The University of Connecticut, Storrs, USAD. R. MillerThe University of Connecticut, Storrs, USAJ. D. LinThe University of Connecticut, Storrs, USAKluwer Academic PublishersBoundary-Layer MeteorologyA first-order closure scheme to describe counter-gradient momentum transport in plant canopies[J] . ...
This is assumed to be due to edge effects.The results show that a modification of the sparse canopy model can be made to represent heterogeneity at all scales.doi:10.1007/BF00836336E. M. BlythKluwer Academic PublishersBoundary-Layer Meteorology...
The modelling of radiative transfer in mSCOPE is based on the classical SAIL theory. A solution to the radiative transfer equation for multi-layer canopies is given, which allows calculating top-of-canopy (TOC) reflectance and the flux profile. The latter is used for the simulation of ...