastal waters[J]. EARSel Advances in Remote Sensing, 1995, 4(1): 53~59
[34] Zhang Bing, Shen Qian, Li Junsheng et al.. Retrieval of three kinds of representative water quality parameters of Lake Taihu from hyperspectral remote sensing data[J]. J. Lake Sciences, 2009, 21(2): 182~192
[35] D. Doxaran, K. Ruddick, D. McKee et al.. Spectral variations of light scattering by marine particles in coastal waters, from visible to near infrared[J]. Limnol. Oceanogr., 2009, 54(4): 1257~1271