Surface energy, CO2 fluxes and sea ice

OceanObs’09: Sustained Ocean Observations and Information for Society, Venice, Italy, 21-25 September 2009 This paper reviews the current state of observation, parameterization and evaluation of surface air-sea energy and gas fluxes, and sea ice, for the purposes of monitoring and predicting the sta...

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Main Authors: Gulev, SK, Josey, SA, Bourassa, M, Breivik, LA, Cronin, MF, Fairall, C, Gille, S, Kent, EC, Lee, CM, McPhaden, MJ, Monteiro, Pedro MS, Schuster, U, Smith, SR, Trenberth, KE, Wallace, D, Woodruff, SD
Format: Conference Object
Language:English
Published: 2009
Subjects:
Sea ice
Surface energy
Global climate
Air sea systems
Ocean observations
OceanObs 2009
Gas fluxes
Global ocean
Online Access:http://hdl.handle.net/10204/5467
id ftcsir:oai:researchspace.csir.co.za:10204/5467
record_format openpolar
spelling ftcsir:oai:researchspace.csir.co.za:10204/5467 2023-05-15T18:17:31+02:00 Surface energy, CO2 fluxes and sea ice Gulev, SK Josey, SA Bourassa, M Breivik, LA Cronin, MF Fairall, C Gille, S Kent, EC Lee, CM McPhaden, MJ Monteiro, Pedro MS Schuster, U Smith, SR Trenberth, KE Wallace, D Woodruff, SD 2009-09 application/pdf http://hdl.handle.net/10204/5467 en eng Workflow request;7809 Gulev, SK, Josey, SA, Bourassa, M et al. 2009. Surface energy, CO2 fluxes and sea ice. OceanObs’09: Sustained Ocean Observations and Information for Society, Venice, Italy, 21-25 September 2009 http://hdl.handle.net/10204/5467 Sea ice Surface energy Global climate Air sea systems Ocean observations OceanObs 2009 Gas fluxes Global ocean Conference Presentation 2009 ftcsir 2022-05-19T06:14:09Z OceanObs’09: Sustained Ocean Observations and Information for Society, Venice, Italy, 21-25 September 2009 This paper reviews the current state of observation, parameterization and evaluation of surface air-sea energy and gas fluxes, and sea ice, for the purposes of monitoring and predicting the state of the global ocean. The last 10 years have been marked by the development of more accurate parameterizations of turbulent fluxes, in particular COARE-3. A seamless approach to surface flux observing systems is also being developed ranging from highly accurate observations on buoys and research ship campaigns to the longstanding Voluntary Observing Ship (VOS) scheme. In addition to flux products based on in situ data, satellite measurements and numerical weather prediction, several hybrid products have been developed which combine data from these different sources. Satellite monitoring of sea ice has been extended to more accurate and higher resolution estimation of ice extent and quantification of ice thickness. Global air-sea CO2 flux products are now based on significantly better-sampled datasets reducing the uncertainty in the ocean carbon budget. Despite these advances, considerable gaps remain in our understanding of air-sea fluxes, for example, at both high and low wind speeds, for gas and aerosol exchange and in marginal ice zones. Furthermore, there are serious concerns about the recent decline in the number of VOS observations. Closure of global and regional energy balances still cannot be achieved without adjustments to the flux fields and/or the underlying surface meteorological variables. The impact of sampling on interannual variability of fluxes makes estimates of climate tendencies in air-sea exchanges highly uncertain. In order to meet these challenges we formulate a future vision of a surface flux observing system, which provides a synergy of in situ measurements (buoys, research vessels and merchant ships), remote sensing and models. Conference Object Sea ice Council for Scientific and Industrial Research (South Africa): CSIR Research Space
institution Open Polar
