Seasonal Features of the Novik Bay Hydrological Regime (Russky Island, Peter the Great Bay, Sea of Japan)
A. Yu. Lazaryuk1,✉, T. R. Kilmatov2,3, E. N. Marina1, E. V. Kustova1 |
1 V. I. Il’ichev Pacific Oceanological Institute, Far Eastern Branch of Russian Academy of Sciences, Vladivostok, Russian Federation |
2 Far Eastern Federal University, Vladivostok, Russian Federation |
3 Maritime State University named after admiral G. I. Nevelskoy, Vladivostok, Russian Federation |
✉ e-mail: lazaryuk@poi.dvo.ru |
Abstract
Purpose. The paper is aimed at studying the hydrological regime of the Novik Bay (Russky Island, Peter the Great Bay, Sea of Japan).
Methods and Results. Regular ship and ice cover CTD observations (more 1000 water column profiling stations) carried out in the Novik and Amur bays in 2013–2018 were used. Weather conditions in the region under study were analyzed based on the data of the Vladivostok weather station archive (WMO_ID=31960). Quantitative estimates of the drift and gradient currents in the bay are represented.
Conclusions. Seasonal changes in the thermohaline stratification of the Peter the Great Bay coastal waters are conditioned by the monsoon climate features. The Novik Bay hydrological regime is additionally affected by its isolation and shallowness, as well as by the Russky Island relief. Weak water dynamics in the bay is observed during the summer monsoon (April – August) which is the result of the south winds being blocked by the hills. The autumn-winter monsoon (when northerly winds prevail) causes a wave of water in the bay, which, in its turn, blocks its circulation. The winter Siberian cold anticyclone forms the ice cover in the bay, and it is in this ice-forming season that the salinity increase in the bottom layer is observed. In the shallow southern part of the Novik Bay, the process of ice formation begins. The downwelling flow of salty heavy water directed to the north out of the bay along the bottom relief is compensated by the counter flow of fresh waters from the Amur Bay which inflow to the upper sub-ice layer. The freeze-up period is most favorable for water renewal. The efficiency of this process is additionally influenced by a heat flow from bottom sediments and by the ice conditions in the adjacent water areas of the Peter the Great Bay.
Keywords
Novik Bay, Amur Bay, Peter the Great Bay, hydrological regime, circulation, CTD data, sea ice cover.
Acknowledgements
The authors are grateful to Dr. Sci. (biol.), Professor N. K. Khristoforova for her critical review of the manuscript and valuable recommendations. The work was carried out within the framework of the state budget theme No. 121021700346-7 “Investigation of the main processes determining state and variability of oceanological characteristics of the marginal seas of Asia and the adjacent regions of the Pacific and Indian Oceans”.
Original Russian Text © A. Yu. Lazaryuk, T. R. Kilmatov, E. N. Marina, E. V. Kustova, 2021,
published in MORSKOY GIDROFIZICHESKIY ZHURNAL, Vol. 37, Iss. 6, pp. 680-695 (2021)
For citation
Lazaryuk, A.Yu, Kilmatov, T.R., Marina, E.N. and Kustova, E.V., 2021. Seasonal Features of the Novik Bay Hydrological Regime (Russky Island, Peter the Great Bay, Sea of Japan). Physical Oceanography, [e-journal] 28(6), pp. 632-646. doi:10.22449/1573-160X-2021-6-632-646
DOI
10.22449/1573-160X-2021-6-632-646