OCCURRENCE OF HYPOXIC WATER MASSES CAUSED BY THE LARGE-SCALE FRESH WATER OUTFLOWS IN THE ARIAKE BAY IN 2020 AND 2021
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- TOKUNAGA Takahisa
- 国立研究開発法人水産研究・教育機構 水産技術研究所
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- KOGA Marino
- 福岡県水産海洋技術センター有明海研究所
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- KAWASAKI Hokuto
- 佐賀県有明水産振興センター
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- YAMATOGI Toshifumi
- 長崎県総合水産試験場漁場環境科
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- AKINAGA Masashi
- 長崎県島原振興局県南水産業普及指導センター
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- MARUYOSHI Kota
- 熊本県水産研究センター
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- TAKAGI Tsuyoshi
- 熊本県環境生活部環境局環境保全課
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- SERIKAWA Taisei
- 熊本県保健環境科学研究所 水質科学部
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- YAMAGUCHI Hiroshi
- 農林水産省九州農政局農地整備課
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- UEDA Tomohiro
- 国土交通省九州地方整備局熊本港湾・空港整備事務所
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- HAYAMI Yuichi
- 佐賀大学 農学部生物資源科学科
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- YAMAGUCHI Soichi
- 九州大学大学院 総合理工学研究院
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- KIMURA Kazuya
- 日本ミクニヤ(株)
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- SHIBAHARA Yoshikazu
- 株式会社西村商会
Bibliographic Information
- Other Title
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- 2020年及び2021年の有明海における大規模出水に起因した貧酸素水塊の発生状況
Description
<p> In both 2020 and 2021, hypoxic water masses were formed in the Ariake Bay from the inner part of the bay to the Isahaya Bay. In 2021, the distribution of hypoxic water masses were observed before and after the freshet of the Chikugo River, indicating that the area of hypoxic water masses have approximately doubled due to large-scale outflow of fresh water. Furthermore, the duration of density stratification due to the freshet was approximately one month, which is longer than the time scale of hypoxia. It is considered that the hypoxic water mass formed mainly in the tidal flat marginal area in the western part of the inner part of the bay expanded further to the southern part of the inner part of the bay due to the large scale fresh water discharge, resulting in the largest hypoxic water mass that was combined with the hypoxic water mass formed in the Isahaya Bay.</p>
Journal
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- Japanese Journal of JSCE
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Japanese Journal of JSCE 80 (3), n/a-, 2024
Japan Society of Civil Engineers
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Keywords
Details 詳細情報について
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- CRID
- 1390862478333221504
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- ISSN
- 24366021
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- Text Lang
- ja
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- Data Source
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- JaLC
- Crossref
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- Abstract License Flag
- Disallowed