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A review of the oceanographic structure and biological productivity in the southern Okhotsk Sea
•The scientific knowledge on the southern Okhotsk Sea biogeochemistry and its relationship with its rich primary productivity was actualized.•The formation mechanisms of different water masses are starting to be revealed using chemical tracers, especially radionuclides.•The high seeding potential of...
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| Published in: | Progress in oceanography 2024-02, Vol.221, p.103194, Article 103194 |
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| container_title | Progress in oceanography |
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| creator | Mundo, Rodrigo Matsunaka, Tetsuya Nakanowatari, Takuya Taniuchi, Yukiko Inoue, Mutsuo Kasai, Hiromi Mashita, Kaisei Mitsunushi, Hayata Nagao, Seiya |
| description | •The scientific knowledge on the southern Okhotsk Sea biogeochemistry and its relationship with its rich primary productivity was actualized.•The formation mechanisms of different water masses are starting to be revealed using chemical tracers, especially radionuclides.•The high seeding potential of Thalassiosira by ice–melting has been repeatedly featured, and it was placed as reason for its highest abundance in spring.•The total carbon mass flux is highest in April – June. Its maximum (up to 1165 mg C m−2 day−1) occurs several days after the sea ice retreatment•Further research is needed on the formation of the Intermediate Cold Water, the Cold Water Belt and the solubilization process of particulate Fe.
The southern Okhotsk Sea is one of the best fishing grounds in Japan, and the biogeochemistry, primary productivity, and physical aspects of this region have been heavily researched. However, a comprehensive review of the literature has not been written since that by doctor Takatoshi Takizawa more than 40 years ago (1982). This review actualizes the share–ground knowledge of the influence of oceanographic conditions on the primary productivity of the area. This review includes topics from physical/chemical oceanography and hydrobiology, focusing on the complex oceanological structures that support the high primary productivity of the southern Okhotsk Sea. It is known that the formation of all water masses is ultimately a consequence of the seasonal interchange of the Soya Warm Current and the East Sakhalin Current. However, it was revealed that there may be over- or under-estimations in different material and heat fluxes among water masses, especially regarding the dense Soya Warm Current. Recent studies have investigated the formation mechanisms of different water masses using chemical tracers, particularly radionuclides. Although promising if properly combined with traditional techniques, more isotopes or compounds are required to derive further conclusions. In terms of biological aspects, the high seeding potential of Thalassiosira after sea ice melting has been featured by many authors, and it was considered as the reason for its highest abundance in spring. The total carbon mass flux, which is essential for scallop farming, is highest in April–June, normally 120–160 mg C m−2day−1. The total carbon mass flux is maximum (up to 1165 mg C m−2day−1) after the spring bloom peak, and the spring bloom is strongly linked to sea ice retreatment. It was identi |
| doi_str_mv | 10.1016/j.pocean.2023.103194 |
| format | article |
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The southern Okhotsk Sea is one of the best fishing grounds in Japan, and the biogeochemistry, primary productivity, and physical aspects of this region have been heavily researched. However, a comprehensive review of the literature has not been written since that by doctor Takatoshi Takizawa more than 40 years ago (1982). This review actualizes the share–ground knowledge of the influence of oceanographic conditions on the primary productivity of the area. This review includes topics from physical/chemical oceanography and hydrobiology, focusing on the complex oceanological structures