Search engine for discovering works of Art, research articles, and books related to Art and Culture
ShareThis
Javascript must be enabled to continue!

Observations of sound-speed fluctuations in the Beaufort Sea from summer 2016 to summer 2017

View through CrossRef
Due to seasonal ice cover, acoustics can provide a unique means for Arctic undersea communication, navigation, and remote sensing. This study seeks to quantify the annual cycle of the thermohaline structure in the Beaufort Sea and characterize acoustically relevant oceanographic processes such as eddies, internal waves, near-inertial waves (NIWs), and spice. The observations are from a seven-mooring, 150-km radius acoustic transceiver array equipped with oceanographic sensors that collected data in the Beaufort Sea from 2016 to 2017. Depth and time variations of the sound speed are analyzed using isopycnal displacements, allowing a separation of baroclinic processes and spice. Compared to lower latitudes, the overall sound speed variability is small with a maximum root mean square of 0.6 m/s. The largest source of variability is spice, most significant in the upper 100 m, followed by eddies and internal waves. The displacement spectrum in the internal wave band is time dependent and different from the Garret-Munk (GM) spectrum. The internal wave energy varied with time averaging 5% of the GM spectrum. The spice sound-speed frequency spectrum has a form very different from the displacement spectrum, a result not seen at lower latitudes. Because sound speed variations are weak, observations of episodic energetic NIWs with horizontal currents up to 20 cm/s have potential acoustical consequences.
Title: Observations of sound-speed fluctuations in the Beaufort Sea from summer 2016 to summer 2017
Description:
Due to seasonal ice cover, acoustics can provide a unique means for Arctic undersea communication, navigation, and remote sensing.
This study seeks to quantify the annual cycle of the thermohaline structure in the Beaufort Sea and characterize acoustically relevant oceanographic processes such as eddies, internal waves, near-inertial waves (NIWs), and spice.
The observations are from a seven-mooring, 150-km radius acoustic transceiver array equipped with oceanographic sensors that collected data in the Beaufort Sea from 2016 to 2017.
Depth and time variations of the sound speed are analyzed using isopycnal displacements, allowing a separation of baroclinic processes and spice.
Compared to lower latitudes, the overall sound speed variability is small with a maximum root mean square of 0.
6 m/s.
The largest source of variability is spice, most significant in the upper 100 m, followed by eddies and internal waves.
The displacement spectrum in the internal wave band is time dependent and different from the Garret-Munk (GM) spectrum.
The internal wave energy varied with time averaging 5% of the GM spectrum.
The spice sound-speed frequency spectrum has a form very different from the displacement spectrum, a result not seen at lower latitudes.
Because sound speed variations are weak, observations of episodic energetic NIWs with horizontal currents up to 20 cm/s have potential acoustical consequences.

Related Results

Characterization of epibenthic community structure in the Beaufort Sea area
Characterization of epibenthic community structure in the Beaufort Sea area
The Canadian Arctic is facing new issues with increased marine traffic, exploration and exploitation of resources. Knowledge of the environment is needed to address these issues. F...
Sea Level, Surface Salinity of the Japan Sea, and the Younger Dryas Event in the Northwestern Pacific Ocean
Sea Level, Surface Salinity of the Japan Sea, and the Younger Dryas Event in the Northwestern Pacific Ocean
AbstractThe Japan Sea was profoundly different during glacial times than today. Available δ18O evidence indicates that sea surface salinity was lower by several per mil. This proba...
Flutter prediction on combined EPS and carbon sandwich structure for light aircraft wing
Flutter prediction on combined EPS and carbon sandwich structure for light aircraft wing
Flutter prediction is an important step before conducting a flight test. In this study, we performed flutter prediction of a half-wing structure without control surfaces. The half-...
Acoustic far-field prediction based on near-field measurements by using several different holography algorithms
Acoustic far-field prediction based on near-field measurements by using several different holography algorithms
Near-field acoustical holography (NAH) is a useful tool for sound field reconstruction and sound source identification. In NAH, a basis model is first selected to represent the phy...
Investigating Sound in Space: Five meanings of space in music and sound art
Investigating Sound in Space: Five meanings of space in music and sound art
Since the 1950s the spatiality of sound has become a key concept in different fields of artistic practice, emerging as one of the most relevant subjects in the contemporary arts. I...
Noncontact rotation of a small object using ultrasound standing wave and traveling wave
Noncontact rotation of a small object using ultrasound standing wave and traveling wave
In an acoustic standing wave generated in the air between a vibrator and a reflector, a small object is levitated near the nodal positions of the sound pressure where the acoustic ...
Ecological Sound Art: Steps towards a new field
Ecological Sound Art: Steps towards a new field
The years since the turn of the millennium have seen an increasing number of sound artists engaging with contemporary environmental issues such as biodiversity loss, sustainability...
Materiality in Sound Art
Materiality in Sound Art
This article investigates the recent resurgence of kinetic sound art in light of the relationship between art and material. It does this by studying the history of mechanical music...

Back to Top