Some oceanographic features of the Northeast Pacific ocean during August 1955.
Physical oceanographic data from the international NorPac survey of August 1955, in the area north of Latitude 45° N and east of Longitude 161° W, were examined. The temperature, salinity, and density distribution and structure from the surface to 2000 meters are discussed. The temperature structure...
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University of British Columbia
1958
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| Online Access: | https://dx.doi.org/10.14288/1.0053261 https://doi.library.ubc.ca/10.14288/1.0053261 |
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ftdatacite:10.14288/1.0053261 2023-05-15T17:04:42+02:00 Some oceanographic features of the Northeast Pacific ocean during August 1955. Bennett, Edward Bertram 1958 https://dx.doi.org/10.14288/1.0053261 https://doi.library.ubc.ca/10.14288/1.0053261 en eng University of British Columbia article-journal Text ScholarlyArticle 1958 ftdatacite https://doi.org/10.14288/1.0053261 2021-11-05T12:55:41Z Physical oceanographic data from the international NorPac survey of August 1955, in the area north of Latitude 45° N and east of Longitude 161° W, were examined. The temperature, salinity, and density distribution and structure from the surface to 2000 meters are discussed. The temperature structure showed an isothermal layer to about 30 meters depth, a marked thermocline to about 100 meters depth, a temperature inversion in most of the area, and below this a gradual temperature decrease into the abyss. At all depths the water was coldest in a "cold core" centered about 100 miles south of Kodiak and the Shumagin Islands. From there the temperature increased at each level in all directions. The salinity structure showed an isohaline layer to about 100 meters depth, a marked halocline to about 200 meters depth, and below this the salinity increased slightly into the abyss. The salinity structure did not coincide with the temperature structure. The density structure showed an isopycnal layer to about 30 meters depth, a pycnocline associated with the thermocline, a second isopycnal layer, a second pycnocline associated with the halocline, and below this the density increased slightly into the abyss. Variations in these structures throughout the region are discussed in some detail. There is no horizontal isosteric level in the 2000 meters of depth. It is concluded that there is no level of "no net motion" in this range, but a reference level of 2000 decibars for dynamic calculations is more acceptable than the usual 1000 decibar level. A new procedure is introduced to extend the reference level into the bottom in near coastal areas. The geostrophic currents were calculated. There was a major latitudinal drift from the west into the central part of the area. It veered northward and continued around the Gulf of Alaska, forming the Alaska Gyral, and left the area to the westward, as an intensified current (Alaska Stream) close along the Alaskan Peninsula. This intensification is probably due to conservation of absolute vorticity through changing latitude. The circulation pattern extended to at least 2000 meters depth, and probably to the bottom. It transported about 17 milion cubic meters of water per second. There were a number of eddies in the system, some of which were observed on earlier surveys. The major flow pattern was not wind-generated within the region. The influence of local winds was limited to the upper 200 meters of depth. In some areas it aided the flow, and in others retarded it. There is evidence to show that two chains of sea mounts influenced the current pattern according to the Bjerknes concept. Since the major portion of these is below 2000 meters depth it is concluded that currents exist in the abyss, in essentially the same direction as at the upper levels. This is consistent with the concept of conservation of absolute vorticity with changing latitude. Text Kodiak Alaska DataCite Metadata Store (German National Library of Science and Technology) Gulf of Alaska Pacific |
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Open Polar |
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DataCite Metadata Store (German National Library of Science and Technology) |
| op_collection_id |
ftdatacite |
| language |
English |
| description |
Physical oceanographic data from the international NorPac survey of August 1955, in the area north of Latitude 45° N and east of Longitude 161° W, were examined. The temperature, salinity, and density distribution and structure from the surface to 2000 meters are discussed. The temperature structure showed an isothermal layer to about 30 meters depth, a marked thermocline to about 100 meters depth, a temperature inversion in most of the area, and below this a gradual temperature decrease into the abyss. At all depths the water was coldest in a "cold core" centered about 100 miles south of Kodiak and the Shumagin Islands. From there the temperature increased at each level in all directions. The salinity structure showed an isohaline layer to about 100 meters depth, a marked halocline to about 200 meters depth, and below this the salinity increased slightly into the abyss. The salinity structure did not coincide with the temperature structure. The density structure showed an isopycnal layer to about 30 meters depth, a pycnocline associated with the thermocline, a second isopycnal layer, a second pycnocline associated with the halocline, and below this the density increased slightly into the abyss. Variations in these structures throughout the region are discussed in some detail. There is no horizontal isosteric level in the 2000 meters of depth. It is concluded that there is no level of "no net motion" in this range, but a reference level of 2000 decibars for dynamic calculations is more acceptable than the usual 1000 decibar level. A new procedure is introduced to extend the reference level into the bottom in near coastal areas. The geostrophic currents were calculated. There was a major latitudinal drift from the west into the central part of the area. It veered northward and continued around the Gulf of Alaska, forming the Alaska Gyral, and left the area to the westward, as an intensified current (Alaska Stream) close along the Alaskan Peninsula. This intensification is probably due to conservation of absolute vorticity through changing latitude. The circulation pattern extended to at least 2000 meters depth, and probably to the bottom. It transported about 17 milion cubic meters of water per second. There were a number of eddies in the system, some of which were observed on earlier surveys. The major flow pattern was not wind-generated within the region. The influence of local winds was limited to the upper 200 meters of depth. In some areas it aided the flow, and in others retarded it. There is evidence to show that two chains of sea mounts influenced the current pattern according to the Bjerknes concept. Since the major portion of these is below 2000 meters depth it is concluded that currents exist in the abyss, in essentially the same direction as at the upper levels. This is consistent with the concept of conservation of absolute vorticity with changing latitude. |
| format |
Text |
| author |
Bennett, Edward Bertram |
| spellingShingle |
Bennett, Edward Bertram Some oceanographic features of the Northeast Pacific ocean during August 1955. |
| author_facet |
Bennett, Edward Bertram |
| author_sort |
Bennett, Edward Bertram |
| title |
Some oceanographic features of the Northeast Pacific ocean during August 1955. |
| title_short |
Some oceanographic features of the Northeast Pacific ocean during August 1955. |
| title_full |
Some oceanographic features of the Northeast Pacific ocean during August 1955. |
| title_fullStr |
Some oceanographic features of the Northeast Pacific ocean during August 1955. |
| title_full_unstemmed |
Some oceanographic features of the Northeast Pacific ocean during August 1955. |
| title_sort |
some oceanographic features of the northeast pacific ocean during august 1955. |
| publisher |
University of British Columbia |
| publishDate |
1958 |
| url |
https://dx.doi.org/10.14288/1.0053261 https://doi.library.ubc.ca/10.14288/1.0053261 |
| geographic |
Gulf of Alaska Pacific |
| geographic_facet |
Gulf of Alaska Pacific |
| genre |
Kodiak Alaska |
| genre_facet |
Kodiak Alaska |
| op_doi |
https://doi.org/10.14288/1.0053261 |
| _version_ |
1766059032677711872 |