Estimation of water transport exchange between the East Vietnam Sea and the neighboring seas using a 3D hydrodynamic model
The East Vietnam Sea connects the Pacific and Indian Oceans through several interocean straits (SCSTF). A high resolution (4 km) simulation is performed with the three-dimensional regional ocean model SYMPHONIE to provide consistent estimates of the climatological averages and the interannual variability of the water transport exchanged between the East Vietnam Sea and the neighboring seas. The East Sea receives an annual average water transport of 4.45±1.35 Sv, mainly from the Luzon Strait (95%). Less than 5% of the water input comes from the atmosphere, rivers and the Balabac Strait. The East Vietnam Sea laterally releases the total amount of water input, mainly to the Sulu Sea through the Mindoro strait (49%), to the East China Sea via the Taiwan strait (28%) and to the Java Sea through the Karimata strait (22%). The interannual variability of total exchanged water volume is driven by water transport at Luzon and Mindoro straits. ENSO has a significant impact on water transport at Luzon and Mindoro straits.
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Format: | Journal Contribution biblioteca |
Language: | Vietnamese |
Published: |
2021
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Subjects: | ENSO, Nino Southern Oscillation, Water transport, Three dimensional hydrodynamic model, |
Online Access: | http://hdl.handle.net/1834/42028 |
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dig-aquadocs-1834-420282022-05-31T02:26:31Z Estimation of water transport exchange between the East Vietnam Sea and the neighboring seas using a 3D hydrodynamic model Xác định các đặc trưng trao đổi nước giữa Biển Đông và các vùng biển phụ cận bằng mô hình thủy động lực 3D Trinh, Bich Ngoc To, Duy Thai Nguyen, Hong Nam Duong, Quang Ha ENSO Nino Southern Oscillation Water transport Three dimensional hydrodynamic model The East Vietnam Sea connects the Pacific and Indian Oceans through several interocean straits (SCSTF). A high resolution (4 km) simulation is performed with the three-dimensional regional ocean model SYMPHONIE to provide consistent estimates of the climatological averages and the interannual variability of the water transport exchanged between the East Vietnam Sea and the neighboring seas. The East Sea receives an annual average water transport of 4.45±1.35 Sv, mainly from the Luzon Strait (95%). Less than 5% of the water input comes from the atmosphere, rivers and the Balabac Strait. The East Vietnam Sea laterally releases the total amount of water input, mainly to the Sulu Sea through the Mindoro strait (49%), to the East China Sea via the Taiwan strait (28%) and to the Java Sea through the Karimata strait (22%). The interannual variability of total exchanged water volume is driven by water transport at Luzon and Mindoro straits. ENSO has a significant impact on water transport at Luzon and Mindoro straits. Published Refereed 2022-05-30T04:26:36Z 2022-05-30T04:26:36Z 2021 Journal Contribution 1859-3097 http://hdl.handle.net/1834/42028 vi http://113.160.249.209:8080/xmlui/handle/123456789/20593 27-38 East Vietnam sea |
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ENSO Nino Southern Oscillation Water transport Three dimensional hydrodynamic model ENSO Nino Southern Oscillation Water transport Three dimensional hydrodynamic model |
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ENSO Nino Southern Oscillation Water transport Three dimensional hydrodynamic model ENSO Nino Southern Oscillation Water transport Three dimensional hydrodynamic model Trinh, Bich Ngoc To, Duy Thai Nguyen, Hong Nam Duong, Quang Ha Estimation of water transport exchange between the East Vietnam Sea and the neighboring seas using a 3D hydrodynamic model |
description |
The East Vietnam Sea connects the Pacific and Indian Oceans through several interocean straits (SCSTF). A high resolution (4 km) simulation is performed with the three-dimensional regional ocean model SYMPHONIE to provide consistent estimates of the climatological averages and the interannual variability of the water transport exchanged between the East Vietnam Sea and the neighboring seas. The East Sea receives an annual average water transport of 4.45±1.35 Sv, mainly from the Luzon Strait (95%). Less than 5% of the water input comes from the atmosphere, rivers and the Balabac Strait. The East Vietnam Sea laterally releases the total amount of water input, mainly to the Sulu Sea through the Mindoro strait (49%), to the East China Sea via the Taiwan strait (28%) and to the Java Sea through the Karimata strait (22%). The interannual variability of total exchanged water volume is driven by water transport at Luzon and Mindoro straits. ENSO has a significant impact on water transport at Luzon and Mindoro straits. |
format |
Journal Contribution |
topic_facet |
ENSO Nino Southern Oscillation Water transport Three dimensional hydrodynamic model |
author |
Trinh, Bich Ngoc To, Duy Thai Nguyen, Hong Nam Duong, Quang Ha |
author_facet |
Trinh, Bich Ngoc To, Duy Thai Nguyen, Hong Nam Duong, Quang Ha |
author_sort |
Trinh, Bich Ngoc |
title |
Estimation of water transport exchange between the East Vietnam Sea and the neighboring seas using a 3D hydrodynamic model |
title_short |
Estimation of water transport exchange between the East Vietnam Sea and the neighboring seas using a 3D hydrodynamic model |
title_full |
Estimation of water transport exchange between the East Vietnam Sea and the neighboring seas using a 3D hydrodynamic model |
title_fullStr |
Estimation of water transport exchange between the East Vietnam Sea and the neighboring seas using a 3D hydrodynamic model |
title_full_unstemmed |
Estimation of water transport exchange between the East Vietnam Sea and the neighboring seas using a 3D hydrodynamic model |
title_sort |
estimation of water transport exchange between the east vietnam sea and the neighboring seas using a 3d hydrodynamic model |
publishDate |
2021 |
url |
http://hdl.handle.net/1834/42028 |
work_keys_str_mv |
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1756080234363355136 |