Two-flow simulation of the natural light field within a canopy of submerged aquatic plants
Author:
Publisher
The Optical Society
Reference19 articles.
1. The calculation of the directional reflectance of a vegetative canopy
2. The cause of azimuthal variations in directional reflectance of vegetative canopies
3. Radiation Through a Foggy Atmosphere
4. Plant-Canopy Irradiance Specified by the Duntley Equations
5. Suits reflectance models for wheat and cotton: theoretical and experimental tests
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5. OPTICAL REMOTE SENSING TECHNIQUES TO ESTIMATE PHYTOPLANKTON CHLOROPHYLL a CONCENTRATIONS IN COASTAL;Remote Sensing and Digital Image Processing;2006
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