SKIM, a Candidate Satellite Mission Exploring Global Ocean Currents and Waves

The Sea surface KInematics Multiscale monitoring (SKIM) satellite mission is designed to explore ocean surface current and waves. This includes tropical currents, notably the poorly known patterns of divergence and their impact on the ocean heat budget, and monitoring of the emerging Arctic up to 82...

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Main Authors: Fabrice Ardhuin, Peter Brandt, Lucile Gaultier, Craig Donlon, Alessandro Battaglia, Francois Boy, Tania Casal, Bertrand Chapron, Fabrice Collard, Sophie Cravatte, Jean-Marc Delouis, Erik De Witte, Gerald Dibarboure, Geir Engen, Harald Johnsen, Camille Lique, Paco Lopez-Dekker, Christophe Maes, Adrien Martin, Louis Marie, Dimitris Menemenlis, Frederic Nouguier, Charles Peureux, Pierre Rampal, Gerhard Ressler, Marie-Helene Rio, Bjorn Rommen, Jamie D Shutler, Martin Suess, Michel Tsamados, Clement Ubelmann, Erik van Sebille, Martin van den Oever, Detlef Stammer
Format: Article in Journal/Newspaper
Language:unknown
Published: 2019
Subjects:
Science & Technology
Life Sciences & Biomedicine
Environmental Sciences
Marine & Freshwater Biology
Environmental Sciences & Ecology
ocean current
tropics
Arctic
Doppler
altimetry
sea state
remote sensing
ocean waves
SEA-SURFACE KINEMATICS
MIXED-LAYER HEAT
IN-SITU
CIRCULATION
SPACE
WATER
TOPOGRAPHY
TRANSPORT
VELOCITY
BUDGET
Antarc*
Antarctic
Sea ice
Online Access:https://figshare.com/articles/journal_contribution/SKIM_a_Candidate_Satellite_Mission_Exploring_Global_Ocean_Currents_and_Waves/13470042
id ftleicesterunfig:oai:figshare.com:article/13470042
record_format openpolar
spelling ftleicesterunfig:oai:figshare.com:article/13470042 2024-09-15T17:45:20+00:00 SKIM, a Candidate Satellite Mission Exploring Global Ocean Currents and Waves Fabrice Ardhuin Peter Brandt Lucile Gaultier Craig Donlon Alessandro Battaglia Francois Boy Tania Casal Bertrand Chapron Fabrice Collard Sophie Cravatte Jean-Marc Delouis Erik De Witte Gerald Dibarboure Geir Engen Harald Johnsen Camille Lique Paco Lopez-Dekker Christophe Maes Adrien Martin Louis Marie Dimitris Menemenlis Frederic Nouguier Charles Peureux Pierre Rampal Gerhard Ressler Marie-Helene Rio Bjorn Rommen Jamie D Shutler Martin Suess Michel Tsamados Clement Ubelmann Erik van Sebille Martin van den Oever Detlef Stammer 2019-04-30T00:00:00Z https://figshare.com/articles/journal_contribution/SKIM_a_Candidate_Satellite_Mission_Exploring_Global_Ocean_Currents_and_Waves/13470042 unknown 2381/13470042.v1 https://figshare.com/articles/journal_contribution/SKIM_a_Candidate_Satellite_Mission_Exploring_Global_Ocean_Currents_and_Waves/13470042 CC BY 4.0 Science & Technology Life Sciences & Biomedicine Environmental Sciences Marine & Freshwater Biology Environmental Sciences & Ecology ocean current tropics Arctic Doppler altimetry sea state remote sensing ocean waves SEA-SURFACE KINEMATICS MIXED-LAYER HEAT IN-SITU CIRCULATION SPACE WATER TOPOGRAPHY TRANSPORT VELOCITY BUDGET Text Journal contribution 2019 ftleicesterunfig 2024-07-22T04:15:17Z The Sea surface KInematics Multiscale monitoring (SKIM) satellite mission is designed to explore ocean surface current and waves. This includes tropical currents, notably the poorly known patterns of divergence and their impact on the ocean heat budget, and monitoring of the emerging Arctic up to 82.5°N. SKIM will also make unprecedented direct measurements of strong currents, from boundary currents to the Antarctic circumpolar current, and their interaction with ocean waves with expected impacts on air-sea fluxes and extreme waves. For the first time, SKIM will directly