Accurate ocean tide modeling in southeast Alaska and large tidal dissipation around Glacier Bay

Daisuke Inazu; Tadahiro Sato; Satoshi Miura; Yusaku Ohta; Kazuyuki Nakamura; Hiromi Fujimoto; Christopher F. Larsen; Tomoyuki Higuchi

doi:10.1007/s10872-009-0031-y

Accurate ocean tide modeling in southeast Alaska and large tidal dissipation around Glacier Bay

Daisuke Inazu, Tadahiro Sato, Satoshi Miura, Yusaku Ohta, Kazuyuki Nakamura, Hiromi Fujimoto, Christopher F. Larsen, Tomoyuki Higuchi

SCI - Research Center for Prediction of Earthquakes and Volcanic Eruptions (RCPEVE)

Research output: Contribution to journal › Article › peer-review

14 Citations (Scopus)

Abstract

An accurate prediction of ocean tides in southeast Alaska is developed using a regional, barotropic ocean model with a finite difference scheme. The model skill is verified by the observational tidal harmonics in southeast Alaska including Glacier Bay. The result is particularly improved in Glacier Bay compared to the previous model described by Foreman et al. (2000). The model bathymetry dominates the model skill. We re-estimate tidal energy dissipation in the Alaska Panhandle and suggest a value for tidal energy dissipation of 3.4 GW associated with the M₂ constituent which is 1.5 times the estimation of Foreman et al. (2000). A large portion of the M₂ energy budget entering through Chatham Strait is dissipated in the vicinity of Glacier Bay. Moreover, it is shown that the developed model has the potential to correct the ocean tide loading effect in geodetic data more efficiently than the model of Foreman et al. (2000), especially around Glacier Bay.

Original language	English
Pages (from-to)	335-347
Number of pages	13
Journal	Journal of Oceanography
Volume	65
Issue number	3
DOIs	https://doi.org/10.1007/s10872-009-0031-y
Publication status	Published - 2009

Keywords

Bathymetry
Bottom friction
Glacier Bay
Tidal energy dissipation

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10.1007/s10872-009-0031-y

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title = "Accurate ocean tide modeling in southeast Alaska and large tidal dissipation around Glacier Bay",

abstract = "An accurate prediction of ocean tides in southeast Alaska is developed using a regional, barotropic ocean model with a finite difference scheme. The model skill is verified by the observational tidal harmonics in southeast Alaska including Glacier Bay. The result is particularly improved in Glacier Bay compared to the previous model described by Foreman et al. (2000). The model bathymetry dominates the model skill. We re-estimate tidal energy dissipation in the Alaska Panhandle and suggest a value for tidal energy dissipation of 3.4 GW associated with the M2 constituent which is 1.5 times the estimation of Foreman et al. (2000). A large portion of the M2 energy budget entering through Chatham Strait is dissipated in the vicinity of Glacier Bay. Moreover, it is shown that the developed model has the potential to correct the ocean tide loading effect in geodetic data more efficiently than the model of Foreman et al. (2000), especially around Glacier Bay.",

keywords = "Bathymetry, Bottom friction, Glacier Bay, Tidal energy dissipation",

author = "Daisuke Inazu and Tadahiro Sato and Satoshi Miura and Yusaku Ohta and Kazuyuki Nakamura and Hiromi Fujimoto and Larsen, {Christopher F.} and Tomoyuki Higuchi",

note = "Funding Information: Comments by anonymous reviewers on an earlier version of this manuscript were helpful and constructive. The authors wish to thank Dr. K. Ichikawa of Kyushu University for his valuable comments. Thanks also to Dr. N. Hirose of Kyushu University for his help with our numerical operations. Most calculations were performed on the NEC SX-6 system at The Institute of Statistical Mathematics. Funding was provided by a CREST (Core Research for Evolutional Science and Technology) program of Japan Science and Technology Agency, and a Grant-in-Aid for Scientific Research (17253003) of MEXT (Ministry of Education, Culture, Sports, Science and Technology) of the Japanese government. A US participant was supported by the National Science Foundation grant EAR-9870144 and University of Alaska.",

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doi = "10.1007/s10872-009-0031-y",

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volume = "65",

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T1 - Accurate ocean tide modeling in southeast Alaska and large tidal dissipation around Glacier Bay

AU - Inazu, Daisuke

AU - Sato, Tadahiro

AU - Miura, Satoshi

AU - Ohta, Yusaku

AU - Nakamura, Kazuyuki

AU - Fujimoto, Hiromi

AU - Larsen, Christopher F.

AU - Higuchi, Tomoyuki

N1 - Funding Information: Comments by anonymous reviewers on an earlier version of this manuscript were helpful and constructive. The authors wish to thank Dr. K. Ichikawa of Kyushu University for his valuable comments. Thanks also to Dr. N. Hirose of Kyushu University for his help with our numerical operations. Most calculations were performed on the NEC SX-6 system at The Institute of Statistical Mathematics. Funding was provided by a CREST (Core Research for Evolutional Science and Technology) program of Japan Science and Technology Agency, and a Grant-in-Aid for Scientific Research (17253003) of MEXT (Ministry of Education, Culture, Sports, Science and Technology) of the Japanese government. A US participant was supported by the National Science Foundation grant EAR-9870144 and University of Alaska.

PY - 2009

Y1 - 2009

N2 - An accurate prediction of ocean tides in southeast Alaska is developed using a regional, barotropic ocean model with a finite difference scheme. The model skill is verified by the observational tidal harmonics in southeast Alaska including Glacier Bay. The result is particularly improved in Glacier Bay compared to the previous model described by Foreman et al. (2000). The model bathymetry dominates the model skill. We re-estimate tidal energy dissipation in the Alaska Panhandle and suggest a value for tidal energy dissipation of 3.4 GW associated with the M2 constituent which is 1.5 times the estimation of Foreman et al. (2000). A large portion of the M2 energy budget entering through Chatham Strait is dissipated in the vicinity of Glacier Bay. Moreover, it is shown that the developed model has the potential to correct the ocean tide loading effect in geodetic data more efficiently than the model of Foreman et al. (2000), especially around Glacier Bay.

AB - An accurate prediction of ocean tides in southeast Alaska is developed using a regional, barotropic ocean model with a finite difference scheme. The model skill is verified by the observational tidal harmonics in southeast Alaska including Glacier Bay. The result is particularly improved in Glacier Bay compared to the previous model described by Foreman et al. (2000). The model bathymetry dominates the model skill. We re-estimate tidal energy dissipation in the Alaska Panhandle and suggest a value for tidal energy dissipation of 3.4 GW associated with the M2 constituent which is 1.5 times the estimation of Foreman et al. (2000). A large portion of the M2 energy budget entering through Chatham Strait is dissipated in the vicinity of Glacier Bay. Moreover, it is shown that the developed model has the potential to correct the ocean tide loading effect in geodetic data more efficiently than the model of Foreman et al. (2000), especially around Glacier Bay.

KW - Bathymetry

KW - Bottom friction

KW - Glacier Bay

KW - Tidal energy dissipation

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Accurate ocean tide modeling in southeast Alaska and large tidal dissipation around Glacier Bay

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Keywords

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