Internal Solitary Waves within the Cold Tongue of the Equatorial Pacific Generated by Buoyant Gravity Currents

A. M. Santos-Ferreira; J. C. B. da Silva; B. St-Denis; D. Bourgault; L. R. M. Maas

doi:10.1175/JPO-D-22-0165.1

Internal Solitary Waves within the Cold Tongue of the Equatorial Pacific Generated by Buoyant Gravity Currents

A. M. Santos-Ferreira
, J. C. B. da Silva
, B. St-Denis
, D. Bourgault
, L. R. M. Maas^*

^*Corresponding author for this work

Research output: Contribution to journal › Article › Academic › peer-review

Abstract

The equatorial cold tongue in the Pacific Ocean has been intensely studied during the last decades as it plays an important role in air–sea interactions and climate issues. Recently, Warner et al. revealed gravity currents apparently originating in tropical instability waves. Both phenomena have strong dissipation rates and were considered to play a significant role in cascading energy from the mesoscale to smaller horizontal scales, as well as to vertical scales less than 1 m. Here, we present Sentinel-3 satellite observations of internal solitary waves (ISWs) in the Pacific cold tongue near the equator, in a zonal band stretching from 210° to 265°E, away from any steep bottom topography. Within this band these waves propagate in multiple directions. Some of the waves’ characteristics, such as the distance between wave crests, crest lengths, and time scales, are estimated from satellite observations. In total we identify 116 ISW trains during one full year (2020), with typical distances between crests of 1500 m and crest lengths of hundreds of kilometers. These ISW trains appear to be generated by buoyant gravity currents having sharp fronts detectable in thermal infrared satellite images. A 2D numerical model confirms that resonantly generated nonlinear internal waves with amplitudes of O(10) m may be continuously initiated at the fronts of advancing gravity currents.

Original language	English
Pages (from-to)	2419-2434
Number of pages	16
Journal	Journal of Physical Oceanography
Volume	53
Issue number	10
DOIs	https://doi.org/10.1175/JPO-D-22-0165.1
Publication status	Published - Oct 2023

Bibliographical note

Publisher Copyright:
© 2023 American Meteorological Society.

Funding

We are grateful to Christopher Jackson at NOAA for facilitating the use of his global map of internal solitary waves and to three reviewers for their constructive comments. This work was funded by the EU and ESA, under sub- contract CLS-ENV-BC-20-0017 "Multi Sensor Synergy Study for Sentinel-3C/D" between the University of Porto and Collecte Localisation Satellites, SA. A.M.S.-F. gratefully acknowledges FCT and the EU for a Ph.D. grant SFRH/BD/143443/2019. J.C.B.d.S. thanks the Portuguese funding agency Fundacao para a Ciencia e Tecnologia (FCT) under project IDB/04683/2020.

Funders	Funder number
EU
FCT	CLS-ENV-BC-20-0017
ESA	SFRH/BD/143443/2019
Fundacao para a Ciencia e Tecnologia (FCT)	IDB/04683/2020

Keywords

Density currents
Internal waves
Numerical analysis/modeling
Pacific Ocean
Remote sensing
Solitary waves

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phoc-JPO-D-22-0165.1Final published version, 43.7 MBLicence: CC BY

Cite this

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title = "Internal Solitary Waves within the Cold Tongue of the Equatorial Pacific Generated by Buoyant Gravity Currents",

abstract = "The equatorial cold tongue in the Pacific Ocean has been intensely studied during the last decades as it plays an important role in air–sea interactions and climate issues. Recently, Warner et al. revealed gravity currents apparently originating in tropical instability waves. Both phenomena have strong dissipation rates and were considered to play a significant role in cascading energy from the mesoscale to smaller horizontal scales, as well as to vertical scales less than 1 m. Here, we present Sentinel-3 satellite observations of internal solitary waves (ISWs) in the Pacific cold tongue near the equator, in a zonal band stretching from 210° to 265°E, away from any steep bottom topography. Within this band these waves propagate in multiple directions. Some of the waves{\textquoteright} characteristics, such as the distance between wave crests, crest lengths, and time scales, are estimated from satellite observations. In total we identify 116 ISW trains during one full year (2020), with typical distances between crests of 1500 m and crest lengths of hundreds of kilometers. These ISW trains appear to be generated by buoyant gravity currents having sharp fronts detectable in thermal infrared satellite images. A 2D numerical model confirms that resonantly generated nonlinear internal waves with amplitudes of O(10) m may be continuously initiated at the fronts of advancing gravity currents.",

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author = "Santos-Ferreira, \{A. M.\} and Silva, \{J. C. B. da\} and B. St-Denis and D. Bourgault and Maas, \{L. R. M.\}",

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AB - The equatorial cold tongue in the Pacific Ocean has been intensely studied during the last decades as it plays an important role in air–sea interactions and climate issues. Recently, Warner et al. revealed gravity currents apparently originating in tropical instability waves. Both phenomena have strong dissipation rates and were considered to play a significant role in cascading energy from the mesoscale to smaller horizontal scales, as well as to vertical scales less than 1 m. Here, we present Sentinel-3 satellite observations of internal solitary waves (ISWs) in the Pacific cold tongue near the equator, in a zonal band stretching from 210° to 265°E, away from any steep bottom topography. Within this band these waves propagate in multiple directions. Some of the waves’ characteristics, such as the distance between wave crests, crest lengths, and time scales, are estimated from satellite observations. In total we identify 116 ISW trains during one full year (2020), with typical distances between crests of 1500 m and crest lengths of hundreds of kilometers. These ISW trains appear to be generated by buoyant gravity currents having sharp fronts detectable in thermal infrared satellite images. A 2D numerical model confirms that resonantly generated nonlinear internal waves with amplitudes of O(10) m may be continuously initiated at the fronts of advancing gravity currents.

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Internal Solitary Waves within the Cold Tongue of the Equatorial Pacific Generated by Buoyant Gravity Currents

Abstract

Bibliographical note

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Keywords

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