Exploration of Tidal‐Fluvial Interaction in the Columbia River Estuary Using S_TIDE

Pan, Haidong; Lv, Xianqing; Wang, Yingying; Matte, Pascal; Chen, Haibo; Jin, Guangzhen

doi:10.1029/2018jc014146

Cited by 88 publications

(53 citation statements)

References 39 publications

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“…In this study, the EHA developed in Jin et al (2018) and Pan et al (2018b) was further improved in order to resolve more tidal constituents by adding the minor constituents whose harmonic parameters were assumed to be constant and calculated together with the temporally varying harmonic parameters of the principal tidal constituents. The nodal and astronomical argument corrections were embedded into the least square fit to eliminate the influences of nodal cycle and linearly varying astronomical argument.…”

Section: Discussionmentioning

confidence: 99%

“…In contrast, the harmonic parameters are assumed to be constant in CHA and constant within each month in SHA. A MATLAB toolkit, S_TIDE, was released to realize EHA by Pan et al (2018b). In this study, nodal and astronomical argument corrections are embedded into the least square fit, following Foreman et al (2009); in addition, the harmonic parameters of the minor tidal constituents are assumed to be constant and calculated together with the temporally varying harmonic parameters of the principal tidal constituents to resolve more constituents and retain compu-4 D. Wang et al: Seasonal variation of the principal tidal constituents tational stability.…”

Section: Enhanced Harmonic Analysismentioning

confidence: 99%

“…Similar to Jin et al (2018) and Pan et al (2018b), the independent point scheme and cubic spline interpolation are used to jointly solve the temporally varying and constant harmonic parameters, which are not shown here for brevity. As mentioned in Pan et al (2018b), the temporally varying harmonic parameters obtained using EHA with different numbers of independent points represent fluctuations on different timescales. In this study, six independent points are used to obtain the seasonal variability of the principal tidal constituents.…”

Section: Enhanced Harmonic Analysismentioning

confidence: 99%

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Seasonal variation of the principal tidal constituents in the Bohai Sea

et al. 2020

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Abstract. The seasonal variation of tides plays a significant role in water level changes in coastal regions. In this study, seasonal variations of four principal tidal constituents, M2, S2, K1, and O1, in the Bohai Sea, China, were studied by applying an enhanced harmonic analysis method to two time series: 1-year sea level observations at a mooring station (named E2) located in the western Bohai Sea and 17-year sea level observations at Dalian. At E2, the M2 amplitude and phase lag have annual frequencies, with large values in summer and small values in winter, while the frequencies of S2 and K1 amplitudes are also nearly annual. In contrast, the O1 amplitude increases constantly from winter to autumn. The maxima of phase lags appear twice in 1 year for S2, K1, and O1, taking place near winter and summer. The seasonal variation trends estimated by the enhanced harmonic analysis at Dalian are different from those at E2, except for the M2 phase lag. The M2 and S2 amplitudes show semi-annual and annual cycles, respectively, which are relatively significant at Dalian. The results of numerical experiments indicate that the seasonality of vertical eddy viscosity induces seasonal variations of the principal tidal constituents at E2. However, the tested mechanisms, including seasonally varying stratification, vertical eddy viscosity, and mean sea level, do not adequately explain the observed seasonal variations of tidal constituents at Dalian.

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Section: Discussionmentioning

confidence: 99%

Section: Enhanced Harmonic Analysismentioning

confidence: 99%

Section: Enhanced Harmonic Analysismentioning

confidence: 99%

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Seasonal variation of the principal tidal constituents in the Bohai Sea

et al. 2020

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“…Through combining CHA with the independent point scheme and cubic spline interpolation, Jin et al (2018) developed enhanced harmonic analysis (EHA) to directly obtain temporally varying tidal harmonic parameters. A MATLAB toolbox, S_TIDE, was released to realize EHA in Pan et al (2018b). As mentioned in Pan et al (2018b), the temporally varying harmonic parameters obtained using EHA with different numbers of independent points represented oscillations on different time scales.…”

Section: Enhanced Harmonic Analysismentioning

confidence: 99%

“…A MATLAB toolbox, S_TIDE, was released to realize EHA in Pan et al (2018b). As mentioned in Pan et al (2018b), the temporally varying harmonic parameters obtained using EHA with different numbers of independent points represented oscillations on different time scales. Therefore, the seasonal variability of the major tidal constituents will be directly obtained by using EHA with 6 independent points in this study.…”

Section: Enhanced Harmonic Analysismentioning

confidence: 99%

Seasonal variation of the main tidal constituents in the Bohai Bay

Wang

Pan

Jin

et al. 2019

Preprint

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Abstract. The seasonal variability of the M2 tidal amplitude has been observed widely, especially in the coastal regions, but the seasonal variations in several major tidal constituents have not been investigated sufficiently. In this study, the seasonal variations in the major tidal constituents, including M2, S2, K1, and O1, in the Bohai Bay, China, are studied by analysing one-year observations of the sea level at two stations, E1 and E2. At E2, the frequencies of the M2 tidal amplitude and phase are annual, with large values in summer and small values in winter, while the frequencies of the S2 and K1 tidal amplitudes are semi-annual. Furthermore, the O1 tidal amplitude increases constantly from winter to autumn. The maxima of the phases appear twice in one year for the S2, K1, and O1 tides, which take place nearly in winter and summer. The seasonally varying trends at E1 estimated by the enhanced harmonic analysis are similar to those at E2, except for the O1 tidal amplitude. The results of the numerical experiments indicate that the seasonality of the stratification and the corresponding vertical eddy viscosity coefficient induce seasonal variations in the phases and amplitudes for all the major tidal constituents, respectively.

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LTide - Matlab/Octave software tool for temporal and spatial analysis of tidal gravity acceleration effects according to Longman formulas

et al. 2019

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Tides have largest impact on gravity measurements compared to all other environmental effects. They are a direct result of the gravitational forces of the planetary bodies, mainly the Moon and the Sun. The magnitude of tidal effects depends on the relative position of planetary bodies around the Earth and can be computed from the astronomical ephemeris. In this paper, LTide software is presented, a lightweight application for computation of the tidal gravity acceleration effects according to Longman formulas. The software solves a problem of laborious calculations and simplifies the analysis of gravity data over any time period and any surveyed area worldwide. The code is open-sourced, platform independent, written in Matlab/Octave programming language. It has graphical user interface which offers several options for import, export and visualization of the results. The software is meant to be an easy-to-use tool for geoscientists and other users in processing relative gravity measurements and tempo-spatial analysis of tidal gravity effects.

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Exploration of Tidal‐Fluvial Interaction in the Columbia River Estuary Using S_TIDE

Cited by 88 publications

References 39 publications

Seasonal variation of the principal tidal constituents in the Bohai Sea

Seasonal variation of the principal tidal constituents in the Bohai Sea

Seasonal variation of the main tidal constituents in the Bohai Bay

LTide - Matlab/Octave software tool for temporal and spatial analysis of tidal gravity acceleration effects according to Longman formulas

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