The purpose of this research was to evaluate the performance of existing spectral band ratio algorithms and develop a novel algorithm to quantify phycocyanin (PC) in cyanobacteria using hyperspectral remotely-sensed data. We performed four spectroscopic experiments on two different laboratory cultured cyanobacterial species and found that the existing band ratio algorithms are highly sensitive to chlorophylls, making them inaccurate in predicting cyanobacterial abundance in the presence of other chlorophyll-containing organisms. We present a novel spectral band ratio algorithm using 700 and 600 nm that is much less sensitive to the presence of chlorophyll
Commonly used parameters to assess cyanobacteria blooms are chlorophyll a concentration and cyanobac...
International audienceThis study has been performed in the framework of a research program aiming to...
A novel algorithm is developed and validated to estimate phycocyanin (PC) pigment concentrations of ...
The purpose of this research was to evaluate the performance of existing spectral band ratio algorit...
This study introduces a semi-empirical algorithm to estimate the extent of the phycocyanin (PC) conc...
Most remote sensing algorithms for phytoplankton in inland waters aim at the retrieval of the pigmen...
An extensive field campaign was carried out for the validation of a previously published reflectance...
The pigment phycocyanin (PC) is a marker for cyanobacterial presence in eutrophic inland water. We p...
The growth of mass populations of toxin-producing cyanobacteria is a serious concern for the ecologi...
Cyanobacterial harmful algal blooms are an increasing threat to coastal and inland waters. These blo...
The pigment phycocyanin (PC) is a marker for cyanobacterial presence in eutrophic inland water. We p...
We evaluated the accuracy and sensitivity of six previously published reflectance based algorithms t...
Monitoring cyanobacteria is an essential step for the development of environmental and public health...
Retrieval of the phycocyanin concentration (PC), a characteristic pigment of, and proxy for, cyanoba...
The remote sensing of algal pigments is essential for understanding the temporal and spatial distrib...
Commonly used parameters to assess cyanobacteria blooms are chlorophyll a concentration and cyanobac...
International audienceThis study has been performed in the framework of a research program aiming to...
A novel algorithm is developed and validated to estimate phycocyanin (PC) pigment concentrations of ...
The purpose of this research was to evaluate the performance of existing spectral band ratio algorit...
This study introduces a semi-empirical algorithm to estimate the extent of the phycocyanin (PC) conc...
Most remote sensing algorithms for phytoplankton in inland waters aim at the retrieval of the pigmen...
An extensive field campaign was carried out for the validation of a previously published reflectance...
The pigment phycocyanin (PC) is a marker for cyanobacterial presence in eutrophic inland water. We p...
The growth of mass populations of toxin-producing cyanobacteria is a serious concern for the ecologi...
Cyanobacterial harmful algal blooms are an increasing threat to coastal and inland waters. These blo...
The pigment phycocyanin (PC) is a marker for cyanobacterial presence in eutrophic inland water. We p...
We evaluated the accuracy and sensitivity of six previously published reflectance based algorithms t...
Monitoring cyanobacteria is an essential step for the development of environmental and public health...
Retrieval of the phycocyanin concentration (PC), a characteristic pigment of, and proxy for, cyanoba...
The remote sensing of algal pigments is essential for understanding the temporal and spatial distrib...
Commonly used parameters to assess cyanobacteria blooms are chlorophyll a concentration and cyanobac...
International audienceThis study has been performed in the framework of a research program aiming to...
A novel algorithm is developed and validated to estimate phycocyanin (PC) pigment concentrations of ...