Quantification of vegetation properties plays an indispensable role in assessments of ecosystem function with leaf dry mater content (LDMC) and specific leaf area (SLA) being two important vegetation properties. Methods for fast, reliable and accurate measurement of LDMC and SLA are still lacking. In this study, the inversion of the PROSPECT radiative transfer model was used to estimate these two leaf parameters. Inversion of PROSPECT traditionally aims at quantifying its direct input parameters rather than identifying the parameters which can be derived indirectly from the input parameters. The technique has been tested here to indirectly model these parameters for the first time. Biophysical parameters such as leaf area, as well as fresh ...
Statistical and radiative-transfer physically based studies have previously demonstrated the relatio...
Leaf nitrogen content has so far been quantified through empirical techniques using hyperspectral r...
Leaf nitrogen content has so far been quantified through empirical techniques using hyperspectral re...
Assessments of ecosystem functioning rely heavily on quantification of vegetation properties. The se...
This work applies remote sensing techniques to estimate dry matter (DM) content in tree leaves. Two ...
Seasonal changes in leaf chlorophyll across the canopy vertical profile provide information on ecosy...
Leaf dry matter content (LDMC) and specific leaf area (SLA) are two important traits in measuring bi...
Leaf biochemical and structural traits are vegetation characteristics related to various physiologic...
The accurate estimation of leaf water content (LWC) and knowledge about its spatial variation are im...
This study proposes a new method for inverting radiative transfer models (RTM) to retrieve canopy bi...
International audienceLeaf mass per area (LMA) and leaf equivalent water thickness (EWT) are key lea...
Assessment of vegetation biochemical and biophysical variables is useful when developing indicators ...
Leaf mass per area (LMA) and leaf equivalent water thickness (EWT) are key leaf functional traits pr...
Leaf area index (LAI) plays an important role in models of climate, hydrology, and ecosystem product...
One of the key traits in the assessment of ecosystem functions is a specific leaf area (SLA). The ma...
Statistical and radiative-transfer physically based studies have previously demonstrated the relatio...
Leaf nitrogen content has so far been quantified through empirical techniques using hyperspectral r...
Leaf nitrogen content has so far been quantified through empirical techniques using hyperspectral re...
Assessments of ecosystem functioning rely heavily on quantification of vegetation properties. The se...
This work applies remote sensing techniques to estimate dry matter (DM) content in tree leaves. Two ...
Seasonal changes in leaf chlorophyll across the canopy vertical profile provide information on ecosy...
Leaf dry matter content (LDMC) and specific leaf area (SLA) are two important traits in measuring bi...
Leaf biochemical and structural traits are vegetation characteristics related to various physiologic...
The accurate estimation of leaf water content (LWC) and knowledge about its spatial variation are im...
This study proposes a new method for inverting radiative transfer models (RTM) to retrieve canopy bi...
International audienceLeaf mass per area (LMA) and leaf equivalent water thickness (EWT) are key lea...
Assessment of vegetation biochemical and biophysical variables is useful when developing indicators ...
Leaf mass per area (LMA) and leaf equivalent water thickness (EWT) are key leaf functional traits pr...
Leaf area index (LAI) plays an important role in models of climate, hydrology, and ecosystem product...
One of the key traits in the assessment of ecosystem functions is a specific leaf area (SLA). The ma...
Statistical and radiative-transfer physically based studies have previously demonstrated the relatio...
Leaf nitrogen content has so far been quantified through empirical techniques using hyperspectral r...
Leaf nitrogen content has so far been quantified through empirical techniques using hyperspectral re...