[2] Antoine D, Morel A.A multiple scattering algorithm for at- mospheric correction of remotely sensed ocean colour (MERIS instrument):principle and implementation for at- mospheres carrying various aerosols including absorbing ones[J]. Int.J.Remote Sens., 1999, 20 :1875—916.
[3] Hu C , Carder K L , Muller-Karger F E.Atmospheric correc- tion of SeaWiFS imagery over turbid coastal waters:a practi- cal method[J]. Remote Sensing of Environment, 2000, 74 : 195—206.
[4] Shanmugam P , Ahn Y H .New atmospheric correction tech- nique to retrieve the ocean colour from SeaWiFS imagery in complex coastal waters[J]. J.Optics A:Pure and Applied Optics, 2007, 9 :511—530.
[5] Arnone R A , Martinolich P , Gould Jr , et al.Coastal optical properties using SeaWiFS, Ocean Optics XIV [C].Kailua-Ko- na, Hawaii, USA:SPIE, 1998.
[6] Ruddick K G , Ovidio F , Rijkeboer M .Atmospheric correc- tion of SeaWiFS imagery for turbid coastal and inland waters [J]. Applied Optics , 2000, 39 (6):897—912.
[8] Gordon H R , Wang M H .Retrieval of water-leaving radi- ance and aerosol optical thickness over the oceans with Sea- WiFS:a preliminary algorithm[J]. Applied Optics , 1994, 33 : 443—452.
[9] Hale G M , Querry M R.Optical constants of water in the 200 nm to 200 μm wavelength region[J]. Applied Optics , 1937, 12 :555—563.
[10] Wang M H , Shi W .Estimation of ocean contribution at the MODIS near-infrared wavelengths along the east coast of the U.S.:Two case studies[J]. Geophysical Research Let- ters, 2005, 32 , L13606.