Observations of thermohaline sound-speed structure induced by internal waves and spice in the summer 2015 Canada Basin marginal ice zone
The article of record as published may be found at https://doi.org/10.1525/elementa.186 The Arctic seas are in a period of transition as they adjust to stimuli from anthropogenic climate change. The acoustic response to this adjustment is of fundamental interest, as acoustics provide an important me...
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2018
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| Online Access: | https://hdl.handle.net/10945/57870 |
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ftnavalpschool:oai:calhoun.nps.edu:10945/57870 2024-06-09T07:43:40+00:00 Observations of thermohaline sound-speed structure induced by internal waves and spice in the summer 2015 Canada Basin marginal ice zone DiMaggio, Dominic Colosi, John A. Joseph, John Pearson, Annalise Worcester, Peter F. Dzieciuch, Matthew A. 2018 application/pdf https://hdl.handle.net/10945/57870 unknown https://hdl.handle.net/10945/57870 This publication is a work of the U.S. Government as defined in Title 17, United States Code, Section 101. Copyright protection is not available for this work in the United States. acoustics observations Arctic Ocean Canada Basin marginal ice zone Article 2018 ftnavalpschool 2024-05-15T00:41:33Z The article of record as published may be found at https://doi.org/10.1525/elementa.186 The Arctic seas are in a period of transition as they adjust to stimuli from anthropogenic climate change. The acoustic response to this adjustment is of fundamental interest, as acoustics provide an important means for Arctic remote sensing, communication and navigation, and there are important biological implications for marine mammals and other organisms that use sound. The Canada Basin Acoustic Propagation Experiment (CANAPE) is an e ort to study Arctic acoustics; this paper reports on ocean sound-speed measurements from a pilot study undertaken between 30 July and 16 August 2015. Moored and shipborne observations of temperature and salinity were made in the upper 600 m of the ocean, allowing analysis along isopycnals (surfaces of constant density) to separate sound-speed structure due to internal-wave-induced vertical displacements from those originating from density-compensated temperature and salinity variations termed spice. Frequency spectra and vertical covariance functions were used to describe the space/time scales of displacements and spice. Internal-wave frequency spectra show a spectral slope much lower than the Garrett-Munk model, with the energy level roughly 4% of the standard Garrett-Munk value. Frequency spectra of spice show a form similar to the internal-wave spectra but with a slightly steeper spectral slope, presumably due to the horizontal advection of the spice by internal-wave currents. The root mean square sound-speed uctuations from internal waves were small with values less than 0.1 m s–1. Spicy sound-speed uctuations were much stronger, particularly in the upper 100 m where a maximum of 0.25 m s–1 was observed. Both processes have vertical decorrelation lengths less than 100 m. The observed strong variations in vertical and horizontal sound-speed structure will have signi cant impacts on acoustic applications, especially in the realm of communications, navigation, and remote sensing. Article in Journal/Newspaper Arctic Arctic Ocean canada basin Climate change Naval Postgraduate School: Calhoun Arctic Arctic Ocean Canada Munk ENVELOPE(-95.993,-95.993,55.979,55.979) |
| institution |
Open Polar |
| collection |
Naval Postgraduate School: Calhoun |
| op_collection_id |
ftnavalpschool |
| language |
unknown |
| topic |
acoustics observations Arctic Ocean Canada Basin marginal ice zone |
| spellingShingle |
acoustics observations Arctic Ocean Canada Basin marginal ice zone DiMaggio, Dominic Colosi, John A. Joseph, John Pearson, Annalise Worcester, Peter F. Dzieciuch, Matthew A. Observations of thermohaline sound-speed structure induced by internal waves and spice in the summer 2015 Canada Basin marginal ice zone |
| topic_facet |
acoustics observations Arctic Ocean Canada Basin marginal ice zone |
| description |
The article of record as published may be found at https://doi.org/10.1525/elementa.186 The Arctic seas are in a period of transition as they adjust to stimuli from anthropogenic climate change. The acoustic response to this adjustment is of fundamental interest, as acoustics provide an important means for Arctic remote sensing, communication and navigation, and there are important biological implications for marine mammals and other organisms that use sound. The Canada Basin Acoustic Propagation Experiment (CANAPE) is an e ort to study Arctic acoustics; this paper reports on ocean sound-speed measurements from a pilot study undertaken between 30 July and 16 August 2015. Moored and shipborne observations of temperature and salinity were made in the upper 600 m of the ocean, allowing analysis along isopycnals (surfaces of constant density) to separate sound-speed structure due to internal-wave-induced vertical displacements from those originating from density-compensated temperature and salinity variations termed spice. Frequency spectra and vertical covariance functions were used to describe the space/time scales of displacements and spice. Internal-wave frequency spectra show a spectral slope much lower than the Garrett-Munk model, with the energy level roughly 4% of the standard Garrett-Munk value. Frequency spectra of spice show a form similar to the internal-wave spectra but with a slightly steeper spectral slope, presumably due to the horizontal advection of the spice by internal-wave currents. The root mean square sound-speed uctuations from internal waves were small with values less than 0.1 m s–1. Spicy sound-speed uctuations were much stronger, particularly in the upper 100 m where a maximum of 0.25 m s–1 was observed. Both processes have vertical decorrelation lengths less than 100 m. The observed strong variations in vertical and horizontal sound-speed structure will have signi cant impacts on acoustic applications, especially in the realm of communications, navigation, and remote sensing. |
| format |
Article in Journal/Newspaper |
| author |
DiMaggio, Dominic Colosi, John A. Joseph, John Pearson, Annalise Worcester, Peter F. Dzieciuch, Matthew A. |
| author_facet |
DiMaggio, Dominic Colosi, John A. Joseph, John Pearson, Annalise Worcester, Peter F. Dzieciuch, Matthew A. |
| author_sort |
DiMaggio, Dominic |
| title |
Observations of thermohaline sound-speed structure induced by internal waves and spice in the summer 2015 Canada Basin marginal ice zone |
| title_short |
Observations of thermohaline sound-speed structure induced by internal waves and spice in the summer 2015 Canada Basin marginal ice zone |
| title_full |
Observations of thermohaline sound-speed structure induced by internal waves and spice in the summer 2015 Canada Basin marginal ice zone |
| title_fullStr |
Observations of thermohaline sound-speed structure induced by internal waves and spice in the summer 2015 Canada Basin marginal ice zone |
| title_full_unstemmed |
Observations of thermohaline sound-speed structure induced by internal waves and spice in the summer 2015 Canada Basin marginal ice zone |
| title_sort |
observations of thermohaline sound-speed structure induced by internal waves and spice in the summer 2015 canada basin marginal ice zone |
| publishDate |
2018 |
| url |
https://hdl.handle.net/10945/57870 |
| long_lat |
ENVELOPE(-95.993,-95.993,55.979,55.979) |
| geographic |
Arctic Arctic Ocean Canada Munk |
| geographic_facet |
Arctic Arctic Ocean Canada Munk |
| genre |
Arctic Arctic Ocean canada basin Climate change |
| genre_facet |
Arctic Arctic Ocean canada basin Climate change |
| op_relation |
https://hdl.handle.net/10945/57870 |
| op_rights |
This publication is a work of the U.S. Government as defined in Title 17, United States Code, Section 101. Copyright protection is not available for this work in the United States. |
| _version_ |
1801372526696202240 |