Data from: New perspectives on frontal variability in the southern ocean

The frontal structure of the Southern Ocean is investigated using the Wavelet/Higher Order Statistics Enhancement (WHOSE) frontal detection method, introduced in Chapman (2014). This methodology is applied to 21 years of daily gridded absolute dynamic topography (ADT) data to obtain daily maps of th...

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Main Author: Chapman, Christopher C.
Format: Other/Unknown Material
Language:unknown
Published: Zenodo 2017
Subjects:
Modern Period (1995)
Modern Period (1996)
Modern Period (1997)
Modern Period (1998)
Modern Period (2000)
Modern Period (2011)
Modern Period (2001)
Modern Period (2012)
Modern Period (1993)
Modern Period (1994)
Modern Period (1999)
Oceanographic data
Modern Period (2005)
Modern Period (2002)
Modern Period (2013)
Modern Period (2003)
Modern period (2004)
Modern Period (2014)
Modern Period (2008)
Modern Period (2009)
Modern Period (2006)
Modern Period (2007)
Southern Ocean
Online Access:https://doi.org/10.5061/dryad.q9k8r
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author Chapman, Christopher C.
author_facet Chapman, Christopher C.
author_sort Chapman, Christopher C.
collection Zenodo
description The frontal structure of the Southern Ocean is investigated using the Wavelet/Higher Order Statistics Enhancement (WHOSE) frontal detection method, introduced in Chapman (2014). This methodology is applied to 21 years of daily gridded absolute dynamic topography (ADT) data to obtain daily maps of the locations of the fronts. By forming frontal occurrence frequency maps and then approximating these occurrence-maps by a superposition of simple functions, the time-mean locations of the fronts, as well as a measure of their capacity to meander, are obtained and related to the frontal locations found by previous studies. The spatial and temporal variability of the frontal structure is then considered. The number of fronts is found to be highly variable throughout the Southern Ocean, increasing ('splitting') downstream of large bathymetric features and decreasing ('merging') in regions where the fronts are tightly controlled by the underlying topography. These splitting/merging events are related to changes in the underlying frontal structure whereby regions of high frontal occurrence cross or spread over streamfunction contours. In contrast to the number of fronts, frontal meandering remains relatively constant throughout the Southern Ocean. Little to no migration of the fronts over the 1993-2014 time period is found, and there is only weak sensitivity of frontal positions to atmospheric forcing related to the Southern Annular Mode or the El Niño Southern Oscillation. Finally, the implications of these results for the study of cross-stream tracer transport is discussed. ssh_front_climatology_1993 Southern Ocean front locations obtained from AVISO gridded SSH using the WHOSE method. ssh_front_locations_1993.nc ssh_front_locations_1994 Southern Ocean front locations obtained from AVISO gridded SSH using the WHOSE method. SSH front locations 1995 Southern Ocean front locations obtained from AVISO gridded SSH using the WHOSE method. ssh_front_locations_1995.nc SSH front locations 1996 Southern Ocean front locations ...
format Other/Unknown Material
genre Southern Ocean
genre_facet Southern Ocean
geographic Southern Ocean
geographic_facet Southern Ocean
id ftzenodo:oai:zenodo.org:4964277
institution Open Polar
language unknown
op_collection_id ftzenodo
op_doi https://doi.org/10.5061/dryad.q9k8r10.1175/JPO-D-16-0222.1
op_relation https://doi.org/10.1175/JPO-D-16-0222.1
https://zenodo.org/communities/dryad
https://doi.org/10.5061/dryad.q9k8r
oai:zenodo.org:4964277
op_rights info:eu-repo/semantics/openAccess
Creative Commons Zero v1.0 Universal
https://creativecommons.org/publicdomain/zero/1.0/legalcode
publishDate 2017
publisher Zenodo
record_format openpolar
