Cross-calibrating ALES Envisat and CryoSat-2 Delay-Doppler: a coastal altimetry study in the Indonesian Seas
Cross-calibrating ALES Envisat and CryoSat-2 Delay-Doppler: a coastal altimetry study in the Indonesian Seas
A regional cross-calibration between the first Delay-Doppler altimetry dataset from Cryosat-2 and a retracked Envisat dataset is here presented, in order to test the benefits of the Delay-Doppler processing and to expand the Envisat time series in the coastal ocean. The Indonesian Seas are chosen for the calibration, since the availability of altimetry data in this region is particularly beneficial due to the lack of in-situ measurements and its importance for global ocean circulation. The Envisat data in the region are retracked with the Adaptive Leading Edge Subwaveform (ALES) Retracker, which has been previously validated and applied successfully to coastal sea level research.
The study demonstrates that CryoSat-2 is able to decrease the 1-Hz noise of sea level estimations by 0.3 cm within 50 km of the coast, when compared to the ALES-reprocessed Envisat dataset. It also shows that Envisat can be confidently used for detailed oceanographic research after the orbit change of October 2010. Cross-calibration at the crossover points indicates that in the region of study a sea state bias correction equal to 5% of the significant wave height is an acceptable approximation for Delay-Doppler altimetry.
The analysis of the joint sea level time series reveals the geographic extent of the semiannual signal caused by Kelvin waves during the monsoon transitions, the larger amplitudes of the annual signal due to the Java Coastal Current and the impact of the strong La Niña event of 2010 on rising sea level trends.
Coastal Altimetry, ALES, SAR altimetry, Indonesia, Sea state bias, CryoSat-2, Envisat, SARvatore, Sea level
289-303
Passaro, Marcello
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Dinardo, Salvatore
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Quartly, Graham D.
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Snaith, Helen M.
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Benveniste, Jerome
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Cipollini, Paolo
276e356a-f29e-4192-98b3-9340b491dab8
Lucas, Bruno
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1 August 2016
Passaro, Marcello
08b0a0ca-17a8-453e-b466-a1c37076f45f
Dinardo, Salvatore
9c660640-d7ce-4249-a1a1-0e4c707a568b
Quartly, Graham D.
3d1e4e87-f001-4d18-b95f-9bca4db6ff9d
Snaith, Helen M.
40f759ed-8c90-4d76-8e9c-7d7a4c264adf
Benveniste, Jerome
98396154-1ed4-4eac-9e87-e45612dd3351
Cipollini, Paolo
276e356a-f29e-4192-98b3-9340b491dab8
Lucas, Bruno
3cc4f247-3f37-47e0-b265-521b16b38b9b
Passaro, Marcello, Dinardo, Salvatore, Quartly, Graham D., Snaith, Helen M., Benveniste, Jerome, Cipollini, Paolo and Lucas, Bruno
(2016)
Cross-calibrating ALES Envisat and CryoSat-2 Delay-Doppler: a coastal altimetry study in the Indonesian Seas.
Advances in Space Research, 58 (3), .
(doi:10.1016/j.asr.2016.04.011).
Abstract
A regional cross-calibration between the first Delay-Doppler altimetry dataset from Cryosat-2 and a retracked Envisat dataset is here presented, in order to test the benefits of the Delay-Doppler processing and to expand the Envisat time series in the coastal ocean. The Indonesian Seas are chosen for the calibration, since the availability of altimetry data in this region is particularly beneficial due to the lack of in-situ measurements and its importance for global ocean circulation. The Envisat data in the region are retracked with the Adaptive Leading Edge Subwaveform (ALES) Retracker, which has been previously validated and applied successfully to coastal sea level research.
The study demonstrates that CryoSat-2 is able to decrease the 1-Hz noise of sea level estimations by 0.3 cm within 50 km of the coast, when compared to the ALES-reprocessed Envisat dataset. It also shows that Envisat can be confidently used for detailed oceanographic research after the orbit change of October 2010. Cross-calibration at the crossover points indicates that in the region of study a sea state bias correction equal to 5% of the significant wave height is an acceptable approximation for Delay-Doppler altimetry.
The analysis of the joint sea level time series reveals the geographic extent of the semiannual signal caused by Kelvin waves during the monsoon transitions, the larger amplitudes of the annual signal due to the Java Coastal Current and the impact of the strong La Niña event of 2010 on rising sea level trends.
Text
ASR-D-15-00780R2.pdf
- Accepted Manuscript
More information
Accepted/In Press date: April 2016
Published date: 1 August 2016
Keywords:
Coastal Altimetry, ALES, SAR altimetry, Indonesia, Sea state bias, CryoSat-2, Envisat, SARvatore, Sea level
Organisations:
Physical Oceanography, National Oceanography Centre, Marine Physics and Ocean Climate
Identifiers
Local EPrints ID: 393222
URI: http://eprints.soton.ac.uk/id/eprint/393222
ISSN: 0273-1177
PURE UUID: 99c973da-73c1-4fe3-9f33-3c4581136830
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Date deposited: 21 Apr 2016 15:26
Last modified: 15 Mar 2024 05:31
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Contributors
Author:
Marcello Passaro
Author:
Salvatore Dinardo
Author:
Graham D. Quartly
Author:
Helen M. Snaith
Author:
Jerome Benveniste
Author:
Paolo Cipollini
Author:
Bruno Lucas
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