Listening to the Oceans - Effective Techniques for Acoustic Imaging of Oceanic Structure

Submesoscale processes are known to play an important role in the vertical and lateral exchange of water masses, along with tracers such as carbon, atmosphere-ocean exchange, ocean productivity, and the mixing budget necessary to complete the overturning circulation. The challenge is to observe subm...

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Bibliographic Details
Main Author: Ehmen, T
Other Authors: Sheen, Katy, Watson, Andrew, Brearley, Alexander, Palmer, Matthew, Roper, Daniel
Format: Doctoral or Postdoctoral Thesis
Language:unknown
Published: University of Exeter 2023
Subjects:
Seismic Oceanography
Acoustics
Physical Oceanography
Submesoscale Processes
Antarctic
Falkland Plateau
Pacific
The Antarctic
Antarc*
South Atlantic Ocean
Online Access:http://hdl.handle.net/10871/132638
Description
Summary:Submesoscale processes are known to play an important role in the vertical and lateral exchange of water masses, along with tracers such as carbon, atmosphere-ocean exchange, ocean productivity, and the mixing budget necessary to complete the overturning circulation. The challenge is to observe submesoscale variability on sufficiently fine space and time scales. One promising approach is seismic oceanography, which applies acoustic reflection techniques, as originally developed by the hydrocarbon industry, to image temperature and salinity gradients within the water column. Here we present the first multichannel seismic images of ocean fine-structure on the eastern Falkland Plateau region of the subantarctic South Atlantic Ocean, a highly energetic confluence zone where Pacific and Antarctic waters flow via the Antarctic Circumpolar Current (ACC) to merge with waters from the Atlantic Ocean and contribute to the global overturning circulation. High-resolution (O(10m)) sections of sub-surface thermohaline structure reveal an intricate and complex pattern of oceanic fine-structure near the Polar Front: internal waves, lenses and filaments with length scales of 100m-10km in intermediate depths (up to 800 m); steep continuous filaments in deeper sections (up to 2000 m) that are influenced by interactions with bathymetry. Spectral analysis of seismic data reveals maps of increased diapycnal mixing near fronts. Furthermore, a novel approach to quantify dynamic instabilities through estimating Ertel’s Potential Vorticity and balanced Richardson angles, is presented. Another key region for the global thermohaline circulation is the Mozambique Channel, where a strong southward propagating eddy field modulates the strength of the Agulhas Current system that transfers warm, salty water into the South Atlantic Ocean. With the analysis of a 4D industry seismic data variability within the Mozambique Channel is analysed through temporal and spatial imaging of submesoscale features. Coincident closely spaced profiles provide ...

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