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Computer analysis of the surface current field off Oregon based on drift bottle dataLung, Hu Ernest 30 April 1973 (has links)
The fall-winter surface current field off Oregon was determined
by analysis of ten years of drift bottle data. Computer programs were
developed for generating bottle tracks on a numerical grid, for interpolating
bottle velocity components to fill void grid points and for
smoothing irregularities in the velocity fields. Charts are presented
showing the spatial distribution of surface currents determined in the
study area of 5° latitude by 2-1/2° longitude.
The mean currents for the fall-winter season have a predominantly
northerly flow with speeds increasing from the south to the
north (from 0.01 to 0.35 knots). This probably is a consequence of
the increase in speed of southerly winds from south to north in the
study area during the fall-winter season. The northly flow in October
during the years 1961-70, when compared with the dominant southerly
flow during this month from measurements prior to 1935, may indicate
a major change of Davidson-California Current System within the
past forty years. Apparent onshore flow may be introduced by bottle
diffusion; this flow is prominant at all latitudes along which bottle
releases are concentrated. An offshore flow component north of
46°30'N may be related to the Columbia River discharge and the
westward extension of land. / Graduation date: 1973
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The response of Oregon shelf waters to wind fluctuations : differences and the transition between winter and summerSobey, Edwin J. C., 1948- 15 February 1977 (has links)
The physical characteristics of continental shelf waters off
Oregon during late winter and spring of 1975 are described and compared
with observations taken previously during summer. The currents
in winter are barotropic in the monthly means while in summer
the currents are baroclinic. Alongshore current fluctuations on the
time scale of a few days are depth dependent in winter but become
depth independent in summer. The current shear changes sign on the
several day time scale in winter while in summer the deeper currents
are always northward with respect to the near surface currents.
Alongshore coherences of sea level and currents indicate that
winter fluctuations generally propagate southward rather than northward
as previously observed in summer. These winter fluctuations in
alongshore currents also have onshore/offshore phase speeds that are
comparable in magnitude to their alongshore phase speeds. There is no
evidence for free continental shelf wave activity in winter although
forced waves (travelling predominately southward, as do the meteorological
disturbances) may exist. The Gill and Schumann (1974)
model, which predicts sea level from a knowledge of the alongshore
components of winds along the coastline, is tested for winter and
summer in 1975 and found to have some predictive ability for fluctuations
on the time scale of several days.
The transition from winter to summer is initiated in a dramatic
barotropic event and continues as a longer period baroclinic adjustment.
The former is marked by a sudden reversal of currents and a
lowering of sea level while the latter is marked by a slow rising of the
pycnocline and with it the layer of maximum vertical shear. Both the
barotropic changes at the transition event and the adjustment of the
density field, which occurs after the transition event, are directly
forced by the local wind. / Graduation date: 1977
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Geopotential anomaly and geostrophic flow off Newport, OregonLee, Kuo-heng 25 April 1967 (has links)
The geopotential anomalies and the average meridional geostrophic
flow off Newport, Oregon, were computed from the data taken
during twenty-one hydrographic cruises.
The annual average of geopotential anomaly was 1.31 dynamic
meters with a seasonal variation of the order of 14 dynamic centimeters.
Highest values of geopotential anomaly occurred in September;
lowest values occurred in April. Both the highest and lowest
value of geopotential anomaly occurred at 105 nautical miles offshore.
The currents found by dynamic computation were weak and irregular,
generally 5 cm/sec or less. The direction of the average
meridional geostrophic flow varied with season. Within 105 nautical
miles of the coast, flow was southward in summer, northward in
winter. Beyond 105 nautical miles from the coast, flow directions reversed,
that is, flow was northward in summer and southward in
winter. / Graduation date: 1967
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Baroclinic instabilities of nonzonal ocean currents with application to the Kuroshio Extension CurrentYun, Jae-Yul January 1986 (has links)
Typescript. / Bibliography: leaves 144-147. / Photocopy. / xvi, 147 leaves ill
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The statistics and kinematics of transverse sand bars on an open coastKonicki, Kathryn Maria 15 January 1999 (has links)
Graduation date: 1999 / Best scan available for figures. Original has a moray pattern.
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Description of measurements of current velocity and temperature over the Oregon continental shelf, July 1965-February 1966Collins, Curtis Allan 20 July 1967 (has links)
Graduation date: 1968
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Structure and kinematics of the permanent oceanic front off the Oregon coastCollins, Curtis Allan 07 April 1964 (has links)
Using the hydrographic data collected by the ACONA from June
1961 to May 1963, the Oregon coastal front has been examined. Representative
sigma-t surfaces were chosen to delineate the front, and
changes in position of these surfaces with time were used to obtain
zonal flow rates for the frontal and surface layers.
From May to early October upwelling resulted in offshore flow.
Onshore flow was indicated from late October to January, and indeterminate
zonal flow occurred during the remainder of the year. Flow
within the front agreed with these surface flows in ten of the fourteen
observational periods. / Graduation date: 1964
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Low frequency variations in the sea level and currents over the Oregon continental shelfCutchin, David L. 14 July 1971 (has links)
Sea level and current observations made over the Oregon
continental shelf exhibit wavelike characteristics in a frequency band
from approximately 0.15 to 0.45 cpd. In a narrow band around
0.22 cpd the current-sea level relationship is consistent with the
predicted values for the first mode of Robinson's continental shelf
waves. In addition, an interesting relationship exists between the
form of the sea level-current coherency spectra and the arrangement
of the maximum frequencies for the first three shelf wave modes.
The currents were measured in 100 m of water about seven
nautical miles off Depoe Bay, Oregon. Current meters were placed
at 25, 50 and 75 m depth. The duration of the experiment was from
18 April 1968 until 11 September 1968. Due to some instrument failures
a complete current data set for this period was not obtained.
Simultaneous and continuous measurements of surface elevation and
atmospheric pressure were also obtained at Newport, Oregon, a
nearby coastal station.
Shelf wave dispersion curves and eigenfunctions for the Oregon
coastal profile are computed using a new numerical technique. These
are compared with a low frequency (about 0.03 cpd to 0.75 cpd)
spectral analysis of the current, sea level and atmospheric pressure
records.
The relative vertical uniformity of the currents, as a function of
frequency, is examined. The longshore component of the current
appears to be substantially more barotropic than the onshore-offshore
component. / Graduation date: 1972
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Characteristics and distribution of water masses off the Oregon coastRosenberg, Donald H. 03 August 1962 (has links)
Graduation date: 1963
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