RELATIVE IMPORTANCE OF MULTIPLE-SCATTERING BY AIR MOLECULES AND AEROSOLS IN FORMING THE ATMOSPHERIC PATH RADIANCE IN THE VISIBLE AND NEAR-INFRARED PARTS OF THE SPECTRUM

Single and multiple scattering by molecules or by atmospheric aerosols only (homogeneous scattering), and heterogeneous scattering by aeroso ls and molecules, are recorded in Monte Carlo simulations. It is shown that heterogeneous scattering (1) always contributes significantly to the path reflectance (rho(path)), (2) is realized at the expense of h omogeneous scattering, (3) decreases when aerosols are absorbing, and (4) introduces deviations in the spectral dependencies of reflectances compared with the Rayleigh exponent and the aerosol angstrom exponent . The ratio of rho(path) to the Rayleigh reflectance for an aerosol-fr ee atmosphere is linearly related to the aerosol optical thickness. Th is result provides a basis for a new scheme for atmospheric correction of remotely sensed ocean color observations. (C) 1998 Optical Society of America.