The degree of which the observable canopy bidirectional reflectance factors (BRF) express plant trait variation at leaf and canopy scales is the fundamental physical basis underlying the use of optical remote sensing data for discriminating tree species and estimating forest biophysical variables. In this study, we quantified the relative contribution of variations in leaf optical properties (LOP), canopy structural properties, and understory reflectance, to canopy BRF variability in a boreal forest, at the spatial and spectral resolutions of Sentinel-2 (S2) Multi-Spectral Instrument. Our approach was based on physically-based forest reflectance model and global sensitivity analysis (SA) parameterized entirely with field measurements. Resul...
Boreal forests exhibit strong seasonal dynamics in their reflectance spectra during the short, snow-...
The photochemical reflectance index (PRI) is a proxy for light use efficiency (LUE), and is used in ...
Forest background reflectivities with seasonal and spatial variations are critically important in th...
The degree of which the observable canopy bidirectional reflectance factors (BRF) express plant trai...
Inherent variability in the spectral properties of boreal forests complicates the retrieval of canop...
The forest reflectance and transmittance model (FRT) is applicable over a wide swath of boreal fores...
Spectral libraries have a fundamental role in the development of interpretation methods for airborne...
As a part of the Boreal Ecosystem-Atmosphere Study (BOREAS), measurements of the spectral reflectanc...
Remote sensing provides high accuracy/precision for quantifying forest biophysical parameters needed...
Spectral invariants provide a novel approach for characterizing canopy structure in forest reflectan...
Two Fagus sylvatica L. stands with different Leaf Area Index and similar planophile Leaf Angle Distr...
Two Fagus sylvatica L. stands with different Leaf Area Index and similar planophile Leaf Angle Distr...
Continuous field of tree cover, or canopy cover (CC) is an important information required in ecology...
The photochemical reflectance index (PRI) is a proxy for light use efficiency (LUE), and is used in ...
Forest leaf area index (LAI), is an important variable in carbon balance models. However, understory...
Boreal forests exhibit strong seasonal dynamics in their reflectance spectra during the short, snow-...
The photochemical reflectance index (PRI) is a proxy for light use efficiency (LUE), and is used in ...
Forest background reflectivities with seasonal and spatial variations are critically important in th...
The degree of which the observable canopy bidirectional reflectance factors (BRF) express plant trai...
Inherent variability in the spectral properties of boreal forests complicates the retrieval of canop...
The forest reflectance and transmittance model (FRT) is applicable over a wide swath of boreal fores...
Spectral libraries have a fundamental role in the development of interpretation methods for airborne...
As a part of the Boreal Ecosystem-Atmosphere Study (BOREAS), measurements of the spectral reflectanc...
Remote sensing provides high accuracy/precision for quantifying forest biophysical parameters needed...
Spectral invariants provide a novel approach for characterizing canopy structure in forest reflectan...
Two Fagus sylvatica L. stands with different Leaf Area Index and similar planophile Leaf Angle Distr...
Two Fagus sylvatica L. stands with different Leaf Area Index and similar planophile Leaf Angle Distr...
Continuous field of tree cover, or canopy cover (CC) is an important information required in ecology...
The photochemical reflectance index (PRI) is a proxy for light use efficiency (LUE), and is used in ...
Forest leaf area index (LAI), is an important variable in carbon balance models. However, understory...
Boreal forests exhibit strong seasonal dynamics in their reflectance spectra during the short, snow-...
The photochemical reflectance index (PRI) is a proxy for light use efficiency (LUE), and is used in ...
Forest background reflectivities with seasonal and spatial variations are critically important in th...