Impact of Thermohaline Conditions on Vertical Variability of Optical Properties in the Gulf of Finland (Baltic Sea): Implications for Water Quality Remote Sensing

Abstract: Vertical variability of inherent optical properties (IOPs) affect the water quality retrievals from remote sensing data. Here, we studied the vertical variability of IOPs and simulated apparent optical properties (AOPs) in the Gulf of Finland (Baltic Sea) under three characteristic (non)stratification conditions. In the case of mixed water column, the vertical variability of optically significant constituents (OSC) and IOPs was relatively small. While in case of stratified water column the IOPs of surface laye… Show more

“…The optical variability over short spatial scales, as well as the patchiness in Chl-a concentrations and of cyanobacterial blooms in the basin, are the likely sources of the high dispersion reported in the match-up analyses with the 1 km resolution pixel [30,31,42,[79][80][81]. The heterogeneity of statistical results is documented by the higher uncertainty estimated with the COMBINE dataset in comparison to the water samples collected along the Alg@line transects.…”

“…The Chl-a retrieval in the Baltic Sea is hampered by two complementary difficulties [24][25][26][27]. The first is the optical complexity of the basin, where the colored dissolved organic matter (CDOM) dominates the absorption budget in the blue spectral range with a high variability over short spatial scales, leading to low reflectance especially in the blue part of the spectrum [20,[27][28][29][30][31]. The second is the reduced performance of the atmospheric correction, often producing erroneously low or even negative R rs values, consequently limiting the capability to retrieve accurate R rs spectral images [24,27,[32][33][34].…”

Phytoplankton Bloom Dynamics in the Baltic Sea Using a Consistently Reprocessed Time Series of Multi-Sensor Reflectance and Novel Chlorophyll-a Retrievals

“…The optical variability over short spatial scales, as well as the patchiness in Chl-a concentrations and of cyanobacterial blooms in the basin, are the likely sources of the high dispersion reported in the match-up analyses with the 1 km resolution pixel [30,31,42,[79][80][81]. The heterogeneity of statistical results is documented by the higher uncertainty estimated with the COMBINE dataset in comparison to the water samples collected along the Alg@line transects.…”

“…The Chl-a retrieval in the Baltic Sea is hampered by two complementary difficulties [24][25][26][27]. The first is the optical complexity of the basin, where the colored dissolved organic matter (CDOM) dominates the absorption budget in the blue spectral range with a high variability over short spatial scales, leading to low reflectance especially in the blue part of the spectrum [20,[27][28][29][30][31]. The second is the reduced performance of the atmospheric correction, often producing erroneously low or even negative R rs values, consequently limiting the capability to retrieve accurate R rs spectral images [24,27,[32][33][34].…”

Phytoplankton Bloom Dynamics in the Baltic Sea Using a Consistently Reprocessed Time Series of Multi-Sensor Reflectance and Novel Chlorophyll-a Retrievals

Fronts in the Baltic Sea: A Review with a Focus on Its North-Eastern Part

Spatio-temporal variability of turbidity derived from Sentinel-2 in Reloncaví sound, Northern Patagonia, Chile