Features of relationship between the biooptical parameters' distributions and hydrological water structure in the northern Black Sea in winter 2020  id статьи: 1289
Тип публикации
материалы конференции
Журнал
Proceedings of SPIE - The International Society for Optical Engineering.
27th International Symposium on Atmospheric and Ocean Optics, Atmospheric Physics 2021Moscow5 July 2021 до 9 July 2021
ISSN:0277786X
Выходные данные
том
11916
выпуск
страницы
№ 119163J
Абстракт
Based on the results of hydrological and hydrooptical measurements carried out in the winter of 2020 (November 27 - December 16) off the Crimea coast during the 115th cruise of the R/V Professor Vodyanitsky, the vertical structure of the coefficients of linear relationships between the horizontal distributions of temperature, salinity, density and total suspended matter concentration with a discreteness of 1 m in depth was analyzed. It is shown that the closest linear correlation are founded between temperature, salinity and total suspended matter concentration within the upper quasihomogeneous layer. In this layer, the values of the correlation coefficients between these parameters have a negative sign and exceed 0,75 in absolute value. Below the upper quasi-homogeneous layer, in the layer of high vertical gradients of thermohaline parameters, these connections noticeably weaken, while in the temperature and density fields they change sign and become positive. At the depths of the cold intermediate layer, linear connections increase again. The estimates of the relationships between the distribution of the fluorescence intensity of phycocyanin and phycoerythrin with thermohaline parameters revealed in most cases a low correlation level. A high direct correlation with the values of R ~ 0,65 - 0,75 was revealed only between the distributions of the phycocyanin fluorescence intensity and the temperature distribution under the main thermocline in the 65 - 70 m layer. © 2021 SPIE.
Ключевые слова
Black Sea, cold intermediate layer, density, fluorescence intensity, light beam attenuation coefficient, Rim Current, salinity, temperature, thermocline, total suspended matter, upper quasihomogeneous layer
Дата занесения
2022-02-24 11:30:46