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Interactions of Wind-driven and Tidally-driven Circulation in the Oregon Coastal Ocean

2014 Continental shelf
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Release : 2014
Genre : Continental shelf
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Book Synopsis Interactions of Wind-driven and Tidally-driven Circulation in the Oregon Coastal Ocean by : John Joseph Osborne

Download or read book Interactions of Wind-driven and Tidally-driven Circulation in the Oregon Coastal Ocean written by John Joseph Osborne. This book was released on 2014. Available in PDF, EPUB and Kindle. Book excerpt: Influences of tidal and slower (subtidal) oceanic flows over the continental shelf and slope off Oregon are studied using a high-resolution ocean circulation model and comparative model-data analyses. The model is based on the Regional Ocean Modeling System (ROMS), a fully nonlinear, three-dimensional model (using hydrostatic and Boussinesq approximations). The model horizontal resolution is 1 km. The study period is summer 2002. Variability in the semi-diurnal internal (three-dimensional, baroclinic) tidal flows is influenced by the background conditions associated with coastal wind-driven summer currents. Our analyses reveal areas of intensified semidiurnal tide on the Oregon slope and the shelf and how these vary with change in the background conditions. Hot spots of barotopic-to-baroclinic energy conversion found on the slope occupy 1% of the slope area produce about 20% of the internal tide energy. At these locations, generation is well balanced by radiation of the internal tide energy away from the generation location. Intensity of the diurnal K1 and O1 tidal currents on the Oregon shelf is also influenced by the background stratification and alongshore currents associated with summer upwelling. Tidal currents are stronger in stratified conditions (as compared to an unstratified case). Intensity of the diurnal surface current is influenced by the advection of the alongshore wind-driven coastal current by cross-shore tidal current and also diurnal wind forcing. Analyses in this part are corroborated by comparisons with the high-frequency (HF) radar surface currents. Diurnal flows may dominate variability around Cape Blanco, a prominent geographical feature on the Oregon coast, where the surface diurnal currents may be in excess of 0.3 m/s. Analyses of the slope flows using a passive tracer released continuously at the bottom at the 300 m depth show the presence of the continuous undercurrent between Cape Blanco and Heceta Bank. In this area, the Reynolds-averaged term v'q' is computed, where v' and q' are the high-pass filtered (tidal) velocity across the 200-m isobath and the tracer concentration, respectively, and · denotes the 40-hour half-amplitude low-pass filter. The Reynolds term contributes appreciably to the on-shelf tracer transport on subtidal scales.

Wind-driven Circulation and Ecosystem Response Off the Oregon Coast

2005
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Release : 2005
Genre :
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Book Synopsis Wind-driven Circulation and Ecosystem Response Off the Oregon Coast by : John Klinck

Download or read book Wind-driven Circulation and Ecosystem Response Off the Oregon Coast written by John Klinck. This book was released on 2005. Available in PDF, EPUB and Kindle. Book excerpt:

Ensemble-Based Estimates of the Predictability of Wind-Driven Coastal Ocean Flow Over Topography

2008
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Release : 2008
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Book Synopsis Ensemble-Based Estimates of the Predictability of Wind-Driven Coastal Ocean Flow Over Topography by :

Download or read book Ensemble-Based Estimates of the Predictability of Wind-Driven Coastal Ocean Flow Over Topography written by . This book was released on 2008. Available in PDF, EPUB and Kindle. Book excerpt: The predictability of coastal ocean circulation over the central Oregon shelf, a region of strong wind-driven currents and variable topography, is studied using ensembles of 50-day primitive-equation ocean model simulations with realistic topography, simplified lateral boundary conditions, and forcing from both idealized and observed wind time-series representative of the summer upwelling season. The main focus is on the balance, relevant to practical predictability, between deterministic response to known or well-predicted forcing, uncertainty in initial conditions, and sensitivity to instabilities and topographic interactions. Large ensemble and single-simulation variances are found downstream of topographic features, associated with transitions between along-isobath and cross-isobath flow, which are in turn related both to the time-integrated amplitude of upwelling-favorable wind-forcing and to the formation of small-scale eddies. Simulated predictability experiments are conducted and model forecasts are verified by standard statistics including anomaly correlation coefficient, and root mean squared error. A new variant of relative entropy, the forecast relative entropy, is introduced to quantify the predictive information content in the forecast ensemble, relative to the initial ensemble. The results suggest that, even under conditions of relatively weak wind forcing, the deterministic response is stronger than instability growth over the 3-7 day forecast intervals considered here. Consequently, important elements of the coastal circulation should be accessible to predictive, dynamical forecasts on the nominal 7-day predictability timescale of the atmospheric forcing, provided that sufficiently accurate initializations area available. These results on predictability are consistent with inferences drawn from recent modeling studies of coastal ocean circulation along the central Oregon shelf, and should have general validity for other, similar regions.

