| Dataset |
Godiva2 links |
Test GetMap: image/jpeg |
Test GetMap: image/png |
Test GetMap: application/vnd.google-earth.kmz |
Test GetMap: image/gif |
FeatureInfo |
SEADAS SST
WMS 1.3.0
WMS 1.1.1
Edit variables (requires login)
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sea_surface_temperature
cloud_mask
Level-2 Processing Flags
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sea_surface_temperature
cloud_mask
Level-2 Processing Flags
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sea_surface_temperature
cloud_mask
Level-2 Processing Flags
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sea_surface_temperature
cloud_mask
Level-2 Processing Flags
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sea_surface_temperature
cloud_mask
Level-2 Processing Flags
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sea_surface_temperature
cloud_mask
Level-2 Processing Flags
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SEADAS
WMS 1.3.0
WMS 1.1.1
Edit variables (requires login)
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zenith_angle
Normalized water-leaving radiance at 443 nm
Absorption due to phytoplankton at 443 nm, QAA algorithm
Fluorescence Line Height
Diffuse attenuation coefficient at 490 nm (OBPG)
Chlorophyll Concentration, Carder model
Normalized water-leaving radiance at 531 nm
Normalized water-leaving radiance at 412 nm
Aerosol optical thickness at 551 nm
Normalized water-leaving radiance at 488 nm
Aerosol optical thickness at 869 nm
Diffuse Attenuation Coefficient at 488 nm, Lee Algorithm
Level-2 Processing Flags
Chlorophyll Concentration, OC3 Algorithm
Normalized water-leaving radiance at 869 nm
Absorption due to gelbstof and detrital material at 443 nm, Carder algorithm
Normalized water-leaving radiance at 748 nm
Absorption due to gelbstof and detrital material at 443 nm, QAA algorithm
Normalized water-leaving radiance at 551 nm
Fluorescence Efficiency
Sensor Azimuth Angle
Normalized water-leaving radiance at 678 nm
Angstrom coefficient, 551 to 869 nm
Normalized water-leaving radiance at 667 nm
Total Suspended Matter, D. Clark, 2003
Particulate backscatter at 551 nm, QAA algorithm
Epsilon of aerosol correction at 765 and 865 nm
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zenith_angle
Normalized water-leaving radiance at 443 nm
Absorption due to phytoplankton at 443 nm, QAA algorithm
Fluorescence Line Height
Diffuse attenuation coefficient at 490 nm (OBPG)
Chlorophyll Concentration, Carder model
Normalized water-leaving radiance at 531 nm
Normalized water-leaving radiance at 412 nm
Aerosol optical thickness at 551 nm
Normalized water-leaving radiance at 488 nm
Aerosol optical thickness at 869 nm
Diffuse Attenuation Coefficient at 488 nm, Lee Algorithm
Level-2 Processing Flags
Chlorophyll Concentration, OC3 Algorithm
Normalized water-leaving radiance at 869 nm
Absorption due to gelbstof and detrital material at 443 nm, Carder algorithm
Normalized water-leaving radiance at 748 nm
Absorption due to gelbstof and detrital material at 443 nm, QAA algorithm
Normalized water-leaving radiance at 551 nm
Fluorescence Efficiency
Sensor Azimuth Angle
Normalized water-leaving radiance at 678 nm
Angstrom coefficient, 551 to 869 nm
Normalized water-leaving radiance at 667 nm
Total Suspended Matter, D. Clark, 2003
Particulate backscatter at 551 nm, QAA algorithm
Epsilon of aerosol correction at 765 and 865 nm
|
zenith_angle
Normalized water-leaving radiance at 443 nm
Absorption due to phytoplankton at 443 nm, QAA algorithm
Fluorescence Line Height
Diffuse attenuation coefficient at 490 nm (OBPG)
Chlorophyll Concentration, Carder model
Normalized water-leaving radiance at 531 nm
Normalized water-leaving radiance at 412 nm
Aerosol optical thickness at 551 nm
Normalized water-leaving radiance at 488 nm
Aerosol optical thickness at 869 nm
Diffuse Attenuation Coefficient at 488 nm, Lee Algorithm
Level-2 Processing Flags
Chlorophyll Concentration, OC3 Algorithm
Normalized water-leaving radiance at 869 nm