spelling ftzenodo:oai:zenodo.org:4964277 2025-01-17T00:54:02+00:00 Data from: New perspectives on frontal variability in the southern ocean Chapman, Christopher C. 2017-04-21 https://doi.org/10.5061/dryad.q9k8r unknown Zenodo https://doi.org/10.1175/JPO-D-16-0222.1 https://zenodo.org/communities/dryad https://doi.org/10.5061/dryad.q9k8r oai:zenodo.org:4964277 info:eu-repo/semantics/openAccess Creative Commons Zero v1.0 Universal https://creativecommons.org/publicdomain/zero/1.0/legalcode Modern Period (1995) Modern Period (1996) Modern Period (1997) Modern Period (1998) Modern Period (2000) Modern Period (2011) Modern Period (2001) Modern Period (2012) Modern Period (1993) Modern Period (1994) Modern Period (1999) Oceanographic data Modern Period (2005) Modern Period (2002) Modern Period (2013) Modern Period (2003) Modern period (2004) Modern Period (2014) Modern Period (2008) Modern Period (2009) Modern Period (2006) Modern Period (2007) info:eu-repo/semantics/other 2017 ftzenodo https://doi.org/10.5061/dryad.q9k8r10.1175/JPO-D-16-0222.1 2024-07-25T17:46:08Z The frontal structure of the Southern Ocean is investigated using the Wavelet/Higher Order Statistics Enhancement (WHOSE) frontal detection method, introduced in Chapman (2014). This methodology is applied to 21 years of daily gridded absolute dynamic topography (ADT) data to obtain daily maps of the locations of the fronts. By forming frontal occurrence frequency maps and then approximating these occurrence-maps by a superposition of simple functions, the time-mean locations of the fronts, as well as a measure of their capacity to meander, are obtained and related to the frontal locations found by previous studies. The spatial and temporal variability of the frontal structure is then considered. The number of fronts is found to be highly variable throughout the Southern Ocean, increasing ('splitting') downstream of large bathymetric features and decreasing ('merging') in regions where the fronts are tightly controlled by the underlying topography. These splitting/merging events are related to changes in the underlying frontal structure whereby regions of high frontal occurrence cross or spread over streamfunction contours. In contrast to the number of fronts, frontal meandering remains relatively constant throughout the Southern Ocean. Little to no migration of the fronts over the 1993-2014 time period is found, and there is only weak sensitivity of frontal positions to atmospheric forcing related to the Southern Annular Mode or the El Niño Southern Oscillation. Finally, the implications of these results for the study of cross-stream tracer transport is discussed. ssh_front_climatology_1993 Southern Ocean front locations obtained from AVISO gridded SSH using the WHOSE method. ssh_front_locations_1993.nc ssh_front_locations_1994 Southern Ocean front locations obtained from AVISO gridded SSH using the WHOSE method. SSH front locations 1995 Southern Ocean front locations obtained from AVISO gridded SSH using the WHOSE method. ssh_front_locations_1995.nc SSH front locations 1996 Southern Ocean front locations ... Other/Unknown Material Southern Ocean Zenodo Southern Ocean
spellingShingle Modern Period (1995)
Modern Period (1996)
Modern Period (1997)
Modern Period (1998)
Modern Period (2000)
Modern Period (2011)
Modern Period (2001)
Modern Period (2012)
Modern Period (1993)
Modern Period (1994)
Modern Period (1999)
Oceanographic data
Modern Period (2005)
Modern Period (2002)
Modern Period (2013)
Modern Period (2003)
Modern period (2004)
Modern Period (2014)
Modern Period (2008)
Modern Period (2009)
Modern Period (2006)
Modern Period (2007)
Chapman, Christopher C.
Data from: New perspectives on frontal variability in the southern ocean
title Data from: New perspectives on frontal variability in the southern ocean
title_full Data from: New perspectives on frontal variability in the southern ocean
title_fullStr Data from: New perspectives on frontal variability in the southern ocean
title_full_unstemmed Data from: New perspectives on frontal variability in the southern ocean
title_short Data from: New perspectives on frontal variability in the southern ocean
title_sort data from: new perspectives on frontal variability in the southern ocean
topic Modern Period (1995)
Modern Period (1996)
Modern Period (1997)
Modern Period (1998)
Modern Period (2000)
Modern Period (2011)
Modern Period (2001)
Modern Period (2012)
Modern Period (1993)
Modern Period (1994)
Modern Period (1999)
Oceanographic data
Modern Period (2005)
Modern Period (2002)
Modern Period (2013)
Modern Period (2003)
Modern period (2004)
Modern Period (2014)
Modern Period (2008)
Modern Period (2009)
Modern Period (2006)
Modern Period (2007)
topic_facet Modern Period (1995)
Modern Period (1996)
Modern Period (1997)
Modern Period (1998)
Modern Period (2000)
Modern Period (2011)
Modern Period (2001)
Modern Period (2012)
Modern Period (1993)
Modern Period (1994)
Modern Period (1999)
Oceanographic data
Modern Period (2005)
Modern Period (2002)
Modern Period (2013)
Modern Period (2003)
Modern period (2004)
Modern Period (2014)
Modern Period (2008)
Modern Period (2009)
Modern Period (2006)
Modern Period (2007)
url https://doi.org/10.5061/dryad.q9k8r

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