Tidal asymmetry and transition in the Singapore Strait revealed by GNSS interferometric reflectometry
The Singapore Strait is located at the transition between the dominantly semidiurnal Indian Ocean and the mixed-to-diurnal South China Sea, resulting in complex tidal dynamics. In this work, we use sea-level estimates from two coastal Global Navigation Satellite Systems (GNSS) stations and one tide...
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Science::Geology Sea Level Tidal Asymmetry Peng, Dongju Soon, Kit Ying Khoo, Victor H. S. Mulder, Evert Wong, Poh Weng Hill, Emma M. Tidal asymmetry and transition in the Singapore Strait revealed by GNSS interferometric reflectometry |
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The Singapore Strait is located at the transition between the dominantly semidiurnal Indian Ocean and the mixed-to-diurnal South China Sea, resulting in complex tidal dynamics. In this work, we use sea-level estimates from two coastal Global Navigation Satellite Systems (GNSS) stations and one tide gauge to study tides and tidal asymmetry in the Strait. We first generate sea-level measurements from GNSS signal-to-noise ratio (SNR) data using the GNSS Interferometric Reflectometry technique, which can estimate sea-surface heights from a coastal GNSS station. Second, we perform tidal harmonic analysis and quantify tidal asymmetry based on the skewness method. Finally, we examine seasonal sea-level changes in the Strait from GNSS SNR data, tide-gauge records and satellite altimetry. Our results reveal an increase in M2 and S2 amplitudes toward the west of the Strait and a decrease in the K1 and O1 amplitudes. Our results also show that tides at the two sites in the east are ebb dominant with asymmetry originating from the O1–K1–M2 triad by astronomical forcing, whereas tidal asymmetry at the site in the west is flood dominant and mainly caused by non-linear interaction of the major tidal constituents. Analysis of seasonal sea-level changes shows that annual amplitudes in the east are around 13.6 cm, and 6.7 cm in the west. A possible explanation for the discrepancy in the amplitudes is the effect of seasonal monsoon winds flowing from the South China Sea. |
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Asian School of the Environment |
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Asian School of the Environment Peng, Dongju Soon, Kit Ying Khoo, Victor H. S. Mulder, Evert Wong, Poh Weng Hill, Emma M. |
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Article |
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Peng, Dongju Soon, Kit Ying Khoo, Victor H. S. Mulder, Evert Wong, Poh Weng Hill, Emma M. |
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Peng, Dongju |
| title |
Tidal asymmetry and transition in the Singapore Strait revealed by GNSS interferometric reflectometry |
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Tidal asymmetry and transition in the Singapore Strait revealed by GNSS interferometric reflectometry |
| title_full |
Tidal asymmetry and transition in the Singapore Strait revealed by GNSS interferometric reflectometry |
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Tidal asymmetry and transition in the Singapore Strait revealed by GNSS interferometric reflectometry |
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Tidal asymmetry and transition in the Singapore Strait revealed by GNSS interferometric reflectometry |
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tidal asymmetry and transition in the singapore strait revealed by gnss interferometric reflectometry |
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2023 |
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https://hdl.handle.net/10356/170922 |
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1781793755388444672 |
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sg-ntu-dr.10356-1709222023-10-18T08:45:25Z Tidal asymmetry and transition in the Singapore Strait revealed by GNSS interferometric reflectometry Peng, Dongju Soon, Kit Ying Khoo, Victor H. S. Mulder, Evert Wong, Poh Weng Hill, Emma M. Asian School of the Environment Earth Observatory of Singapore Science::Geology Sea Level Tidal Asymmetry The Singapore Strait is located at the transition between the dominantly semidiurnal Indian Ocean and the mixed-to-diurnal South China Sea, resulting in complex tidal dynamics. In this work, we use sea-level estimates from two coastal Global Navigation Satellite Systems (GNSS) stations and one tide gauge to study tides and tidal asymmetry in the Strait. We first generate sea-level measurements from GNSS signal-to-noise ratio (SNR) data using the GNSS Interferometric Reflectometry technique, which can estimate sea-surface heights from a coastal GNSS station. Second, we perform tidal harmonic analysis and quantify tidal asymmetry based on the skewness method. Finally, we examine seasonal sea-level changes in the Strait from GNSS SNR data, tide-gauge records and satellite altimetry. Our results reveal an increase in M2 and S2 amplitudes toward the west of the Strait and a decrease in the K1 and O1 amplitudes. Our results also show that tides at the two sites in the east are ebb dominant with asymmetry originating from the O1–K1–M2 triad by astronomical forcing, whereas tidal asymmetry at the site in the west is flood dominant and mainly caused by non-linear interaction of the major tidal constituents. Analysis of seasonal sea-level changes shows that annual amplitudes in the east are around 13.6 cm, and 6.7 cm in the west. A possible explanation for the discrepancy in the amplitudes is the effect of seasonal monsoon winds flowing from the South China Sea. Ministry of Education (MOE) Nanyang Technological University National Environmental Agency (NEA) National Research Foundation (NRF) Published version This research was supported by Singapore Ministry of Education Academic Research Fund Tier 3 (MOE 2019-T3-1-004), and by the National Research Foundation Singapore under its NRF Investigatorship scheme (National Research Investigatorship Award No. NRF-NRFI05-2019-0009), the Earth Observatory of Singapore (EOS), the National Research Foundation of Singapore, and the Singapore Ministry of Education under the Research Centers of Excellence initiative. This research is also supported by the NRF, Singapore, and National Environment Agency, Singapore under the National Sea Level Programme Initiative as part of the Urban Solutions and Sustainability—Integration Fund (Award No. USS-IF-2020-5) by a grant (Proposal ID NSLP-2021-3R-05) awarded to E.M.H. 2023-10-09T01:40:59Z 2023-10-09T01:40:59Z 2023 Journal Article Peng, D., Soon, K. Y., Khoo, V. H. S., Mulder, E., Wong, P. W. & Hill, E. M. (2023). Tidal asymmetry and transition in the Singapore Strait revealed by GNSS interferometric reflectometry. Geoscience Letters, 10(1). https://dx.doi.org/10.1186/s40562-023-00294-7 2196-4092 https://hdl.handle.net/10356/170922 10.1186/s40562-023-00294-7 2-s2.0-85169090718 1 10 en MOE 2019-T3-1-004 NRF-NRFI05-2019-0009 USS-IF-2020-5 NSLP-2021-3R-05 Geoscience Letters 10.21979/N9/JKB5QY © The Author(s) 2023. Open Access. This article is licensed under a Creative Commons Attribution 4.0 International License, which permits use, sharing, adaptation, distribution and reproduction in any medium or format, as long as you give appropriate credit to the original author(s) and the source, provide a link to the Creative Commons licence, and indicate if changes were made. The images or other third party material in this article are included in the article’s Creative Commons licence, unless indicated otherwise in a credit line to the material. If material is not included in the article’s Creative Commons licence and your intended use is not permitted by statutory regulation or exceeds the permitted use, you will need to obtain permission directly from the copyright holder. To view a copy of this licence, visit http://creativecommons.org/licenses/by/4.0/. application/pdf |