collection Council for Scientific and Industrial Research (South Africa): CSIR Research Space
op_collection_id ftcsir
language English
topic Sea ice
Surface energy
Global climate
Air sea systems
Ocean observations
OceanObs 2009
Gas fluxes
Global ocean
spellingShingle Sea ice
Surface energy
Global climate
Air sea systems
Ocean observations
OceanObs 2009
Gas fluxes
Global ocean
Gulev, SK
Josey, SA
Bourassa, M
Breivik, LA
Cronin, MF
Fairall, C
Gille, S
Kent, EC
Lee, CM
McPhaden, MJ
Monteiro, Pedro MS
Schuster, U
Smith, SR
Trenberth, KE
Wallace, D
Woodruff, SD
Surface energy, CO2 fluxes and sea ice
topic_facet Sea ice
Surface energy
Global climate
Air sea systems
Ocean observations
OceanObs 2009
Gas fluxes
Global ocean
description OceanObs’09: Sustained Ocean Observations and Information for Society, Venice, Italy, 21-25 September 2009 This paper reviews the current state of observation, parameterization and evaluation of surface air-sea energy and gas fluxes, and sea ice, for the purposes of monitoring and predicting the state of the global ocean. The last 10 years have been marked by the development of more accurate parameterizations of turbulent fluxes, in particular COARE-3. A seamless approach to surface flux observing systems is also being developed ranging from highly accurate observations on buoys and research ship campaigns to the longstanding Voluntary Observing Ship (VOS) scheme. In addition to flux products based on in situ data, satellite measurements and numerical weather prediction, several hybrid products have been developed which combine data from these different sources. Satellite monitoring of sea ice has been extended to more accurate and higher resolution estimation of ice extent and quantification of ice thickness. Global air-sea CO2 flux products are now based on significantly better-sampled datasets reducing the uncertainty in the ocean carbon budget. Despite these advances, considerable gaps remain in our understanding of air-sea fluxes, for example, at both high and low wind speeds, for gas and aerosol exchange and in marginal ice zones. Furthermore, there are serious concerns about the recent decline in the number of VOS observations. Closure of global and regional energy balances still cannot be achieved without adjustments to the flux fields and/or the underlying surface meteorological variables. The impact of sampling on interannual variability of fluxes makes estimates of climate tendencies in air-sea exchanges highly uncertain. In order to meet these challenges we formulate a future vision of a surface flux observing system, which provides a synergy of in situ measurements (buoys, research vessels and merchant ships), remote sensing and models.
format Conference Object
author Gulev, SK
Josey, SA
Bourassa, M
Breivik, LA
Cronin, MF
Fairall, C
Gille, S
Kent, EC
Lee, CM
McPhaden, MJ
Monteiro, Pedro MS
Schuster, U
Smith, SR
Trenberth, KE
Wallace, D
Woodruff, SD
author_facet Gulev, SK
Josey, SA
Bourassa, M
Breivik, LA
Cronin, MF
Fairall, C
Gille, S
Kent, EC
Lee, CM
McPhaden, MJ
Monteiro, Pedro MS
Schuster, U
Smith, SR
Trenberth, KE
Wallace, D
Woodruff, SD
author_sort Gulev, SK
title Surface energy, CO2 fluxes and sea ice
title_short Surface energy, CO2 fluxes and sea ice
title_full Surface energy, CO2 fluxes and sea ice
title_fullStr Surface energy, CO2 fluxes and sea ice
title_full_unstemmed Surface energy, CO2 fluxes and sea ice
title_sort surface energy, co2 fluxes and sea ice
publishDate 2009
url http://hdl.handle.net/10204/5467
genre Sea ice
genre_facet Sea ice
op_relation Workflow request;7809
Gulev, SK, Josey, SA, Bourassa, M et al. 2009. Surface energy, CO2 fluxes and sea ice. OceanObs’09: Sustained Ocean Observations and Information for Society, Venice, Italy, 21-25 September 2009
http://hdl.handle.net/10204/5467
_version_ 1766191776643678208

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