that support the high primary productivity of the southern Okhotsk Sea. It is known that the formation of all water masses is ultimately a consequence of the seasonal interchange of the Soya Warm Current and the East Sakhalin Current. However, it was revealed that there may be over- or under-estimations in different material and heat fluxes among water masses, especially regarding the dense Soya Warm Current. Recent studies have investigated the formation mechanisms of different water masses using chemical tracers, particularly radionuclides. Although promising if properly combined with traditional techniques, more isotopes or compounds are required to derive further conclusions. In terms of biological aspects, the high seeding potential of Thalassiosira after sea ice melting has been featured by many authors, and it was considered as the reason for its highest abundance in spring. The total carbon mass flux, which is essential for scallop farming, is highest in April–June, normally 120–160 mg C m−2day−1. The total carbon mass flux is maximum (up to 1165 mg C m−2day−1) after the spring bloom peak, and the spring bloom is strongly linked to sea ice retreatment. It was identified that the routes of 134Cs towards the Intermediate Cold Water, the formation mechanism of the Cold Water Belt, and the solubilization process of sea ice-carried particulate Fe require further research. Three major potential threats were identified, including the appearance of alien toxic species, a decrease in sea ice production in the northern parts of the Okhotsk Sea, and offshore gas and oil drilling northeastern of the Sakhalin Island. Publicly available scientific knowledge about the biogeochemistry of the southern Okhotsk Sea and its relationship with its rich primary productivity was actualized to 2022, anticipating that this work will become the starting line for many early career scientists endeavoring in interdisciplinary studies.</description><identifier>ISSN: 0079-6611</identifier><identifier>EISSN: 1873-4472</identifier><identifier>DOI: 10.1016/j.pocean.2023.103194</identifier><language>eng</language><publisher>Elsevier Ltd</publisher><subject>biogeochemistry ; chemical tracers ; physical oceanography ; primary production ; Southern Okhotsk Sea</subject><ispartof>Progress in oceanography, 2024-02, Vol.221, p.103194, Article 103194</ispartof><rights>2023 Elsevier Ltd</rights><lds50>peer_reviewed</lds50><woscitedreferencessubscribed>false</woscitedreferencessubscribed><cites>FETCH-LOGICAL-c255t-4841e040857624187c64baf54a79a12046c6750d2f0dc5cb8a2eed9e26f8f9b43</cites></display><links><openurl>$$Topenurl_article</openurl><openurlfulltext>$$Topenurlfull_article</openurlfulltext><thumbnail>$$Tsyndetics_thumb_exl</thumbnail><link.rule.ids>314,780,784,27924,27925</link.rule.ids></links><search><creatorcontrib>Mundo, Rodrigo</creatorcontrib><creatorcontrib>Matsunaka, Tetsuya</creatorcontrib><creatorcontrib>Nakanowatari, Takuya</creatorcontrib><creatorcontrib>Taniuchi, Yukiko</creatorcontrib><creatorcontrib>Inoue, Mutsuo</creatorcontrib><creatorcontrib>Kasai, Hiromi</creatorcontrib><creatorcontrib>Mashita, Kaisei</creatorcontrib><creatorcontrib>Mitsunushi, Hayata</creatorcontrib><creatorcontrib>Nagao, Seiya</creatorcontrib><title>A review of the oceanographic structure and biological productivity in the southern Okhotsk Sea</title><title>Progress in oceanography</title><description>•The scientific knowledge on the southern Okhotsk Sea biogeochemistry and its relationship with its rich primary productivity was actualized.•The formation mechanisms of different water masses are starting to be revealed using chemical tracers, especially radionuclides.•The high seeding potential of Thalassiosira by ice–melting has been repeatedly featured, and it was placed as reason for its highest abundance in spring.•The total carbon mass flux is highest in April – June. Its maximum (up to 1165 mg C m−2 day−1) occurs several days after the sea ice retreatment•Further research is needed on the formation of the Intermediate Cold Water, the Cold Water Belt and the solubilization process of particulate Fe.
