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A new phase in the production of quality-controlled sea level data

A new phase in the production of quality-controlled sea level data
A new phase in the production of quality-controlled sea level data
Sea level is an essential climate variable (ECV) that has a direct effect on many people through inundations of coastal areas, and it is also a clear indicator of climate changes due to external forcing factors and internal climate variability. Regional patterns of sea level change inform us on ocean circulation variations in response to natural climate modes such as El Niño and the Pacific Decadal Oscillation, and anthropogenic forcing. Comparing numerical climate models to a consistent set of observations enables us to assess the performance of these models and help us to understand and predict these phenomena, and thereby alleviate some of the environmental conditions associated with them. All such studies rely on the existence of long-term consistent high-accuracy datasets of sea level. The Climate Change Initiative (CCI) of the European Space Agency was established in 2010 to provide improved time series of some ECVs, including sea level, with the purpose of providing such data openly to all to enable the widest possible utilisation of such data. Now in its second phase, the Sea Level CCI project (SL_cci) merges data from nine different altimeter missions in a clear, consistent and well-documented manner, selecting the most appropriate satellite orbits and geophysical corrections in order to further reduce the error budget. This paper summarises the corrections required, the provenance of corrections and the evaluation of options that have been adopted for the recently released v2.0 dataset (https://doi.org/10.5270/esa-sea_level_cci-1993_2015-v_2.0-201612). This information enables scientists and other users to clearly understand which corrections have been applied and their effects on the sea level dataset. The overall result of these changes is that the rate of rise of global mean sea level (GMSL) still equates to ∼ 3.2 mm yr−1 during 1992–2015, but there is now greater confidence in this result as the errors associated with several of the corrections have been reduced. Compared with v1.1 of the SL_cci dataset, the new rate of change is 0.2 mm yr−1 less during 1993 to 2001 and 0.2 mm yr−1 higher during 2002 to 2014. Application of new correction models brought a reduction of altimeter crossover variances for most corrections.
1866-3516
557-572
Quartly, Graham D.
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Legeais, Jean-françois
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Ablain, Michaël
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Zawadzki, Lionel
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Fernandes, M. Joana
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Rudenko, Sergei
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Carrère, Loren
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García, Pablo Nilo
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Cipollini, Paolo
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Andersen, Ole B.
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Poisson, Jean-christophe
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Mbajon Njiche, Sabrina
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Cazenave, Anny
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Benveniste, Jérôme
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Quartly, Graham D.
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Legeais, Jean-françois
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Ablain, Michaël
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Zawadzki, Lionel
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Fernandes, M. Joana
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Rudenko, Sergei
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Carrère, Loren
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García, Pablo Nilo
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Cipollini, Paolo
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Andersen, Ole B.
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Poisson, Jean-christophe
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Mbajon Njiche, Sabrina
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Cazenave, Anny
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Benveniste, Jérôme
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Quartly, Graham D., Legeais, Jean-françois, Ablain, Michaël, Zawadzki, Lionel, Fernandes, M. Joana, Rudenko, Sergei, Carrère, Loren, García, Pablo Nilo, Cipollini, Paolo, Andersen, Ole B., Poisson, Jean-christophe, Mbajon Njiche, Sabrina, Cazenave, Anny and Benveniste, Jérôme (2017) A new phase in the production of quality-controlled sea level data. Earth System Science Data, 9 (2), 557-572. (doi:10.5194/essd-9-557-2017).

Record type: Article

Abstract

Sea level is an essential climate variable (ECV) that has a direct effect on many people through inundations of coastal areas, and it is also a clear indicator of climate changes due to external forcing factors and internal climate variability. Regional patterns of sea level change inform us on ocean circulation variations in response to natural climate modes such as El Niño and the Pacific Decadal Oscillation, and anthropogenic forcing. Comparing numerical climate models to a consistent set of observations enables us to assess the performance of these models and help us to understand and predict these phenomena, and thereby alleviate some of the environmental conditions associated with them. All such studies rely on the existence of long-term consistent high-accuracy datasets of sea level. The Climate Change Initiative (CCI) of the European Space Agency was established in 2010 to provide improved time series of some ECVs, including sea level, with the purpose of providing such data openly to all to enable the widest possible utilisation of such data. Now in its second phase, the Sea Level CCI project (SL_cci) merges data from nine different altimeter missions in a clear, consistent and well-documented manner, selecting the most appropriate satellite orbits and geophysical corrections in order to further reduce the error budget. This paper summarises the corrections required, the provenance of corrections and the evaluation of options that have been adopted for the recently released v2.0 dataset (https://doi.org/10.5270/esa-sea_level_cci-1993_2015-v_2.0-201612). This information enables scientists and other users to clearly understand which corrections have been applied and their effects on the sea level dataset. The overall result of these changes is that the rate of rise of global mean sea level (GMSL) still equates to ∼ 3.2 mm yr−1 during 1992–2015, but there is now greater confidence in this result as the errors associated with several of the corrections have been reduced. Compared with v1.1 of the SL_cci dataset, the new rate of change is 0.2 mm yr−1 less during 1993 to 2001 and 0.2 mm yr−1 higher during 2002 to 2014. Application of new correction models brought a reduction of altimeter crossover variances for most corrections.

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Accepted/In Press date: 14 July 2017
e-pub ahead of print date: 14 August 2017

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Local EPrints ID: 414074
URI: http://eprints.soton.ac.uk/id/eprint/414074
ISSN: 1866-3516
PURE UUID: e4c17c8b-98bc-4392-9277-f9a84c3dc21c

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Date deposited: 14 Sep 2017 16:31
Last modified: 15 Mar 2024 16:00

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Contributors

Author: Graham D. Quartly
Author: Jean-françois Legeais
Author: Michaël Ablain
Author: Lionel Zawadzki
Author: M. Joana Fernandes
Author: Sergei Rudenko
Author: Loren Carrère
Author: Pablo Nilo García
Author: Paolo Cipollini
Author: Ole B. Andersen
Author: Jean-christophe Poisson
Author: Sabrina Mbajon Njiche
Author: Anny Cazenave
Author: Jérôme Benveniste

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