Nodal variations and long-term changes in the main tides on the coasts of China
Nodal variations and long-term changes in the main tides on the coasts of China
The long-term changes in the main tidal constituents (O1, K1, M2, N2, and S2) along the coasts of China and in adjacent seas are investigated based on 17 tide-gauge records covering the period 1954–2012. The observed 18.61 year nodal modulations of the diurnal constituents O1 and K1 are in agreement with the equilibrium tidal theory, except in the South China Sea. The observed modulations of the M2 and N2 amplitudes are smaller than theoretically predicted at the northern stations and larger at the southern stations. The discrepancies between the theoretically predicted nodal variations and the observations are discussed. The 8.85 year perigean cycle is identifiable in the N2 parameters at most stations, except those in the South China Sea. The radiational component of S2 contributes on average 16% of the observed S2 except in the Gulf of Tonkin, on the south coast, where it accounts for up to 65%. We confirmed the existence of nodal modulation in S2, which is stronger on the north coast. The semidiurnal tidal parameters show significant secular trends in the Bohai and Yellow Seas, on the north coast, and in the Taiwan Strait. The largest increase is found for M2 for which the amplitude increases by 4–7 mm/yr in the Yellow Sea. The potential causes for the linear trends in tidal constants are discussed.
tide, nodal variation, linear trend, sea level, chinese coasts
1215-1232
Feng, Xiangbo
ea69bf52-760a-46a1-921c-b3ebf172c754
Tsimplis, Michael N.
df6dd749-cda4-46ec-983c-bf022d737031
Woodworth, Philip L.
853b6594-9a7f-4d79-9f9b-45f73894f98f
February 2015
Feng, Xiangbo
ea69bf52-760a-46a1-921c-b3ebf172c754
Tsimplis, Michael N.
df6dd749-cda4-46ec-983c-bf022d737031
Woodworth, Philip L.
853b6594-9a7f-4d79-9f9b-45f73894f98f
Feng, Xiangbo, Tsimplis, Michael N. and Woodworth, Philip L.
(2015)
Nodal variations and long-term changes in the main tides on the coasts of China.
Journal of Geophysical Research: Oceans, 120 (2), .
(doi:10.1002/2014JC010312).
Abstract
The long-term changes in the main tidal constituents (O1, K1, M2, N2, and S2) along the coasts of China and in adjacent seas are investigated based on 17 tide-gauge records covering the period 1954–2012. The observed 18.61 year nodal modulations of the diurnal constituents O1 and K1 are in agreement with the equilibrium tidal theory, except in the South China Sea. The observed modulations of the M2 and N2 amplitudes are smaller than theoretically predicted at the northern stations and larger at the southern stations. The discrepancies between the theoretically predicted nodal variations and the observations are discussed. The 8.85 year perigean cycle is identifiable in the N2 parameters at most stations, except those in the South China Sea. The radiational component of S2 contributes on average 16% of the observed S2 except in the Gulf of Tonkin, on the south coast, where it accounts for up to 65%. We confirmed the existence of nodal modulation in S2, which is stronger on the north coast. The semidiurnal tidal parameters show significant secular trends in the Bohai and Yellow Seas, on the north coast, and in the Taiwan Strait. The largest increase is found for M2 for which the amplitude increases by 4–7 mm/yr in the Yellow Sea. The potential causes for the linear trends in tidal constants are discussed.
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Feng_et_al-2015-Journal_of_Geophysical_Research__Oceans.pdf
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More information
Accepted/In Press date: 28 January 2015
e-pub ahead of print date: 23 February 2015
Published date: February 2015
Keywords:
tide, nodal variation, linear trend, sea level, chinese coasts
Organisations:
Physical Oceanography, Marine Physics and Ocean Climate
Identifiers
Local EPrints ID: 374632
URI: http://eprints.soton.ac.uk/id/eprint/374632
ISSN: 2169-9275
PURE UUID: 37040c27-bad1-44b1-a140-c7d71a21b5b5
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Date deposited: 24 Feb 2015 09:51
Last modified: 14 Mar 2024 19:10
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Contributors
Author:
Xiangbo Feng
Author:
Michael N. Tsimplis
Author:
Philip L. Woodworth
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