Patton, E.G., K.J. Davis, M.C. Barth, and P.P. Sullivan, 2001. Decaying scalars emitted by a forest canopy: A numerical study, Boundary-Layer Meteorology, 100 (1), 91-129.
A large-eddy simulation is modified to include multiple scalars emitted by a plant canopy. Each of these scalars is subjected to varying rates of chemical loss. Presented is a detailed comparison between conserved species and species undergoing first- and second-order chemical loss. Profiles of mean mixing ratio, mixing-ratio variance and vertical mixing-ratio flux reveal the influence of chemical reactivity. Distribution of the scalar source through the depth of the canopy is shown to locally reduce the reaction rate for second-order species. Transport efficiencies, diffusion coefficients, and mean source heights also exhibit chemical dependencies. Budgets of mixing-ratio variance and flux clucidate the mechanisms through which chemistry modifies each. Instantaneous fields show the existence of intermittently occuring coherent structures that are thought to enhance species segregation.