Add to ORKGThis paper presents the interim results of an on-going study into the effects of both soil contamination and nitrogen application on the red edge-chlorophyll concentration relationship. Canopy reflectance data were collected using a field spectrometer in conjunction with substantial ground-based measurements of chlorophyll concentration across a grass al-id wheat study site in the U.K. There was a strong red edge-chlorophyll concentration relationship across both study sites and the correlation between red edge position (REP) and canopy chlorophyll concentration was r = 0.86 and 0.81 for the grassland and winter wheat study sites respectively. The strength of these relationships indicated the potential of the REP as a means oi estimating ca...
Several methods for extracting the chlorophyll sensitive red-edge position (REP) from hyperspectral ...
Information on the amount and spatial distribution of canopy chlorophyll content is of importance fo...
Airborne hyperspectral remote observations, characterized by high spatial and spectral resolution, a...
This paper presents the interim results of an on-going study into the effects of both soil contamina...
This article investigates the effects of bark soil contamination and nitrogen application on the red...
The overall aim of this research is to investigate the potential of imaging spectrometry for the rem...
The chlorophyll composition of a vegetation canopy is an important indicator of productivity, plant ...
Farmers must balance the competing goals of supplying contributions of background reflectance, while...
Considerable variations have been noted in the relationship between remotely sensed data and canopy ...
Plant stress is often expressed as a reduction in amount of biomass or leaf area index (LAI). In add...
Controlled application of agricultural nitrogen (N) has recently become a focus of remote sensing te...
The concentration of foliar nitrogen in tropical grass is one of the factors that explain the distri...
Using reflectance spectroscopy to monitor vegetation pigments is a crucial method to know the nutrit...
The objective of this research was to identify the relationship between chlorophyll contents and spe...
Several methods for extracting the chlorophyll sensitive red-edge position (REP) from hyperspectral ...
Information on the amount and spatial distribution of canopy chlorophyll content is of importance fo...
Airborne hyperspectral remote observations, characterized by high spatial and spectral resolution, a...
This paper presents the interim results of an on-going study into the effects of both soil contamina...
This article investigates the effects of bark soil contamination and nitrogen application on the red...
The overall aim of this research is to investigate the potential of imaging spectrometry for the rem...
The chlorophyll composition of a vegetation canopy is an important indicator of productivity, plant ...
Farmers must balance the competing goals of supplying contributions of background reflectance, while...
Considerable variations have been noted in the relationship between remotely sensed data and canopy ...
Plant stress is often expressed as a reduction in amount of biomass or leaf area index (LAI). In add...
Controlled application of agricultural nitrogen (N) has recently become a focus of remote sensing te...
The concentration of foliar nitrogen in tropical grass is one of the factors that explain the distri...
Using reflectance spectroscopy to monitor vegetation pigments is a crucial method to know the nutrit...
The objective of this research was to identify the relationship between chlorophyll contents and spe...
Several methods for extracting the chlorophyll sensitive red-edge position (REP) from hyperspectral ...
Information on the amount and spatial distribution of canopy chlorophyll content is of importance fo...
Airborne hyperspectral remote observations, characterized by high spatial and spectral resolution, a...