Influence of dissolved organic materials on turbid water optical properties and remote‐sensing reflectance

Abstract

Results from both field measurements and laboratory simulations are used to assess the effects of dissolved organic materials on turbid‐water optical properties. Upwelled reflectance, attenuation, absorption, and backscatter spectral properties at wavelengths from 450 to 800 nm are examined in relation to water chemistry. From these data it is clear that dissolved organic materials decrease upwelled reflectance from turbid waters. Depending on wavelength, the decrease in reflectance is a nonlinear function of concentration with largest gradients at low carbon concentrations. Large increases in absorption coefficient (particularly at blue wavelengths) are observed with increases in dissolved organic material. Changes in backscatter coefficient are moderate, indicating minimal changes in particle scattering. Upwelled reflectance is highly correlated with two backscatter‐absorption parameters used in certain optical models. Both backscatter‐absorption parameters prove to be nonlinear with dissolved organic material concentration change.