V. V. Ocherednik scite author profile

Purpose. The paper is aimed at assessing salinity and temperature variability in the upper 300-meter layer of the northeastern part of the Black Sea based on the analysis of the archival and modern expeditionary data. Methods and Results. The data on the cross-sections “coast – sea center” (with the length of 70–110 nautical miles) performed from 1999 to 2009, as well as the results of regular ship monitoring in the shelf-slope zone of the northeastern part of the Black Sea carried out in 2010–2020 were used. It was found that salinity was progressively increasing in the upper 200-meter layer during the last decade. Salinity increase, on the average, constituted annually about 0.05–0.06 PSU. An increase of temperature was also observed below the layer of temperature minimum (core of the cold intermediate layer). In particular, the lower 8.7 °C isotherm rose annually, on the average, by 11 m from its annual average depth 242 m in 2010 up to 121 m in 2020. Salinity growth led to the corresponding changes in water density that resulted in elevation of the lower boundary of the oxygen-containing layer (potential density is 15.8) from the depth of 143 m in 2010 to 124 m in 2020. Conclusions. Climatic changes have led to a noticeable salinity increase in the upper 200-meter layer of the northeastern Black Sea, as well as to a temperature increase in the layers situated below the temperature minimum layer. Though the measurements were carried out in a certain area of the shelf-slope zone, there are reasons to assume that the observed dynamics can be attributed to the entire Black Sea. Physical reasons for the observed changes require a detailed research.

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Thermochains of the Southern Branch, Shirshov Institute of Oceanology, Russian Academy of Sciences: Design, Methods, and Results of Metrological Investigations of Sensors

Ocherednik

Баранов

Зацепин

et al. 2018

Oceanology

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Determination of the Propagation Speed of Wave Perturbations in a Two-Component Field

Ocherednik

Запевалов

2020

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Investigation of the Short-Period Variability of the Temperature Field on the Black Sea Hydrophysical Training Ground of the Institute of Oceanology Ras

Ocherednik¹,

Запевалов²

2018

EBPSZM

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Введение. В настоящее время большое внимание уделяется исследова-ниям состояния и изменчивости прибрежных и шельфовых зон Черного мо-ря [1, 2]. Одним из наиболее информативных и в то же время достаточно просто измеряемых параметров является температура. Изменения темпера-туры непосредственно влияют на морские растения, рыб и животных, они также являются индикатором изменения динамических процессов [3].Данные о поле температуры получают несколькими путями: зондиро-ванием на океанологических станциях [4], а также с помощью стационарно установленных термокос или термокос, размещенных на дрейфующих буях (дрифтерах) [5]. Стационарно установленные термокосы являются эффек-тивным средством исследования короткопериодной изменчивости поля температуры. Их используют для изучения апвеллингов, внутренних волн и ряда других процессов [6 -8].Внутренние волны играют важную роль в процессах перемешивания в прибрежной зоне. Наряду с течениями они также являются основным фак-тором, влияющим на формирование гидроакустических полей [9]. Традици-онно при анализе короткопериодной изменчивости поля температуры ис-пользуется рассчитанное по данным зондирования или измерений термоко-сами распределение изотерм по глубине [10]. В настоящей работе для этих целей используется математический аппарат кросс-спектрального анализа.Методика и аппаратура. Термокоса представляет собой гирлянду тер-модатчиков, способных обеспечивать долговременное регулярное измере-ние температуры в море на различных горизонтах. Методика постановки, конструкция, аппаратная и измерительная части термокос Южного отделе-

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V. V. Ocherednik

Examples of Approaches to Studying the Temperature Variability of Black Sea Shelf Waters with a Cluster of Temperature Sensor Chains

Increase of Temperature and Salinity in the Active Layer of the North-Eastern Black Sea from 2010 to 2020

Thermochains of the Southern Branch, Shirshov Institute of Oceanology, Russian Academy of Sciences: Design, Methods, and Results of Metrological Investigations of Sensors

Determination of the Propagation Speed of Wave Perturbations in a Two-Component Field

Investigation of the Short-Period Variability of the Temperature Field on the Black Sea Hydrophysical Training Ground of the Institute of Oceanology Ras

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