measure the ocean surface current vector from space. The main instrument on SKIM is a Ka-band conically scanning, multi-beam Doppler radar altimeter/wave scatterometer that includes a state-of-the-art nadir beam comparable to the Poseidon-4 instrument on Sentinel 6. The well proven Doppler pulse-pair technique will give a surface drift velocity representative of the top meter of the ocean, after subtracting a large wave-induced contribution. Horizontal velocity components will be obtained with an accuracy better than 7 cm/s for horizontal wavelengths larger than 80 km and time resolutions larger than 15 days, with a mean revisit time of 4 days for of 99% of the global oceans. This will provide unique and innovative measurements that will further our understanding of the transports in the upper ocean layer, permanently distributing heat, carbon, plankton, and plastics. SKIM will also benefit from co-located measurements of water vapor, rain rate, sea ice concentration, and wind vectors provided by the European operational satellite MetOp-SG(B), allowing many joint analyses. SKIM is one of the two candidate satellite missions under development for ESA Earth Explorer 9. The other candidate is the Far infrared Radiation Understanding and Monitoring (FORUM). The final selection will be announced by September 2019, for a launch in the coming decade. Article in Journal/Newspaper Antarc* Antarctic Sea ice University of Leicester: Figshare
institution Open Polar
collection University of Leicester: Figshare
op_collection_id ftleicesterunfig
language unknown
topic Science & Technology
Life Sciences & Biomedicine
Environmental Sciences
Marine & Freshwater Biology
Environmental Sciences & Ecology
ocean current
tropics
Arctic
Doppler
altimetry
sea state
remote sensing
ocean waves
SEA-SURFACE KINEMATICS
MIXED-LAYER HEAT
IN-SITU
CIRCULATION
SPACE
WATER
TOPOGRAPHY
TRANSPORT
VELOCITY
BUDGET
spellingShingle Science & Technology
Life Sciences & Biomedicine
Environmental Sciences
Marine & Freshwater Biology
Environmental Sciences & Ecology
ocean current
tropics
Arctic
Doppler
altimetry
sea state
remote sensing
ocean waves
SEA-SURFACE KINEMATICS
MIXED-LAYER HEAT
IN-SITU
CIRCULATION
SPACE
WATER
TOPOGRAPHY
TRANSPORT
VELOCITY
BUDGET
Fabrice Ardhuin
Peter Brandt
Lucile Gaultier
Craig Donlon
Alessandro Battaglia
Francois Boy
Tania Casal
Bertrand Chapron
Fabrice Collard
Sophie Cravatte
Jean-Marc Delouis
Erik De Witte
Gerald Dibarboure
Geir Engen
Harald Johnsen
Camille Lique
Paco Lopez-Dekker
Christophe Maes
Adrien Martin
Louis Marie
Dimitris Menemenlis
Frederic Nouguier
Charles Peureux
Pierre Rampal
Gerhard Ressler
Marie-Helene Rio
Bjorn Rommen
Jamie D Shutler
Martin Suess
Michel Tsamados
Clement Ubelmann
Erik van Sebille
Martin van den Oever
Detlef Stammer
SKIM, a Candidate Satellite Mission Exploring Global Ocean Currents and Waves
topic_facet Science & Technology
Life Sciences & Biomedicine
Environmental Sciences
Marine & Freshwater Biology
Environmental Sciences & Ecology
ocean current
tropics
Arctic
Doppler
altimetry
sea state
remote sensing
ocean waves
SEA-SURFACE KINEMATICS
MIXED-LAYER HEAT
IN-SITU
CIRCULATION
SPACE
WATER
TOPOGRAPHY
TRANSPORT
VELOCITY
BUDGET
