Arctic Ocean Sea Level Record from the Complete Radar Altimetry Era: 1991–2018

Arctic Ocean Sea Level Record from the Complete Radar Altimetry Era: 1991–2018

In recent years, there has been a large focus on the Arctic due to the rapid changes of the region. Arctic sea level determination is challenging due to the seasonal to permanent sea-ice cover, lack of regional coverage of satellites, satellite instruments ability to measure ice, insufficient geophy...

Full description

Bibliographic Details
Main Authors: Stine Kildegaard Rose, Ole Baltazar Andersen, Marcello Passaro, Carsten Ankjær Ludwigsen, Christian Schwatke
Format: Article
Language:English
Published: MDPI AG 2019-07-01
Series:Remote Sensing
Subjects:
radar altimetry
satellite altimetry
arctic ocean
remote sensing of the oceans
sea level rise
polar area
Online Access:https://www.mdpi.com/2072-4292/11/14/1672
id doaj-41a115004ca1471c8a2fcea11c2e80bb
record_format Article
spelling doaj-41a115004ca1471c8a2fcea11c2e80bb2020-11-24T21:24:23ZengMDPI AGRemote Sensing2072-42922019-07-011114167210.3390/rs11141672rs11141672Arctic Ocean Sea Level Record from the Complete Radar Altimetry Era: 1991–2018Stine Kildegaard Rose0Ole Baltazar Andersen1Marcello Passaro2Carsten Ankjær Ludwigsen3Christian Schwatke4Technical University of Denmark—National Space Institute (DTU Space), 2800 Kgs. Lyngby, DenmarkTechnical University of Denmark—National Space Institute (DTU Space), 2800 Kgs. Lyngby, DenmarkDeutsches Geodätisches Forschungsinstitut der Technischen Universität München (DGFI-TUM), 80333 Munich, GermanyTechnical University of Denmark—National Space Institute (DTU Space), 2800 Kgs. Lyngby, DenmarkDeutsches Geodätisches Forschungsinstitut der Technischen Universität München (DGFI-TUM), 80333 Munich, GermanyIn recent years, there has been a large focus on the Arctic due to the rapid changes of the region. Arctic sea level determination is challenging due to the seasonal to permanent sea-ice cover, lack of regional coverage of satellites, satellite instruments ability to measure ice, insufficient geophysical models, residual orbit errors, challenging retracking of satellite altimeter data. We present the European Space Agency (ESA) Climate Change Initiative (CCI) Technical University of Denmark (DTU)/Technischen Universität München (TUM) sea level anomaly (SLA) record based on radar satellite altimetry data in the Arctic Ocean from the European Remote Sensing satellite number 1 (ERS-1) (1991) to CryoSat-2 (2018). We use updated geophysical corrections and a combination of altimeter data: Reprocessing of Altimeter Product for ERS (REAPER) (ERS-1), ALES+ retracker (ERS-2, Envisat), combination of Radar Altimetry Database System (RADS) and DTUs in-house retracker LARS (CryoSat-2). Furthermore, this study focuses on the transition between conventional and Synthetic Aperture Radar (SAR) altimeter data to make a smooth time series regarding the measurement method. We find a sea level rise of 1.54 mm/year from September 1991 to September 2018 with a 95% confidence interval from 1.16 to 1.81 mm/year. ERS-1 data is troublesome and when ignoring this satellite the SLA trend becomes 2.22 mm/year with a 95% confidence interval within 1.67−2.54 mm/year. Evaluating the SLA trends in 5 year intervals show a clear steepening of the SLA trend around 2004. The sea level anomaly record is validated against tide gauges and show good results. Additionally, the time series is split and evaluated in space and time.https://www.mdpi.com/2072-4292/11/14/1672radar altimetrysatellite altimetryarctic oceanremote sensing of the oceanssea level risepolar area
collection DOAJ
language English
format Article
sources DOAJ
author Stine Kildegaard Rose
Ole Baltazar Andersen
Marcello Passaro
Carsten Ankjær Ludwigsen
Christian Schwatke
spellingShingle Stine Kildegaard Rose
Ole Baltazar Andersen
Marcello Passaro
Carsten Ankjær Ludwigsen
Christian Schwatke
Arctic Ocean Sea Level Record from the Complete Radar Altimetry Era: 1991–2018
Remote Sensing
radar altimetry
satellite altimetry
arctic ocean
remote sensing of the oceans
sea level rise
polar area
author_facet Stine Kildegaard Rose
Ole Baltazar Andersen
Marcello Passaro
Carsten Ankjær Ludwigsen
Christian Schwatke
author_sort Stine Kildegaard Rose
title Arctic Ocean Sea Level Record from the Complete Radar Altimetry Era: 1991–2018
title_short Arctic Ocean Sea Level Record from the Complete Radar Altimetry Era: 1991–2018
title_full Arctic Ocean Sea Level Record from the Complete Radar Altimetry Era: 1991–2018
title_fullStr Arctic Ocean Sea Level Record from the Complete Radar Altimetry Era: 1991–2018
title_full_unstemmed Arctic Ocean Sea Level Record from the Complete Radar Altimetry Era: 1991–2018
title_sort arctic ocean sea level record from the complete radar altimetry era: 1991–2018
publisher MDPI AG
series Remote Sensing
issn 2072-4292
publishDate 2019-07-01
description In recent years, there has been a large focus on the Arctic due to the rapid changes of the region. Arctic sea level determination is challenging due to the seasonal to permanent sea-ice cover, lack of regional coverage of satellites, satellite instruments ability to measure ice, insufficient geophysical models, residual orbit errors, challenging retracking of satellite altimeter data. We present the European Space Agency (ESA) Climate Change Initiative (CCI) Technical University of Denmark (DTU)/Technischen Universität München (TUM) sea level anomaly (SLA) record based on radar satellite altimetry data in the Arctic Ocean from the European Remote Sensing satellite number 1 (ERS-1) (1991) to CryoSat-2 (2018). We use updated geophysical corrections and a combination of altimeter data: Reprocessing of Altimeter Product for ERS (REAPER) (ERS-1), ALES+ retracker (ERS-2, Envisat), combination of Radar Altimetry Database System (RADS) and DTUs in-house retracker LARS (CryoSat-2). Furthermore, this study focuses on the transition between conventional and Synthetic Aperture Radar (SAR) altimeter data to make a smooth time series regarding the measurement method. We find a sea level rise of 1.54 mm/year from September 1991 to September 2018 with a 95% confidence interval from 1.16 to 1.81 mm/year. ERS-1 data is troublesome and when ignoring this satellite the SLA trend becomes 2.22 mm/year with a 95% confidence interval within 1.67−2.54 mm/year. Evaluating the SLA trends in 5 year intervals show a clear steepening of the SLA trend around 2004. The sea level anomaly record is validated against tide gauges and show good results. Additionally, the time series is split and evaluated in space and time.
topic radar altimetry
satellite altimetry
arctic ocean
remote sensing of the oceans
sea level rise
polar area
url https://www.mdpi.com/2072-4292/11/14/1672
work_keys_str_mv AT stinekildegaardrose arcticoceansealevelrecordfromthecompleteradaraltimetryera19912018
AT olebaltazarandersen arcticoceansealevelrecordfromthecompleteradaraltimetryera19912018
AT marcellopassaro arcticoceansealevelrecordfromthecompleteradaraltimetryera19912018
AT carstenankjærludwigsen arcticoceansealevelrecordfromthecompleteradaraltimetryera19912018
AT christianschwatke arcticoceansealevelrecordfromthecompleteradaraltimetryera19912018
_version_ 1725988648756707328

Similar Items