Absorption due to gelbstof and detrital material at 443 nm, Carder algorithm
Normalized water-leaving radiance at 748 nm
Absorption due to gelbstof and detrital material at 443 nm, QAA algorithm
Normalized water-leaving radiance at 551 nm
Fluorescence Efficiency
Sensor Azimuth Angle
Normalized water-leaving radiance at 678 nm
Angstrom coefficient, 551 to 869 nm
Normalized water-leaving radiance at 667 nm
Total Suspended Matter, D. Clark, 2003
Particulate backscatter at 551 nm, QAA algorithm
Epsilon of aerosol correction at 765 and 865 nm
|
zenith_angle
Normalized water-leaving radiance at 443 nm
Absorption due to phytoplankton at 443 nm, QAA algorithm
Fluorescence Line Height
Diffuse attenuation coefficient at 490 nm (OBPG)
Chlorophyll Concentration, Carder model
Normalized water-leaving radiance at 531 nm
Normalized water-leaving radiance at 412 nm
Aerosol optical thickness at 551 nm
Normalized water-leaving radiance at 488 nm
Aerosol optical thickness at 869 nm
Diffuse Attenuation Coefficient at 488 nm, Lee Algorithm
Level-2 Processing Flags
Chlorophyll Concentration, OC3 Algorithm
Normalized water-leaving radiance at 869 nm
Absorption due to gelbstof and detrital material at 443 nm, Carder algorithm
Normalized water-leaving radiance at 748 nm
Absorption due to gelbstof and detrital material at 443 nm, QAA algorithm
Normalized water-leaving radiance at 551 nm
Fluorescence Efficiency
Sensor Azimuth Angle
Normalized water-leaving radiance at 678 nm
Angstrom coefficient, 551 to 869 nm
Normalized water-leaving radiance at 667 nm
Total Suspended Matter, D. Clark, 2003
Particulate backscatter at 551 nm, QAA algorithm
Epsilon of aerosol correction at 765 and 865 nm
|
zenith_angle
Normalized water-leaving radiance at 443 nm
Absorption due to phytoplankton at 443 nm, QAA algorithm
Fluorescence Line Height
Diffuse attenuation coefficient at 490 nm (OBPG)
Chlorophyll Concentration, Carder model
Normalized water-leaving radiance at 531 nm
Normalized water-leaving radiance at 412 nm
Aerosol optical thickness at 551 nm
Normalized water-leaving radiance at 488 nm
Aerosol optical thickness at 869 nm
Diffuse Attenuation Coefficient at 488 nm, Lee Algorithm
Level-2 Processing Flags
Chlorophyll Concentration, OC3 Algorithm
Normalized water-leaving radiance at 869 nm
Absorption due to gelbstof and detrital material at 443 nm, Carder algorithm
Normalized water-leaving radiance at 748 nm
Absorption due to gelbstof and detrital material at 443 nm, QAA algorithm
Normalized water-leaving radiance at 551 nm
Fluorescence Efficiency
Sensor Azimuth Angle
Normalized water-leaving radiance at 678 nm
Angstrom coefficient, 551 to 869 nm
Normalized water-leaving radiance at 667 nm
Total Suspended Matter, D. Clark, 2003
Particulate backscatter at 551 nm, QAA algorithm
Epsilon of aerosol correction at 765 and 865 nm
|
zenith_angle
Normalized water-leaving radiance at 443 nm
Absorption due to phytoplankton at 443 nm, QAA algorithm
Fluorescence Line Height
Diffuse attenuation coefficient at 490 nm (OBPG)
Chlorophyll Concentration, Carder model
Normalized water-leaving radiance at 531 nm
Normalized water-leaving radiance at 412 nm
Aerosol optical thickness at 551 nm
Normalized water-leaving radiance at 488 nm
Aerosol optical thickness at 869 nm
Diffuse Attenuation Coefficient at 488 nm, Lee Algorithm
Level-2 Processing Flags
Chlorophyll Concentration, OC3 Algorithm
Normalized water-leaving radiance at 869 nm
Absorption due to gelbstof and detrital material at 443 nm, Carder algorithm
Normalized water-leaving radiance at 748 nm
Absorption due to gelbstof and detrital material at 443 nm, QAA algorithm
Normalized water-leaving radiance at 551 nm
Fluorescence Efficiency
Sensor Azimuth Angle
Normalized water-leaving radiance at 678 nm
Angstrom coefficient, 551 to 869 nm
Normalized water-leaving radiance at 667 nm
Total Suspended Matter, D. Clark, 2003
Particulate backscatter at 551 nm, QAA algorithm
Epsilon of aerosol correction at 765 and 865 nm
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