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Temperature Inversions in the Subarctic North Pacific (2005)

Ueno, Hiromichi ; Yasuda, Ichiro

American Meteorological Society

In: Journal of Physical Oceanography. 2005; 35(12): 2444-2456. Published 2005 Dec 01. doi: 10.1175/jpo2829.1.

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Publication Date: 2005-12-01

Description: Hydrographic data from the World Ocean Database 2001 and Argo profiling floats were analyzed to study temperature inversions in the subarctic North Pacific Ocean. The frequency distribution of temperature inversions [F(t-inv)] at a resolution of 1° (latitude) × 3° (longitude) was calculated. Temperature inversions seldom occurred around 50°N in the eastern subarctic North Pacific but were more common in the northern Gulf of Alaska and the southeastern subarctic North Pacific (42°–48°N, 140°–170°W). Large temperature inversions occurred throughout the year in the western and central subarctic North Pacific (north of 42°N and west of 180°) except near the Aleutian and Kuril Islands. Near those islands, F(t-inv) was characterized by pronounced seasonal variations forced by surface heating/cooling and strong tidal mixing.

Print ISSN: 0022-3670

Electronic ISSN: 1520-0485

Topics: Geosciences , Physics

Published by American Meteorological Society

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Numerical Experiments on the Seasonal Variations of the Oyashio near the East Coast of Japan (2005)

Tatebe, Hiroaki ; Yasuda, Ichiro

American Meteorological Society

In: Journal of Physical Oceanography. 2005; 35(12): 2309-2326. Published 2005 Dec 01. doi: 10.1175/jpo2818.1.

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Publication Date: 2005-12-01

Description: Seasonal variations of the Oyashio near the east coast of Japan are examined using a simple layered model with a localized diapycnal transport due to the strong tidal mixing around the Kuril Islands. The modeled southernmost latitude is located at around 40°N in spring and 42°N in autumn. The southwestward Oyashio transport in the upper layers and depth-integrated transport become large (small) during winter–spring (summer–autumn). These results are in agreement with observations. The seasonal variation of the southernmost latitude is mainly caused by the baroclinic velocity anomalies off Tohoku and Hokkaido, Japan, which have been excited by the wind stress changes along the west coast of North America, the Kamchatka Peninsula, and the model northern boundary. This is different from the previous studies that emphasized the importance of direct barotropic response of the ocean to the basin-scale wind stress changes. For comparison, an additional experiment in which the diapycnal transport around the Kuril Islands is not included is performed. In this case, the annual-mean Oyashio does not extend south of the wind-driven gyre boundary and the variation of the southernmost latitude is small, even though the baroclinic velocity anomalies are similar to the ones in the case with the diapycnal transport. This is because the annual-mean Oyashio velocities are larger than the anomalies and cannot be distorted, whereas the annual-mean Oyashio in the case with diapycnal transport is weak in intrusion of the wind-driven gyre boundary and can be easily changed by the velocity anomalies. It is suggested that the reproduction of the seasonal variation of the Oyashio southernmost latitude depends on whether the annual-mean Oyashio intrusion could be reproduced adequately in the numerical model.

Print ISSN: 0022-3670

Electronic ISSN: 1520-0485

Topics: Geosciences , Physics

Published by American Meteorological Society

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Three-Dimensional Structure of Frontal Waves and Associated Salinity Minimum Formation along the Kuroshio Extension (2007)

Kouketsu, Shinya ; Yasuda, Ichiro ; Hiroe, Yutaka

American Meteorological Society

In: Journal of Physical Oceanography. 2007; 37(3): 644-656. Published 2007 Mar 01. doi: 10.1175/jpo3026.1.

