Numerical modeling study of the circulation in the Gulf of Alaska

Dissertation (Ph.D.) University of Alaska Fairbanks, 1991 A series of numerical experiments are performed to simulate the Gulf of Alaska circulation and to examine the dynamical ocean response to the annual mean and seasonal forcing using a primitive equation model (Semtner 1974). The model domain e...

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Bibliographic Details
Main Author: Bang, Inkweon
Format: Doctoral or Postdoctoral Thesis
Language:unknown
Published: 1991
Subjects:
Physical oceanography
Fairbanks
Gulf of Alaska
Pacific
Kodiak
Alaska
Online Access:http://hdl.handle.net/11122/9315
id ftunivalaska:oai:scholarworks.alaska.edu:11122/9315
record_format openpolar
spelling ftunivalaska:oai:scholarworks.alaska.edu:11122/9315 2023-05-15T17:04:39+02:00 Numerical modeling study of the circulation in the Gulf of Alaska Bang, Inkweon 1991 http://hdl.handle.net/11122/9315 unknown http://hdl.handle.net/11122/9315 Physical oceanography Dissertation phd 1991 ftunivalaska 2023-02-23T21:37:15Z Dissertation (Ph.D.) University of Alaska Fairbanks, 1991 A series of numerical experiments are performed to simulate the Gulf of Alaska circulation and to examine the dynamical ocean response to the annual mean and seasonal forcing using a primitive equation model (Semtner 1974). The model domain encompasses the North Pacific north of 45$\sp\circ$ N and east of 180$\sp\circ$ and is surrounded by artificial walls in the south and west. Biharmonic diffusion is used in the interior to excite mesoscale eddies. A sponge layer with high Laplacian diffusion is incorporated near the western boundary. Horizontal resolution of 30$\sp\prime$ x 20$\sp\prime$ and 20 vertical levels are used to resolve the mesoscale topography and eddies. Wind stress computed from sea level atmospheric pressure and temperature and salinity data of Levitus (1982) are used. A diagnostic model produces a circulation in the Gulf of Alaska which agrees with observed patterns. In a three-layer flat-bottom baroclinic model, baroclinic Rossby waves propagate at 0.8 cm/sec and it takes a decade for spin-up to be completed. Baroclinic models forced by the annual mean wind and thermohaline forcings show the generation of eddies by baroclinic instability. The eddies in the flat-bottom model have a period of 75 days and are interpreted as barotropic Rossby waves. In the model with topography, the period of dominant eddies is 3-4 years and they are interpreted as baroclinic Rossby waves. Anticyclonic eddies near Sitka show similar characteristics as the Sitka eddy. They propagate westward and cause meanders in the Alaska Stream near Kodiak Island. The abnormal shift of the Alaska gyre in 1981 is probably due to the presence of one of these anticyclonic eddies. A flat-bottom model with seasonal forcing shows a large seasonal variability. When bottom topography is present, however, seasonal response is greatly reduced due to the dissipation of barotropic response by bottom topography. The seasonal baroclinic model shows a similar seasonal variability to ... Doctoral or Postdoctoral Thesis Kodiak Alaska University of Alaska: ScholarWorks@UA Fairbanks Gulf of Alaska Pacific
institution Open Polar
collection University of Alaska: ScholarWorks@UA
op_collection_id ftunivalaska
language unknown
topic Physical oceanography
spellingShingle Physical oceanography
Bang, Inkweon
Numerical modeling study of the circulation in the Gulf of Alaska
topic_facet Physical oceanography
description Dissertation (Ph.D.) University of Alaska Fairbanks, 1991 A series of numerical experiments are performed to simulate the Gulf of Alaska circulation and to examine the dynamical ocean response to the annual mean and seasonal forcing using a primitive equation model (Semtner 1974). The model domain encompasses the North Pacific north of 45$\sp\circ$ N and east of 180$\sp\circ$ and is surrounded by artificial walls in the south and west. Biharmonic diffusion is used in the interior to excite mesoscale eddies. A sponge layer with high Laplacian diffusion is incorporated near the western boundary. Horizontal resolution of 30$\sp\prime$ x 20$\sp\prime$ and 20 vertical levels are used to resolve the mesoscale topography and eddies. Wind stress computed from sea level atmospheric pressure and temperature and salinity data of Levitus (1982) are used. A diagnostic model produces a circulation in the Gulf of Alaska which agrees with observed patterns. In a three-layer flat-bottom baroclinic model, baroclinic Rossby waves propagate at 0.8 cm/sec and it takes a decade for spin-up to be completed. Baroclinic models forced by the annual mean wind and thermohaline forcings show the generation of eddies by baroclinic instability. The eddies in the flat-bottom model have a period of 75 days and are interpreted as barotropic Rossby waves. In the model with topography, the period of dominant eddies is 3-4 years and they are interpreted as baroclinic Rossby waves. Anticyclonic eddies near Sitka show similar characteristics as the Sitka eddy. They propagate westward and cause meanders in the Alaska Stream near Kodiak Island. The abnormal shift of the Alaska gyre in 1981 is probably due to the presence of one of these anticyclonic eddies. A flat-bottom model with seasonal forcing shows a large seasonal variability. When bottom topography is present, however, seasonal response is greatly reduced due to the dissipation of barotropic response by bottom topography. The seasonal baroclinic model shows a similar seasonal variability to ...
format Doctoral or Postdoctoral Thesis
author Bang, Inkweon
author_facet Bang, Inkweon
author_sort Bang, Inkweon
title Numerical modeling study of the circulation in the Gulf of Alaska
title_short Numerical modeling study of the circulation in the Gulf of Alaska
title_full Numerical modeling study of the circulation in the Gulf of Alaska
title_fullStr Numerical modeling study of the circulation in the Gulf of Alaska
title_full_unstemmed Numerical modeling study of the circulation in the Gulf of Alaska
title_sort numerical modeling study of the circulation in the gulf of alaska
publishDate 1991
url http://hdl.handle.net/11122/9315
geographic Fairbanks
Gulf of Alaska
Pacific
geographic_facet Fairbanks
Gulf of Alaska
Pacific
genre Kodiak
Alaska
genre_facet Kodiak
Alaska
op_relation http://hdl.handle.net/11122/9315
_version_ 1766058973547462656

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