Hypoxia in Peter the Great Bay-Reference-Cited by-同舟云学术

Hypoxia in Peter the Great Bay

Published:2021-10-06 Issue:3 Volume:201 Page:600-639
ISSN:2658-5510
Container-title:Izvestiya TINRO
language:
Short-container-title:Izv. Tihookean. naučno-issled. rybohoz. centra

Author:

Tishchenko P. P.¹,Zvalinsky V. I.¹,Mikhaylik T. A.¹,Tishchenko P. Ya.¹

Affiliation:

1. Pacific Oceanological Institute, Russian Ac. Sci.

Abstract

Studies on hypoxia in Peter the Great Bay (Japan Sea) are reviewed. Seasonal hypoxia is observed in warm season at the bottom of three areas: Amur Bay, Ussuri Bay, and the southwestern part of Peter the Great Bay occupied by the Far-Eastern Marine Biosphere Reserve (FEMBR). Processes of the hypoxia forming are similar in all these areas. The main reason is the dissolved oxygen consumption by microbial degradation of organic matter within topographic depressions in conditions of limited ventilation because of strong summer stratification. The bottom depressions prevent horizontal water exchange and provide accumulation of organic and inorganic suspension, that is another factor important for development of hypoxia. The Amur Bay is the most subjected to hypoxia, being a semiclosed estuarine basin eutrophed by nutrients input from the Razdolnaya River and waste waters of Vladivostok city. The Ussuri Bay has better water exchange and less eutrophication, therefore there are scarce data about hypoxia in this area. FEMBR area has good water exchange and is only episodically influenced by nutrients discharge from the Tumen River, so hypoxia is observed there occasionally. Another consequence of microbial degradation of organic matter in these areas is acidification: pH decreased in 0.5 unit in the bottom water of the Amur Bay in eight decades from 1932 to 2013. Synchronism between regional and global processes of eutrophication, deoxygenation, and acidification of bottom waters is discussed.

Publisher

FSBSI TINRO Center

Subject

Microbiology (medical),Immunology,Immunology and Allergy

Reference114 articles.

1. Barabanshchikov, Yu.A., Tishchenko, P.Ya., Semkin, P.Yu., Zvalinsky, V.I., Mikhailik, T.A., and Tishchenko, P.P., Peculiarities of temporal variability of dissolved oxygen content in eelgrass Zostera marina Linnaeus, 1753 meadows in the Voevoda Bay (the Amur Bay, the Sea of Japan), Marine Biological Journal, 2021, vol. 6, no. 1, pp. 3–16. doi 10.21072/mbj.2021.06.1.01

2. Belan, T.A., Macrozoobenthos of soft soils in the water area from the mouth of the Tumannaya River to Furugelm Island, in Ekologicheskoye sostoyaniye i biota yugo-zapadnoi chasti zaliva Petra Velikogo i ust’ya reki Tumannoi (Ecological Condition and Biota of the Southwestern Peter the Great Bay and the Tumen River Estuary), Vladivostok: Dal’nauka, 2000, vol. 1, pp. 147–167.

3. Voronkov, P.P., Hydrochemical regime of the Peter the Great Bay of the Sea of Japan, Trudy NIU GMS SSSR, 1941, ser. 5, no. 2, pp. 42–102.

4. Gaiko, L.A., Osobennosti gidrometeorologicheskogo rezhima pribrezhnoi zony zaliva Petra Velikogo (Yaponskoe more) (Peculiarities of Hydrometeorological Regime of the Coastal Zone in the Peter the Great Bay, Sea of Japan), Vladivostok: Dal’nauka, 2005.

5. Grigoryeva, N.I., The Possyet Bay: physical-geographical characteristic, climate, and hydrological-hydrochemical regime, in Current Ecological State of Peter the Great Bay, Sea of Japan, Vladivostok: Izd. Dom DVFU, 2012, pp. 31–61.

Cited by 1 articles. 订阅此论文施引文献订阅此论文施引文献，注册后可以免费订阅5篇论文的施引文献，订阅后可以查看论文全部施引文献

1. The First Detection of Hypoxia in Vostok Bay (the Sea of Japan);Russian Meteorology and Hydrology;2024-06