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Publication Date: 2007-03-01

Description: High-resolution hydrographic observations were conducted in September 2002 to describe the detailed structure of frontal waves along the Kuroshio Extension. Frontal waves were observed both in the upper and intermediate layers, which corresponded to the depths of North Pacific Subtropical Mode Water and North Pacific Intermediate Water, respectively. The frontal wave in the upper layer preceded the intermediate-depth frontal wave by about 1/4 wavelength. The vertical phase lag created situations in which the low-salinity Oyashio water in the intermediate layer was superimposed below the upper-layer high-salinity Kuroshio water, thus forming a vertical salinity minimum. The frontal waves with a wavelength of about 200 km and a phase speed of 0.2–0.3 m s−1 propagating in the downstream direction were consistent with those from satellite images. Vertical velocity fields were estimated with the quasigeostrophic omega equation. Downwelling around the trough (from the crest to trough) of the intermediate-depth (upper layer) frontal wave and upwelling around the crest (from the trough to the crest) were similar to the features observed in the Gulf Stream meanders. The phase difference between the upper and intermediate layers suggested that the frontal waves were baroclinically unstable waves.

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Electronic ISSN: 1520-0485

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Distribution and Modification of North Pacific Intermediate Water around the Subarctic Frontal Zone East of 150°E (2009)

Masujima, Masachika ; Yasuda, Ichiro

American Meteorological Society

In: Journal of Physical Oceanography. 2009; 39(6): 1462-1474. Published 2009 Jun 01. doi: 10.1175/2008jpo3919.1.

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Publication Date: 2009-06-01

Description: Modification and distribution of North Pacific Intermediate Water (NPIW) in the area north of 30°N and east of 150°E are discussed based on an isopycnal particle tracking experiment with the velocity field estimated from a β-spiral inverse method based on climatological data, annual climatological data analysis, and isopycnal-tracking profiling float data. NPIW emanating from 149.5°E between 35.5° and 37.5°N retains its salinity minimum structure along the eastward flow of the northern subtropical gyre, and these pathways occupy the northern part of the NPIW distribution. On the other hand, NPIW from 149.5°E between 37.5° and 40.5°N loses its salinity minimum as it flows eastward to the “transition domain.” The extinction of the salinity minimum structure is caused by a salinity decrease in the upper layer (26.5–26.6 σθ) in the region at 40°–45°N, 155°–165°E where a winter mixed layer is developed to a depth of 300 m and a density of 26.7 σθ. This extinction was observed by a profiling float tracking a 26.7-σθ isopycnal density surface. Low-salinity subarctic water advected southward across the Subarctic Front by wind-induced Ekman drift from strong westerlies in winter is suggested as the source of the low-salinity mixed layer. After the extinction of the salinity minimum structure, a state without salinity minimum is maintained during transport eastward in the transition domain because the winter mixed layer in the area east of the deep mixed layer region reaches a density surface shallower than 26.5 σθ.

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Unstable Frontal Waves along the Kuroshio Extension with Low-Potential Vorticity Intermediate Oyashio Water (2008)

Kouketsu, Shinya ; Yasuda, Ichiro

American Meteorological Society

In: Journal of Physical Oceanography. 2008; 38(10): 2308-2321. Published 2008 Oct 01. doi: 10.1175/2008jpo3814.1.

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Publication Date: 2008-10-01

Description: A linear stability analysis was conducted for a three-layer primitive equation model including viscosity with a basic state, which modeled the stratification and velocity fields with the vertical and horizontal variations across the Kuroshio Extension. An unstable wave with a wavelength of 220 km and a phase speed of 0.24 m s−1 propagating in the downstream direction was found to grow the fastest. Characteristics of this unstable baroclinic wave were similar to those of waves observed along the Kuroshio Extension. The growth rate of the fastest-growing waves became greater with an increase of the cross-stream difference of the potential vorticity (PV) in the intermediate layer. For a cross-frontal stratification structure without the PV gradient in the intermediate layer, which is similar to that in the Gulf Stream, the wavelength of the fastest-growing unstable wave changed to 390 km and the unstable wave had a much different structure. Thus, the unstable frontal waves observed along the Kuroshio Extension occur only for the cases when low-PV Oyashio water exists on the northern side of the main stream in the intermediate layer. The unstable frontal waves revealed in the present study greatly contribute to the formation of a clear salinity minimum in the Kuroshio Extension.

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