Modeling photosynthesis of discontinuous plant canopies by linking Geometric Optical Radiative Transfer model with biochemical processes

Abstract: Abstract. Modeling vegetation photosynthesis is essential for understanding carbon exchanges between terrestrial ecosystems and the atmosphere. The radiative transfer process within plant canopies is one of the key drivers that regulate canopy photosynthesis. Most vegetation cover consists of discrete plant crowns, of which the physical observation departs from the underlying assumption of a homogenous and uniform medium in classic radiative transfer theory. Here we advance the Geometric Optical Radiative Tran… Show more

“…The Growing Production Day (GPD) model is a process-based model that extends our previous work [52,53] and synthesizes state-of-the-art models to simulate canopy photosynthesis. The GPD model consists of several submodels and each submodel involves a complex system of equations.…”

Satellite-Based Models Need Improvements on Simulating Annual Gross Primary Productivity: A Comparison of Six Models for Regional Modeling of Deciduous Broadleaf Forests

“…The Growing Production Day (GPD) model is a process-based model that extends our previous work [52,53] and synthesizes state-of-the-art models to simulate canopy photosynthesis. The GPD model consists of several submodels and each submodel involves a complex system of equations.…”

Satellite-Based Models Need Improvements on Simulating Annual Gross Primary Productivity: A Comparison of Six Models for Regional Modeling of Deciduous Broadleaf Forests