Dynamics and Energetics of Trapped Diurnal Internal Kelvin Waves around a Midlatitude Island

Masunaga, Eiji; Fringer, Oliver B.; Kitade, Yujiro; Yamazaki, Hidekatsu; Gallager, Scott M.

doi:10.1175/jpo-d-16-0167.1

Cited by 23 publications

(38 citation statements)

References 51 publications

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“…In addition, this area is known as an important area for maintaining marine ecosystems in the Northwest Pacific Ocean, because of strong mass transport and mixing over the shallow ridge (e.g., Hasegawa et al, ). Masunaga, Fringer, et al () reported that tidal flows induce highly nonlinear internal tides in this area. It has also been reported that the intensity of internal tides over the ridge is much higher than it is along the Japanese mainland (Masunaga, Fringer, et al, ; Varlamov et al, ).…”

Section: Introductionmentioning

confidence: 83%

“…Masunaga, Fringer, et al () reported that tidal flows induce highly nonlinear internal tides in this area. It has also been reported that the intensity of internal tides over the ridge is much higher than it is along the Japanese mainland (Masunaga, Fringer, et al, ; Varlamov et al, ). Varlamov et al () conducted numerical modeling of M 2 internal tides with a horizontal resolution of 1/36° (~3 km), which may not be sufficiently fine to reveal details of the internal tide dynamics, particularly in coastal areas.…”

Section: Introductionmentioning

confidence: 83%

“…Baroclinic (BC) tides inclusive of internal tides are thus spontaneously computed in the L2 model with realistic large‐scale influences, such as those from the Kuroshio Current. The amplitudes and phases of the tidal forcing were corrected using Newton's method to improve the reproducibility of tidal signals (see details in the Appendix of Masunaga, Fringer, et al, ). The ocean surface is forced by hourly wind stress (from the Japan Meteorological Agency Grid Point Value Mesoscale Model) and monthly climatological surface heat, freshwater fluxes, and radiation fluxes (from the National Oceanic and Atmospheric Administration Comprehensive Ocean‐Atmosphere Data Set, NOAA‐COADS; Woodruff et al, ).…”

Section: Model Configurationsmentioning

confidence: 99%

“…By contrast, numerical simulations are better suited to investigate these processes. Recent modeling studies have succeeded in examining shelf‐scale generation, propagation, and dissipation processes of internal tides (e.g., Kang & Fringer, ; Masunaga, Fringer, et al, ; Varlamov et al, ).…”

Section: Introductionmentioning

confidence: 99%

“…Varlamov et al () conducted numerical modeling of M 2 internal tides with a horizontal resolution of 1/36° (~3 km), which may not be sufficiently fine to reveal details of the internal tide dynamics, particularly in coastal areas. Thus, Masunaga, Fringer, et al () instead used a high‐resolution, triangle unstructured grid numerical model (SUNTANS) with greatly idealized forcings. High‐resolution models with realistic oceanic conditions are necessary for understanding the details and effects of internal tides over the ridge.…”

Section: Introductionmentioning

confidence: 99%

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Dynamics of Internal Tides Over a Shallow Ridge Investigated With a High‐Resolution Downscaling Regional Ocean Model

Masunaga

Uchiyama

Suzue

et al. 2018

Geophysical Research Letters

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This study investigates the dynamics of tidally induced internal waves over a shallow ridge, the Izu‐Ogasawara Ridge off the Japanese mainland, using a downscaled high‐resolution regional ocean numerical model. Both the Kuroshio and tides contribute to the field of currents in the study area. The model results show strong internal tidal energy fluxes over the ridge, exceeding 3.5 kW m−1, which are higher than the fluxes along the Japanese mainland. The flux in the upstream side of the Kuroshio is enhanced by an interaction of internal waves and currents. The tidal forcing induces 92% of the total internal wave energy flux, exhibiting the considerable dominance of tides in internal waves. The tidal forcing enhances the kinetic energy, particularly in the northern area of the ridge where the Kuroshio Current is not a direct influence. The tidal forcing contributes to roughly 30% of the total kinetic energy in the study area.

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Section: Introductionmentioning

confidence: 83%

Section: Introductionmentioning

confidence: 83%

Section: Model Configurationsmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

See 3 more Smart Citations

Dynamics of Internal Tides Over a Shallow Ridge Investigated With a High‐Resolution Downscaling Regional Ocean Model

Masunaga

Uchiyama

Suzue

et al. 2018

Geophysical Research Letters

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Diurnal Baroclinic Shelf Waves in the Area of the South Kuril Islands Observed in TOPEX/Poseidon Satellite Altimetry Data

Shevchenko,

Tsoi

2024

Pure Appl. Geophys.

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The existence zones of diurnal shelf waves near the South Kuril Islands were determined based on the analysis of small-scale amplitude and phase variations of diurnal O1 and K1 tidal waves estimated from along-track TOPEX/Poseidon altimetry data. The amplitudes and phases of the these waves were revealed not only along the original tracks (1992)(1993)(1994)(1995)(1996)(1997)(1998)(1999)(2000)(2001)(2002), but also along those shifted by half the intertrack distance (2002)(2003)(2004)(2005). This made it possible to more accurately determine the zone of existence of diurnal shelf waves. It was found that these waves, existing in the form of baroclinic coastal trapped modes, strongly in uence tidal motions on the oceanic shelf of Urup and Iturup islands. Two wavelengths t in this section of the shelf (one pair of quasi-stationary eddies is localized on the shelf of Urup Island and the second one on the shelf of Iturup Island). This is an unexpected and interesting result; barotropic shelf modes usually form one pair of eddies (for example, on the northeaster shelf of Sakhalin Island, on the northern shelf of Hokkaido Island and on the oceanic shelf of the North Kuril Islands). We found that the zone of in uence of both K1 and O1 tidal waves starting from Chirpoi Island, which means that shelf waves are generated as a result of the diffraction of a large-scale Kelvin tidal wave on the deep Bussol Strait. The existence of lower frequency O1 tidal shelf wave was found not only on the shelf of Urup and Iturup islands, but also on the shelf of Shikotan Island, which is consistent with the earlier results of Ye mov and Rabinovich (1980). Diurnal shelf waves cause signi cant increase of O1 and K1 amplitudes on the coast of Iturup Island (especially in its southern part) and Urup Island in comparison with the open ocean and produce strong diurnal tidal currents in these regions, as it follows from the direct instrumental. Baroclinic diurnal shelf (coastal trapped) waves are also the reason of vertical movements, forcing water temperature variations at su ciently great depths, which can have a signi cant impact on the living conditions of benthic communities.

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Tidally generated island wakes and surface water cooling over Izu Ridge

Kodaira

Waseda

2019

Ocean Dynamics

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Dynamics and Energetics of Trapped Diurnal Internal Kelvin Waves around a Midlatitude Island

Cited by 23 publications

References 51 publications

Dynamics of Internal Tides Over a Shallow Ridge Investigated With a High‐Resolution Downscaling Regional Ocean Model

Dynamics of Internal Tides Over a Shallow Ridge Investigated With a High‐Resolution Downscaling Regional Ocean Model

Diurnal Baroclinic Shelf Waves in the Area of the South Kuril Islands Observed in TOPEX/Poseidon Satellite Altimetry Data

Tidally generated island wakes and surface water cooling over Izu Ridge

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