Publications

Karabashev, GS (2023). Effects of Mesoscale Mixing on Phytopigment Determinations in the Photic Zone from Multispectral Ocean Color Data (The Case of the Tasman Sea). OCEANOLOGY, 63(1), 35-44.

Abstract
The inconstancy of the composition of phytopigments during intensive mesoscale mixing of the photic zone of the Tasman Sea was investigated from MODIS images of its surface. For this, each pixel of the image is assigned a WRM (wavelength of reflectance minimum) index equal to the sum of the wavelengths of the minima in the reflectance spectrum of the water surface within the boundaries of a pixel on the ground. The WRM is acceptable as an indicator of the inconstancy of the composition of phytopigments in the water column, since the spectra of light absorption by phytopigments in an aqueous medium change following the species affiliation of phytoplankton, even though light attenuation by water as a solvent and its admixtures of a different nature are inferior to light absorption by phytopigments in spectral selectivity. A comparative analysis of the WRM index distributions and characteristics of Tasman Sea water showed that the increased mesoscale variability of open ocean waters is accompanied by an increase in phytopigment content to a level where pigment minima appear in the spectra of backscattered solar radiation at 400-550 nm, distinguishable by multispectral ocean color scanners. This effect is not considered by common algorithms for chlorophyll determination using data from multispectral ocean color scanners (band-ratio algorithms) and is probably one of the reasons for the known tendency of such algorithms to overestimate chlorophyll concentration with respect to its actual content even in water areas free of the influence of external sources of optically significant admixtures in the water column.

DOI:
10.1134/S0001437023010046

ISSN:
1531-8508