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Observed variability of the South Pacific westward sea level anomaly signal in the presence of bottom topography

Observed variability of the South Pacific westward sea level anomaly signal in the presence of bottom topography
Observed variability of the South Pacific westward sea level anomaly signal in the presence of bottom topography
This study investigates the behavior of westward propagating sea level anomalies across the South Pacific Ocean, with a focus on the long Rossby wave signal determined from filtered TOPEX/Poseidon and ERS satellite altimeter data. An evaluation of the energy variability of the signal using a two-dimensional Radon Transform analysis suggests that Rossby waves interact with both ridges and seamounts at various locations across the basin. Anomalously slow Rossby wave phase speeds are found over steep, isolated bathymetric features in the tropical South Pacific and over the plateau around New Zealand. Interaction with ridges increases the energetic variability, range of dominant propagation speeds, and meridional deviations in the Rossby wave signal.
0094-8276
L04611
Maharaj, A.M.
ce060f9d-7ede-4133-9d49-7445f879f721
Cipollini, P.
276e356a-f29e-4192-98b3-9340b491dab8
Holbrook, N.J.
85f96447-d29e-4c14-881f-be10aee355e9
Maharaj, A.M.
ce060f9d-7ede-4133-9d49-7445f879f721
Cipollini, P.
276e356a-f29e-4192-98b3-9340b491dab8
Holbrook, N.J.
85f96447-d29e-4c14-881f-be10aee355e9

Maharaj, A.M., Cipollini, P. and Holbrook, N.J. (2005) Observed variability of the South Pacific westward sea level anomaly signal in the presence of bottom topography. Geophysical Research Letters, 32 (4), L04611. (doi:10.1029/2004GL020966).

Record type: Article

Abstract

This study investigates the behavior of westward propagating sea level anomalies across the South Pacific Ocean, with a focus on the long Rossby wave signal determined from filtered TOPEX/Poseidon and ERS satellite altimeter data. An evaluation of the energy variability of the signal using a two-dimensional Radon Transform analysis suggests that Rossby waves interact with both ridges and seamounts at various locations across the basin. Anomalously slow Rossby wave phase speeds are found over steep, isolated bathymetric features in the tropical South Pacific and over the plateau around New Zealand. Interaction with ridges increases the energetic variability, range of dominant propagation speeds, and meridional deviations in the Rossby wave signal.

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Published date: 26 February 2005
Organisations: National Oceanography Centre,Southampton

Identifiers

Local EPrints ID: 15755
URI: http://eprints.soton.ac.uk/id/eprint/15755
DOI: doi:10.1029/2004GL020966
ISSN: 0094-8276
PURE UUID: c0a2e7af-20b6-4bcf-8e97-dfea3d8c6231

Catalogue record

Date deposited: 27 May 2005
Last modified: 15 Mar 2024 05:42

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Contributors

Author: A.M. Maharaj
Author: P. Cipollini
Author: N.J. Holbrook

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