Submesoscale Coherent Structures on the Continental Shelf

Discovery and analysis of submesoscale variability O (0.3–30) km on the continental shelf is made possible by a high-resolution (Δ x = 75 m) Regional Oceanic Modeling System (ROMS) simulation of the Southern California Bight (SCB). This variability is manifest in ubiquitous yet ephemeral coherent st...

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Published inJournal of physical oceanography Vol. 47; no. 12; pp. 2949 - 2976
Main Authors Dauhajre, Daniel P., McWilliams, James C., Uchiyama, Yusuke
Format Journal Article
LanguageEnglish
Published Boston American Meteorological Society 01.12.2017
Subjects
Bottom stress
Continental shelves
Density
Density gradients
Diurnal variations
Filaments
Frontogenesis
Fronts
Headlands
Heat flux
Heat transfer
Isobaths
Life cycle
Momentum balance
Ocean models
Oceanic vortices
Phenomenology
Pressure gradients
Regions
Shallow water
Simulation
Thermal winds
Velocity
Velocity gradient
Velocity gradients
Vertical mixing
Vertical velocities
Vorticity
Water circulation
Water column
Water depth
Waterfronts
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Abstract Discovery and analysis of submesoscale variability O (0.3–30) km on the continental shelf is made possible by a high-resolution (Δ x = 75 m) Regional Oceanic Modeling System (ROMS) simulation of the Southern California Bight (SCB). This variability is manifest in ubiquitous yet ephemeral coherent structures: fronts, filaments, and vortices. Similar to their open-ocean counterparts, fronts and filaments on the shelf are identified by their strong vertical velocity, surface convergence, cyclonic vorticity, and horizontal density gradient. Life cycles of these features typically last 3–5 days, with the formation dominated by a horizontal advective tendency that increases density and velocity gradients (i.e., frontogenesis). The shape of the coastline and depth of the water column both influence the abundance and spatial orientation of shallow-water fronts and filaments. Closer to shore, fronts and filaments often align themselves parallel to isobaths, and headlands often act as sites of intense vorticity generation through bottom stress. A quasi-steady, approximate momentum balance among rotation, pressure gradient, and vertical mixing—known as turbulent thermal wind (TTW)—often is valid in the strong secondary circulations local to fronts and filaments. However, front and filament circulations subject to strong diurnal variation in surface heating and vertical mixing are inconsistent with steady-state TTW balance. The secondary circulations can induce ephemeral material trapping and substantial vertical heat fluxes on the shelf.
AbstractList Discovery and analysis of submesoscale variability O (0.3–30) km on the continental shelf is made possible by a high-resolution (Δ x = 75 m) Regional Oceanic Modeling System (ROMS) simulation of the Southern California Bight (SCB). This variability is manifest in ubiquitous yet ephemeral coherent structures: fronts, filaments, and vortices. Similar to their open-ocean counterparts, fronts and filaments on the shelf are identified by their strong vertical velocity, surface convergence, cyclonic vorticity, and horizontal density gradient. Life cycles of these features typically last 3–5 days, with the formation dominated by a horizontal advective tendency that increases density and velocity gradients (i.e., frontogenesis). The shape of the coastline and depth of the water column both influence the abundance and spatial orientation of shallow-water fronts and filaments. Closer to shore, fronts and filaments often align themselves parallel to isobaths, and headlands often act as sites of intense vorticity generation through bottom stress. A quasi-steady, approximate momentum balance among rotation, pressure gradient, and vertical mixing—known as turbulent thermal wind (TTW)—often is valid in the strong secondary circulations local to fronts and filaments. However, front and filament circulations subject to strong diurnal variation in surface heating and vertical mixing are inconsistent with steady-state TTW balance. The secondary circulations can induce ephemeral material trapping and substantial vertical heat fluxes on the shelf.
Discovery and analysis of submesoscale variability O(0.3–30) km on the continental shelf is made possible by a high-resolution (Δx = 75 m) Regional Oceanic Modeling System (ROMS) simulation of the Southern California Bight (SCB). This variability is manifest in ubiquitous yet ephemeral coherent structures: fronts, filaments, and vortices. Similar to their open-ocean counterparts, fronts and filaments on the shelf are identified by their strong vertical velocity, surface convergence, cyclonic vorticity, and horizontal density gradient. Life cycles of these features typically last 3–5 days, with the formation dominated by a horizontal advective tendency that increases density and velocity gradients (i.e., frontogenesis). The shape of the coastline and depth of the water column both influence the abundance and spatial orientation of shallow-water fronts and filaments. Closer to shore, fronts and filaments often align themselves parallel to isobaths, and headlands often act as sites of intense vorticity generation through bottom stress. A quasi-steady, approximate momentum balance among rotation, pressure gradient, and vertical mixing—known as turbulent thermal wind (TTW)—often is valid in the strong secondary circulations local to fronts and filaments. However, front and filament circulations subject to strong diurnal variation in surface heating and vertical mixing are inconsistent with steady-state TTW balance. The secondary circulations can induce ephemeral material trapping and substantial vertical heat fluxes on the shelf.
Author Uchiyama, Yusuke
McWilliams, James C.
Dauhajre, Daniel P.
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  surname: McWilliams
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  organization: Department of Atmospheric and Oceanic Sciences, University of California, Los Angeles, Los Angeles, California
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  givenname: Yusuke
  surname: Uchiyama
  fullname: Uchiyama, Yusuke
  organization: Department of Civil Engineering, Kobe University, Kobe, Hyogo, Japan
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Snippet Discovery and analysis of submesoscale variability O (0.3–30) km on the continental shelf is made possible by a high-resolution (Δ x = 75 m) Regional Oceanic...
Discovery and analysis of submesoscale variability O(0.3–30) km on the continental shelf is made possible by a high-resolution (Δx = 75 m) Regional Oceanic...
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SubjectTerms Bottom stress
Continental shelves
Density
Density gradients
Diurnal variations
Filaments
Frontogenesis
Fronts
Headlands
Heat flux
Heat transfer
Isobaths
Life cycle
Momentum balance
Ocean models
Oceanic vortices
Phenomenology
Pressure gradients
Regions
Shallow water
Simulation
Thermal winds
Velocity
Velocity gradient
Velocity gradients
Vertical mixing
Vertical velocities
Vorticity
Water circulation
Water column
Water depth
Waterfronts
Title Submesoscale Coherent Structures on the Continental Shelf
URI https://www.proquest.com/docview/3235024682
Volume 47
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