The southern Okhotsk Sea is one of the best fishing grounds in Japan, and the biogeochemistry, primary productivity, and physical aspects of this region have been heavily researched. However, a comprehensive review of the literature has not been written since that by doctor Takatoshi Takizawa more than 40 years ago (1982). This review actualizes the share–ground knowledge of the influence of oceanographic conditions on the primary productivity of the area. This review includes topics from physical/chemical oceanography and hydrobiology, focusing on the complex oceanological structures that support the high primary productivity of the southern Okhotsk Sea. It is known that the formation of all water masses is ultimately a consequence of the seasonal interchange of the Soya Warm Current and the East Sakhalin Current. However, it was revealed that there may be over- or under-estimations in different material and heat fluxes among water masses, especially regarding the dense Soya Warm Current. Recent studies have investigated the formation mechanisms of different water masses using chemical tracers, particularly radionuclides. Although promising if properly combined with traditional techniques, more isotopes or compounds are required to derive further conclusions. In terms of biological aspects, the high seeding potential of Thalassiosira after sea ice melting has been featured by many authors, and it was considered as the reason for its highest abundance in spring. The total carbon mass flux, which is essential for scallop farming, is highest in April–June, normally 120–160 mg C m−2day−1. The total carbon mass flux is maximum (up to 1165 mg C m−2day−1) after the spring bloom peak, and the spring bloom is strongly linked to sea ice retreatment. It was identified that the routes of 134Cs towards the Intermediate Cold Water, the formation mechanism of the Cold Water Belt, and the solubilization process of sea ice-carried particulate Fe require further research. Three major potential threats were identified, including the appearance of alien toxic species, a decrease in sea ice production in the northern parts of the Okhotsk Sea, and offshore gas and oil drilling northeastern of the Sakhalin Island. 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Its maximum (up to 1165 mg C m−2 day−1) occurs several days after the sea ice retreatment•Further research is needed on the formation of the Intermediate Cold Water, the Cold Water Belt and the solubilization process of particulate Fe.
The southern Okhotsk Sea is one of the best fishing grounds in Japan, and the biogeochemistry, primary productivity, and physical aspects of this region have been heavily researched. However, a comprehensive review of the literature has not been written since that by doctor Takatoshi Takizawa more than 40 years ago (1982). This review actualizes the share–ground knowledge of the influence of oceanographic conditions on the primary productivity of the area. This review includes topics from physical/chemical oceanography and hydrobiology, focusing on the complex oceanological structures that support the high primary productivity of the southern Okhotsk Sea. It is known that the formation of all water masses is ultimately a consequence of the seasonal interchange of the Soya Warm Current and the East Sakhalin Current. However, it was revealed that there may be over- or under-estimations in different material and heat fluxes among water masses, especially regarding the dense Soya Warm Current. Recent studies have investigated the formation mechanisms of different water masses using chemical tracers, particularly radionuclides. Although promising if properly combined with traditional techniques, more isotopes or compounds are required to derive further conclusions. In terms of biological aspects, the high seeding potential of Thalassiosira after sea ice melting has been featured by many authors, and it was considered as the reason for its highest abundance in spring. The total carbon mass flux, which is essential for scallop farming, is highest in April–June, normally 120–160 mg C m−2day−1. The total carbon mass flux is maximum (up to 1165 mg C m−2day−1) after the spring bloom peak, and the spring bloom is strongly linked to sea ice retreatment. It was identified that the routes of 134Cs towards the Intermediate Cold Water, the formation mechanism of the Cold Water Belt, and the solubilization process of sea ice-carried particulate Fe require further research. Three major potential threats were identified, including the appearance of alien toxic species, a decrease in sea ice production in the northern parts of the Okhotsk Sea, and offshore gas and oil drilling northeastern of the Sakhalin Island. Publicly available scientific knowledge about the biogeochemistry of the southern Okhotsk Sea and its relationship with its rich primary productivity was actualized to 2022, anticipating that this work will become the starting line for many early career scientists endeavoring in interdisciplinary studies.</abstract><pub>Elsevier Ltd</pub><doi>10.1016/j.pocean.2023.103194</doi></addata></record> |
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| subjects | biogeochemistry chemical tracers physical oceanography primary production Southern Okhotsk Sea |
| title | A review of the oceanographic structure and biological productivity in the southern Okhotsk Sea |
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