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Light propagation, coefficient attenuation, and the depth of one optical depth in different water types

Bisman Nababan, D Ulfah, James P. Panjaitan

2021IOP Conference Series Earth and Environmental Science14 citationsDOIOpen Access PDF

Abstract

Abstract The ocean color satellite can only sense a water column up to one optical depth. However, literatur regarding the depth of one optical depth is very limited to none. This study aimed to determine light propagation, attenuation coefficient (K d ), and the depth of one optical depth in different water types. We used in situ data of downwelling irradiance (E d ) with depths taken using the instrument of submersible marine environmental radiometer (MER) in the northeastern gulf of mexico (NEGOM) in April 2000. We also used SeaWiFS data such as water leaving radience ( L w ), remote sensing refectance (R rs ), and chlorophyll-a concentration (Chla). The results showed that the light propagation pattern generally decreased with increasing depth. The reduction in light intensity with depth was very strong in the red wavelengths, lower in the green wavelengths, and the lowest in the blue wavelengths. In contrast, Kd values were generally found the lowest at the blue wavelengths, slightly increase at the purple and green wavelengths, and the highest at the red wavelengths. The depth of one optical depth in the case-1 waters was found as deep as 39.79 m (λ=475 nm), followed by intermediate water of 31.79 m (λ=475 nm), and in the case-2 waters of 16.08 m (λ=490 nm). Both Kd (490) in situ and modelled results showed a good correlation (r=0.83-0.84) and R 2 values of 0.68-0.71.

Topics & Concepts

WavelengthSeaWiFSIrradianceAttenuationAttenuation coefficientOptical depthDownwellingRadiometerOcean colorOpticsGeologyRemote sensingSatelliteOceanographyChemistryPhysicsUpwellingNutrientPhytoplanktonMeteorologyAstronomyOrganic chemistryAerosolMarine and coastal ecosystemsWater Quality Monitoring and AnalysisCoral and Marine Ecosystems Studies