description The Sea surface KInematics Multiscale monitoring (SKIM) satellite mission is designed to explore ocean surface current and waves. This includes tropical currents, notably the poorly known patterns of divergence and their impact on the ocean heat budget, and monitoring of the emerging Arctic up to 82.5°N. SKIM will also make unprecedented direct measurements of strong currents, from boundary currents to the Antarctic circumpolar current, and their interaction with ocean waves with expected impacts on air-sea fluxes and extreme waves. For the first time, SKIM will directly measure the ocean surface current vector from space. The main instrument on SKIM is a Ka-band conically scanning, multi-beam Doppler radar altimeter/wave scatterometer that includes a state-of-the-art nadir beam comparable to the Poseidon-4 instrument on Sentinel 6. The well proven Doppler pulse-pair technique will give a surface drift velocity representative of the top meter of the ocean, after subtracting a large wave-induced contribution. Horizontal velocity components will be obtained with an accuracy better than 7 cm/s for horizontal wavelengths larger than 80 km and time resolutions larger than 15 days, with a mean revisit time of 4 days for of 99% of the global oceans. This will provide unique and innovative measurements that will further our understanding of the transports in the upper ocean layer, permanently distributing heat, carbon, plankton, and plastics. SKIM will also benefit from co-located measurements of water vapor, rain rate, sea ice concentration, and wind vectors provided by the European operational satellite MetOp-SG(B), allowing many joint analyses. SKIM is one of the two candidate satellite missions under development for ESA Earth Explorer 9. The other candidate is the Far infrared Radiation Understanding and Monitoring (FORUM). The final selection will be announced by September 2019, for a launch in the coming decade.
format Article in Journal/Newspaper
author Fabrice Ardhuin
Peter Brandt
Lucile Gaultier
Craig Donlon
Alessandro Battaglia
Francois Boy
Tania Casal
Bertrand Chapron
Fabrice Collard
Sophie Cravatte
Jean-Marc Delouis
Erik De Witte
Gerald Dibarboure
Geir Engen
Harald Johnsen
Camille Lique
Paco Lopez-Dekker
Christophe Maes
Adrien Martin
Louis Marie
Dimitris Menemenlis
Frederic Nouguier
Charles Peureux
Pierre Rampal
Gerhard Ressler
Marie-Helene Rio
Bjorn Rommen
Jamie D Shutler
Martin Suess
Michel Tsamados
Clement Ubelmann
Erik van Sebille
Martin van den Oever
Detlef Stammer
author_facet Fabrice Ardhuin
Peter Brandt
Lucile Gaultier
Craig Donlon
Alessandro Battaglia
Francois Boy
Tania Casal
Bertrand Chapron
Fabrice Collard
Sophie Cravatte
Jean-Marc Delouis
Erik De Witte
Gerald Dibarboure
Geir Engen
Harald Johnsen
Camille Lique
Paco Lopez-Dekker
Christophe Maes
Adrien Martin
Louis Marie
Dimitris Menemenlis
Frederic Nouguier
Charles Peureux
Pierre Rampal
Gerhard Ressler
Marie-Helene Rio
Bjorn Rommen
Jamie D Shutler
Martin Suess
Michel Tsamados
Clement Ubelmann
Erik van Sebille
Martin van den Oever
Detlef Stammer
author_sort Fabrice Ardhuin
title SKIM, a Candidate Satellite Mission Exploring Global Ocean Currents and Waves
title_short SKIM, a Candidate Satellite Mission Exploring Global Ocean Currents and Waves
title_full SKIM, a Candidate Satellite Mission Exploring Global Ocean Currents and Waves
title_fullStr SKIM, a Candidate Satellite Mission Exploring Global Ocean Currents and Waves
title_full_unstemmed SKIM, a Candidate Satellite Mission Exploring Global Ocean Currents and Waves
title_sort skim, a candidate satellite mission exploring global ocean currents and waves
publishDate 2019
url https://figshare.com/articles/journal_contribution/SKIM_a_Candidate_Satellite_Mission_Exploring_Global_Ocean_Currents_and_Waves/13470042
genre Antarc*
Antarctic
Sea ice
genre_facet Antarc*
Antarctic
Sea ice
op_relation 2381/13470042.v1
https://figshare.com/articles/journal_contribution/SKIM_a_Candidate_Satellite_Mission_Exploring_Global_Ocean_Currents_and_Waves/13470042
op_rights CC BY 4.0
_version_ 1810493118572658688

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