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chlorophyllRecord label
Leaf biochemical concentrations influence both leaf and canopy spectra at their absorption bands. Leaf scale model PROSPECT, canopy scale model SAIL and their coupled model PROSAIL are used to generate simulated reflectance an transmittance spectra to study the influence of biochemical concentrations. Three biochemical input variables of PROSPECT model, concentration of chlorophyll, leaf water and dry matters, are studied in this paper. Figures show that their influences on both leaf reflectance spectra and canopy reflectance spectra are similar. The influence of chlorophyll is located at visible region, leaf water at near infrared region especially centered at 1400 nm and 1900 nm, and dry matters at near infrared region especially at some ...
The light absorption coefficient of vegetation is related to the content and composition of pigments...
International audienceLeaf biochemical and structural traits are vegetation characteristics related ...
The performance of PROSPECT-5 radiative transfer model for predicting leaf chlorophyll from reflecta...
Understanding the interaction of radiation with vegetation canopies requires a knowledge of the spec...
The reflectance properties of tree leaves and canopies are influenced by their biochemical concentra...
In an effort to further develop the methods needed to remotely sense the biochemical concentration o...
This article presents the findings of a laboratory experiment using stacks of leaves obtained from f...
The biophysical, biochemical, and optical properties of 63 fresh leaves and 58 dry leaves were measu...
Leaf chlorophyll content plays a vital role in plant photosynthesis. The PROSPECT model has been wid...
Leaf chlorophyll content plays a vital role in plant photosynthesis. The PROSPECT model has been wid...
The biophysical, biochemical, and optical properties of 63 fresh leaves and 58 dry leaves were measu...
The vegetation radiative transfer model, Cupid, was tested by comparing simulations with measured ca...
The vegetation radiative transfer model, Cupid, was tested by comparing simulations with measured ca...
The vegetation radiative transfer model, Cupid, was tested by comparing simulations with measured ca...
Leaf biochemical and structural traits are vegetation characteristics related to various physiologic...
The light absorption coefficient of vegetation is related to the content and composition of pigments...
International audienceLeaf biochemical and structural traits are vegetation characteristics related ...
The performance of PROSPECT-5 radiative transfer model for predicting leaf chlorophyll from reflecta...
Understanding the interaction of radiation with vegetation canopies requires a knowledge of the spec...
The reflectance properties of tree leaves and canopies are influenced by their biochemical concentra...
In an effort to further develop the methods needed to remotely sense the biochemical concentration o...
This article presents the findings of a laboratory experiment using stacks of leaves obtained from f...
The biophysical, biochemical, and optical properties of 63 fresh leaves and 58 dry leaves were measu...
Leaf chlorophyll content plays a vital role in plant photosynthesis. The PROSPECT model has been wid...
Leaf chlorophyll content plays a vital role in plant photosynthesis. The PROSPECT model has been wid...
The biophysical, biochemical, and optical properties of 63 fresh leaves and 58 dry leaves were measu...
The vegetation radiative transfer model, Cupid, was tested by comparing simulations with measured ca...
The vegetation radiative transfer model, Cupid, was tested by comparing simulations with measured ca...
The vegetation radiative transfer model, Cupid, was tested by comparing simulations with measured ca...
Leaf biochemical and structural traits are vegetation characteristics related to various physiologic...
The light absorption coefficient of vegetation is related to the content and composition of pigments...
International audienceLeaf biochemical and structural traits are vegetation characteristics related ...
The performance of PROSPECT-5 radiative transfer model for predicting leaf chlorophyll from reflecta...
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