Add to ORKGFoliar nitrogen is a critical factor in leaf physiological processes, plant growth, and ecosystem functioning, which has been proposed as one of the essential biodiversity variables. Nitrogen has been quantified by a number of empirical approaches using hyperspectral data, but the retrieval of nitrogen through a physically based approach remains a challenge. A recent study by Wang et al. (2015a) has revealed that leaf protein can be successfully estimated from fresh leaf spectra using a revised leaf radiative transfer model PROPECT-5 which incorporated the effects of leaf protein and cellulose + lignin on leaf reflectance and transmittance. This provides a potential approach of estimating nitrogen using radiative transfer models given the c...
Abstract-Field studies among diverse biomes demonstrate that this approach has been extended to ecos...
Regional botanical surveys supported by field experiments suggest that atmospheric nitrogen depositi...
Quantitative, spatially explicit estimates of canopy nitrogen are essential for understanding the st...
Foliar nitrogen is a critical factor in leaf physiological processes, plant growth, and ecosystem fu...
A statistical relationship between canopy mass-based foliar nitrogen concentration (%N) and canopy b...
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...
A growing number of investigations have shown that remote sensing of foliar nitrogen (N) concentrati...
Field studies among diverse biomes demonstrate that mass-based nitrogen concentration at leaf and ca...
The concentration of nitrogen (N) in foliage often limits photosynthesis and can influence a number ...
Plant stress is often expressed as a reduction in amount of biomass or leaf area index (LAI). In add...
The nitrogen content in plant foliar tissues (foliar N) regulates photosynthetic capacity and has a ...
Models of radiative transfer (RT) are important tools for remote sensing of vegetation, allowing for...
Hyperspectral remote sensing serves as an effective tool for estimating foliar nitrogen using a vari...
Hyperspectral remote sensing serves as an effective tool for estimating foliar nitrogen using a vari...
Abstract-Field studies among diverse biomes demonstrate that this approach has been extended to ecos...
Regional botanical surveys supported by field experiments suggest that atmospheric nitrogen depositi...
Quantitative, spatially explicit estimates of canopy nitrogen are essential for understanding the st...
Foliar nitrogen is a critical factor in leaf physiological processes, plant growth, and ecosystem fu...
A statistical relationship between canopy mass-based foliar nitrogen concentration (%N) and canopy b...
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...
A growing number of investigations have shown that remote sensing of foliar nitrogen (N) concentrati...
Field studies among diverse biomes demonstrate that mass-based nitrogen concentration at leaf and ca...
The concentration of nitrogen (N) in foliage often limits photosynthesis and can influence a number ...
Plant stress is often expressed as a reduction in amount of biomass or leaf area index (LAI). In add...
The nitrogen content in plant foliar tissues (foliar N) regulates photosynthetic capacity and has a ...
Models of radiative transfer (RT) are important tools for remote sensing of vegetation, allowing for...
Hyperspectral remote sensing serves as an effective tool for estimating foliar nitrogen using a vari...
Hyperspectral remote sensing serves as an effective tool for estimating foliar nitrogen using a vari...
Abstract-Field studies among diverse biomes demonstrate that this approach has been extended to ecos...
Regional botanical surveys supported by field experiments suggest that atmospheric nitrogen depositi...
Quantitative, spatially explicit estimates of canopy nitrogen are essential for understanding the st...