A modelling study of the 1976 climate regime shift in the North Pacific Ocean

During the 1976 climate regime shift, the Aleutian low deepened. Many studies have shown that the oceanic shift was mainly driven by the atmospheric dynamics. In this thesis numerical studies to investigate the oceanic interdecadal variation as the result of the 1976 climate shift have been carried...

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Bibliographic Details
Main Author: Wu, Qiuying
Format: Thesis
Language:English
Published: 1998
Subjects:
Gulf of Alaska
Pacific
aleutian low
Subarctic
Alaska
Online Access:http://hdl.handle.net/2429/7758
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spelling ftunivbritcolcir:oai:circle.library.ubc.ca:2429/7758 2023-05-15T13:14:59+02:00 A modelling study of the 1976 climate regime shift in the North Pacific Ocean Wu, Qiuying 1998 5631496 bytes application/pdf http://hdl.handle.net/2429/7758 eng eng For non-commercial purposes only, such as research, private study and education. Additional conditions apply, see Terms of Use https://open.library.ubc.ca/terms_of_use. Text Thesis/Dissertation 1998 ftunivbritcolcir 2019-10-15T17:47:11Z During the 1976 climate regime shift, the Aleutian low deepened. Many studies have shown that the oceanic shift was mainly driven by the atmospheric dynamics. In this thesis numerical studies to investigate the oceanic interdecadal variation as the result of the 1976 climate shift have been carried out with the GFDL OGCM. Two interdecadal experiments are performed. One is forced by monthly wind stress climatology for 1976- 1988 and relaxed to monthly SST climatology from the same time period. The other is forced by monthly wind stress climatology for 1952-1975 and monthly SST climatology from the same time period. The same sea surface salinity monthly climatology data is used throughout all the experiments. The simulated ocean circulations exhibit significant interdecadal variations. The gyre circulations are spun up both in the subarctic region and the subtropical region, except in the northern and eastern part of the Gulf of Alaska where the gyral circulation is weakened. The large scale surface cooling in the central North Pacific and the warming along the west coast of North America are simulated. The intensified surface Ekman drifts are very important in generating the thermal variation near the surface, especially in mid and high latitudes. The deepening of the Aleutian Low generates stronger surface divergence in the subarctic area and stronger convergence in the subtropic. Consequently the upwelhng in the subarctic region is increased, with a maximum increase of 108% at a depth of 60 m. The downwelling in the subtropical area is enhanced as well. Along the coast of North America above 40°7Y, there is an increase in downwelling, which is consistent with the weakening of the Alaskan gyre. The significant variations in upwelling in the subarctic and downwelling in subtropical regions are confined approximately above a few hundred meters depth. By working with the large vertical temperature gradients, they produce large scale subsurface thermal variation, with the cooling in the subarctic and warming in the subtropic. The depth range of the subsurface thermal variation is limited to above 650 m depth. The meridional circulation and heat transport are changed consequently. In low latitudes the poleward heat transport is increased. In the mid latitudes the equatorward heat transport is increased and mainly contributed by the meridional component, though the gyre and diffusion components are not negligible. The heat transport in high latitudes, poleward and very small, is increased. The estimation of the salinity effect on the current studies shows that a change in surface salinity forcing fields by an amount of 0.0817ppt in subarctic area does not have significant impacts on the results of this study. Science, Faculty of Earth, Ocean and Atmospheric Sciences, Department of Graduate Thesis aleutian low Subarctic Alaska University of British Columbia: cIRcle - UBC's Information Repository Gulf of Alaska Pacific
institution Open Polar
collection University of British Columbia: cIRcle - UBC's Information Repository
op_collection_id ftunivbritcolcir
language English
description During the 1976 climate regime shift, the Aleutian low deepened. Many studies have shown that the oceanic shift was mainly driven by the atmospheric dynamics. In this thesis numerical studies to investigate the oceanic interdecadal variation as the result of the 1976 climate shift have been carried out with the GFDL OGCM. Two interdecadal experiments are performed. One is forced by monthly wind stress climatology for 1976- 1988 and relaxed to monthly SST climatology from the same time period. The other is forced by monthly wind stress climatology for 1952-1975 and monthly SST climatology from the same time period. The same sea surface salinity monthly climatology data is used throughout all the experiments. The simulated ocean circulations exhibit significant interdecadal variations. The gyre circulations are spun up both in the subarctic region and the subtropical region, except in the northern and eastern part of the Gulf of Alaska where the gyral circulation is weakened. The large scale surface cooling in the central North Pacific and the warming along the west coast of North America are simulated. The intensified surface Ekman drifts are very important in generating the thermal variation near the surface, especially in mid and high latitudes. The deepening of the Aleutian Low generates stronger surface divergence in the subarctic area and stronger convergence in the subtropic. Consequently the upwelhng in the subarctic region is increased, with a maximum increase of 108% at a depth of 60 m. The downwelling in the subtropical area is enhanced as well. Along the coast of North America above 40°7Y, there is an increase in downwelling, which is consistent with the weakening of the Alaskan gyre. The significant variations in upwelling in the subarctic and downwelling in subtropical regions are confined approximately above a few hundred meters depth. By working with the large vertical temperature gradients, they produce large scale subsurface thermal variation, with the cooling in the subarctic and warming in the subtropic. The depth range of the subsurface thermal variation is limited to above 650 m depth. The meridional circulation and heat transport are changed consequently. In low latitudes the poleward heat transport is increased. In the mid latitudes the equatorward heat transport is increased and mainly contributed by the meridional component, though the gyre and diffusion components are not negligible. The heat transport in high latitudes, poleward and very small, is increased. The estimation of the salinity effect on the current studies shows that a change in surface salinity forcing fields by an amount of 0.0817ppt in subarctic area does not have significant impacts on the results of this study. Science, Faculty of Earth, Ocean and Atmospheric Sciences, Department of Graduate
format Thesis
author Wu, Qiuying
spellingShingle Wu, Qiuying
A modelling study of the 1976 climate regime shift in the North Pacific Ocean
author_facet Wu, Qiuying
author_sort Wu, Qiuying
title A modelling study of the 1976 climate regime shift in the North Pacific Ocean
title_short A modelling study of the 1976 climate regime shift in the North Pacific Ocean
title_full A modelling study of the 1976 climate regime shift in the North Pacific Ocean
title_fullStr A modelling study of the 1976 climate regime shift in the North Pacific Ocean
title_full_unstemmed A modelling study of the 1976 climate regime shift in the North Pacific Ocean
title_sort modelling study of the 1976 climate regime shift in the north pacific ocean
publishDate 1998
url http://hdl.handle.net/2429/7758
geographic Gulf of Alaska
Pacific
geographic_facet Gulf of Alaska
Pacific
genre aleutian low
Subarctic
Alaska
genre_facet aleutian low
Subarctic
Alaska
op_rights For non-commercial purposes only, such as research, private study and education. Additional conditions apply, see Terms of Use https://open.library.ubc.ca/terms_of_use.
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