This article provides a proof of concept for using a biogeochemical/ecosystem/optical model with a radiative transfer component as a laboratory to explore aspects of ocean colour. We focus here on the satellite ocean colour chlorophyll a (Chl a) product provided by the often-used blue/green reflectance ratio algorithm. The model produces output that can be compared directly to the real-world ocean colour remotely sensed reflectance. This model output can then be used to produce an ocean colour satellite-like Chl a product using an algorithm linking the blue versus green reflectance similar to that used for the real world. Given that the model includes complete knowledge of the (model) water constituents, optics and reflectance, we can explo...
Satellite-derived remote-sensing reflectance (Rrs) can be used for mapping biogeochemically relevant...
A new empirical algorithm is proposed to estimate surface chlorophyll-a concentrations (Chl) in the ...
International audienceDuring the INSEA project the potential positive role that remote sensing produ...
This article provides a proof of concept for using a biogeochemical/ecosystem/optical model with a r...
Monitoring changes in marine phytoplankton is important as they form the foundation of the marine fo...
[1] The bio-optical assumption states that ocean optical properties should covary with the chlorophy...
International audienceThe PHYSAT method, which enables identification of four different phytoplankto...
Satellite-derived remote-sensing reflectance (Rrs) just above the sea surface can be used for mappin...
Radiances are the source of information from ocean color sensors to produce estimates of biological ...
[1] A new empirical algorithm is proposed to estimate surface chlorophyll a (Chl) concentrations in ...
Marine colored dissolved organic matter (CDOM) (also gilvin or yellow substance) absorbs light at an...
356-367In a companion paper [Fuentes-Yaco et al., Indian J. Mar. Sci., 34(2005),.341-355], it was de...
Satellite-derived remote-sensing reflectance (Rrs) can be used for mapping biogeochemically relevant...
A large data set containing coincident in situ chlorophyll and remote sensing reflectance measuremen...
Satellite-derived remote-sensing reflectance (Rrs) can be used for mapping biogeochemically relevant...
A new empirical algorithm is proposed to estimate surface chlorophyll-a concentrations (Chl) in the ...
International audienceDuring the INSEA project the potential positive role that remote sensing produ...
This article provides a proof of concept for using a biogeochemical/ecosystem/optical model with a r...
Monitoring changes in marine phytoplankton is important as they form the foundation of the marine fo...
[1] The bio-optical assumption states that ocean optical properties should covary with the chlorophy...
International audienceThe PHYSAT method, which enables identification of four different phytoplankto...
Satellite-derived remote-sensing reflectance (Rrs) just above the sea surface can be used for mappin...
Radiances are the source of information from ocean color sensors to produce estimates of biological ...
[1] A new empirical algorithm is proposed to estimate surface chlorophyll a (Chl) concentrations in ...
Marine colored dissolved organic matter (CDOM) (also gilvin or yellow substance) absorbs light at an...
356-367In a companion paper [Fuentes-Yaco et al., Indian J. Mar. Sci., 34(2005),.341-355], it was de...
Satellite-derived remote-sensing reflectance (Rrs) can be used for mapping biogeochemically relevant...
A large data set containing coincident in situ chlorophyll and remote sensing reflectance measuremen...
Satellite-derived remote-sensing reflectance (Rrs) can be used for mapping biogeochemically relevant...
A new empirical algorithm is proposed to estimate surface chlorophyll-a concentrations (Chl) in the ...
International audienceDuring the INSEA project the potential positive role that remote sensing produ...