Encyclopedia of Coastal Science

2006-11-08 Science
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Release : 2006-11-08
Genre : Science
Kind : eBook
Book Rating : 801/5 ( reviews)

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Book Synopsis Encyclopedia of Coastal Science by : M. Schwartz

Download or read book Encyclopedia of Coastal Science written by M. Schwartz. This book was released on 2006-11-08. Available in PDF, EPUB and Kindle. Book excerpt: This new Encyclopedia of Coastal Science stands as the latest authoritative source in the field of coastal studies, making it the standard reference work for specialists and the interested lay person. Unique in its interdisciplinary approach. This Encyclopedia features contributions by 245 well-known international specialists in their respective fields and is abundantly illustrated with line-drawings and photographs. Not only does this volume offer an extensive number of entries, it also includes various appendices, an illustrated glossary of coastal morphology and extensive bibliographic listings.

The Effect of River Discharge and Wind Forcing on the Oregon Coastal Ocean During Fall and Winter

2014 Plumes (Fluid dynamics)
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Release : 2014
Genre : Plumes (Fluid dynamics)
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Book Synopsis The Effect of River Discharge and Wind Forcing on the Oregon Coastal Ocean During Fall and Winter by : Piero Luigi Fernandes Mazzini

Download or read book The Effect of River Discharge and Wind Forcing on the Oregon Coastal Ocean During Fall and Winter written by Piero Luigi Fernandes Mazzini. This book was released on 2014. Available in PDF, EPUB and Kindle. Book excerpt: Freshwater provided from river discharge influences the dynamics and circulation of most continental shelves around the world. It has profound effects on the transport and fate of materials and substances originated from rivers and estuaries, as well as on the ocean biogeochemistry and marine ecosystems. The effect of buoyancy forcing and its modification by windstress off the Oregon coast are studied here, with an emphasis on the downwelling season (fall/winter). Six years of data are used in this study, from 2006 to 2012, obtained by a network of coastal oceanographic observations. During the downwelling season, buoyancy-forcing resulting from significant freshwater input from multiple river sources along the coast, together with the predominantly downwelling-favorable windstress and the large-scale Davidson Current, drives what we have named the Oregon Coastal Current (OCC). Based on a 2-layer model, the dominant forcing mechanism of the OCC is buoyancy, followed by the Davidson Current, and then the wind stress, accounting for 61% (±22.6%), 26% (±18.6%) and 13% (±11.7%) of the along-shore transports, respectively. The OCC is a surface-trapped coastal current, with transports comparable to the summertime upwelling jet off the Oregon coast. Offshore of the OCC, the seasonal evolution of the salinity field is controlled by different mechanisms at two distinct times: prior and after the remotely forced spring transition (RFST). After the RFST, along-shelf advection of the Columbia River Plume by remotely forced southward currents dominate the salinity variability. Prior to the RFST, this variability is dominated by cross-shelf freshwater fluxes from the OCC, influencing an offshore distance of approximately 33 km from the OCC's edge. The rate-of-change of salinity over this region can be explained in terms of eddy and wind-driven Ekman cross-shelf freshwater fluxes, however it was not possible to distinguish their relative contributions. Based on the estimated freshwater loss from the OCC, a leaking pipe model was developed, and it was estimated that the along-shelf freshwater fluxes through a cross-shelf section off Newport can be explained by the summed discharges from 3-4 rivers upstream, reaching as far as the Siuslaw of Umpqua rivers. Salinity off Oregon is also variable at interannual time scales. Low salinities during the upwelling season (spring/summer), produced by increased river discharges from the Columbia River are correlated to El Niño/La Niña. The lowest salinity recorded off Newport, was registered during an extreme La Niña event of 2011. For the first time the Columbia River Plume was tracked from mid-shelf all the way into the Yaquina Bay estuary. Finally, the effect of wind-forcing and flow-topography interaction are investigated, in a continental shelf in the absence of freshwater input, off the Brazilian coast. Our results demonstrate that on larger scales, the sea surface temperature variability along the coast is mainly controlled by wind-driven upwelling, while upwelling due to flow-topography interaction is responsible for the smaller scale sea surface temperature variability.

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