Data and calculations to support the study of the sea-air flux of methane and carbon dioxide on the West Spitsbergen margin in June 2014

A critical question for assessing global greenhouse gas budgets is how much of the methane that escapes from seafloor cold seep sites to the overlying water column eventually crosses the sea-air interface and reaches the atmosphere. The issue is particularly important in Arctic Ocean waters since ra...

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Bibliographic Details
Main Authors: Carolyn Ruppel, John Pohlman, Michael Casso
Format: Dataset
Language:unknown
Published: USGS Science Data Catalog 2017
Subjects:
oceans
geoscientificInformation
environment
marine chemistry
ocean temperature
ocean-atmosphere interaction
carbon cycling
carbon isotope analysis
oceanographic observations
seepage studies
seep and vent ecosystems
methane seep
sea-air gas flux
greenhouse gas flux
Svalbard
Norway
Spitsbergen
Arctic Ocean
Prins Karls Forland
Arctic
Hanssen
Tromso
arctic methane
University of Tromso
Online Access:https://search.dataone.org/view/fa28e92e-be1c-47ed-bb77-b3fdd4600708
id dataone:fa28e92e-be1c-47ed-bb77-b3fdd4600708
record_format openpolar
spelling dataone:fa28e92e-be1c-47ed-bb77-b3fdd4600708 2023-11-08T14:14:15+01:00 Data and calculations to support the study of the sea-air flux of methane and carbon dioxide on the West Spitsbergen margin in June 2014 Carolyn Ruppel John Pohlman Michael Casso ENVELOPE(5.20419,10.82283,78.7613,78.20683) BEGINDATE: 2014-06-21T00:00:00Z ENDDATE: 2014-06-27T00:00:00Z 2017-01-01T00:00:00Z https://search.dataone.org/view/fa28e92e-be1c-47ed-bb77-b3fdd4600708 unknown USGS Science Data Catalog oceans geoscientificInformation environment marine chemistry ocean temperature ocean-atmosphere interaction carbon cycling carbon isotope analysis oceanographic observations seepage studies seep and vent ecosystems methane seep sea-air gas flux greenhouse gas flux Svalbard Norway Spitsbergen Arctic Ocean Prins Karls Forland Dataset 2017 dataone:urn:node:USGS_SDC 2023-11-08T13:40:06Z A critical question for assessing global greenhouse gas budgets is how much of the methane that escapes from seafloor cold seep sites to the overlying water column eventually crosses the sea-air interface and reaches the atmosphere. The issue is particularly important in Arctic Ocean waters since rapid warming there increases the likelihood that gas hydrate--an ice-like form of methane and water stable at particular pressure and temperature conditions within marine sediments--will break down and release its methane to the overlying ocean. Some researchers have even proposed the possibility of an Arctic methane catastrophe characterized by wholesale breakdown of gas hydrates in marine sediments and release of the methane to the atmosphere as climate warms. This dataset collected on the West Spitsbergen margin during U.S. Geological Survey Coastal and Marine Geology Program Field Activity 2014-013-FA, which was carried out in conjunction with the University of Tromso and the GEOMAR Helmholtz Centre for Ocean Research Kiel on the R/V Helmer Hanssen, records 30-second-gridded methane and carbon dioxide concentrations in near-surface seawater and the atmospheric marine boundary layer, the carbon-13 isotopic composition of methane and carbon dioxide in the near-surface waters, and also environmental parameters (e.g., seawater salinity, wind speed, water and air temperatures). The results of calculations required to determine the sea-air flux of methane and carbon dioxide are also provided. Dataset arctic methane Arctic Arctic Ocean Prins Karls Forland Svalbard Tromso Spitsbergen University of Tromso USGS Science Data Catalog (via DataONE) Arctic Arctic Ocean Hanssen ENVELOPE(-164.467,-164.467,-85.983,-85.983) Norway Prins Karls Forland ENVELOPE(11.175,11.175,78.543,78.543) Svalbard Tromso ENVELOPE(16.546,16.546,68.801,68.801) ENVELOPE(5.20419,10.82283,78.7613,78.20683)
institution Open Polar
collection USGS Science Data Catalog (via DataONE)
op_collection_id dataone:urn:node:USGS_SDC
language unknown
topic oceans
geoscientificInformation
environment
marine chemistry
ocean temperature
ocean-atmosphere interaction
carbon cycling
carbon isotope analysis
oceanographic observations
seepage studies
seep and vent ecosystems
methane seep
sea-air gas flux
greenhouse gas flux
Svalbard
Norway
Spitsbergen
Arctic Ocean
Prins Karls Forland
spellingShingle oceans
geoscientificInformation
environment
marine chemistry
ocean temperature
ocean-atmosphere interaction
carbon cycling
carbon isotope analysis
oceanographic observations
seepage studies
seep and vent ecosystems
methane seep
sea-air gas flux
greenhouse gas flux
Svalbard
Norway
Spitsbergen
Arctic Ocean
Prins Karls Forland
Carolyn Ruppel
John Pohlman
Michael Casso
Data and calculations to support the study of the sea-air flux of methane and carbon dioxide on the West Spitsbergen margin in June 2014
topic_facet oceans
geoscientificInformation
environment
marine chemistry
ocean temperature
ocean-atmosphere interaction
carbon cycling
carbon isotope analysis
oceanographic observations
seepage studies
seep and vent ecosystems
methane seep
sea-air gas flux
greenhouse gas flux
Svalbard
Norway
Spitsbergen
Arctic Ocean
Prins Karls Forland
description A critical question for assessing global greenhouse gas budgets is how much of the methane that escapes from seafloor cold seep sites to the overlying water column eventually crosses the sea-air interface and reaches the atmosphere. The issue is particularly important in Arctic Ocean waters since rapid warming there increases the likelihood that gas hydrate--an ice-like form of methane and water stable at particular pressure and temperature conditions within marine sediments--will break down and release its methane to the overlying ocean. Some researchers have even proposed the possibility of an Arctic methane catastrophe characterized by wholesale breakdown of gas hydrates in marine sediments and release of the methane to the atmosphere as climate warms. This dataset collected on the West Spitsbergen margin during U.S. Geological Survey Coastal and Marine Geology Program Field Activity 2014-013-FA, which was carried out in conjunction with the University of Tromso and the GEOMAR Helmholtz Centre for Ocean Research Kiel on the R/V Helmer Hanssen, records 30-second-gridded methane and carbon dioxide concentrations in near-surface seawater and the atmospheric marine boundary layer, the carbon-13 isotopic composition of methane and carbon dioxide in the near-surface waters, and also environmental parameters (e.g., seawater salinity, wind speed, water and air temperatures). The results of calculations required to determine the sea-air flux of methane and carbon dioxide are also provided.
format Dataset
author Carolyn Ruppel
John Pohlman
Michael Casso
author_facet Carolyn Ruppel
John Pohlman
Michael Casso
author_sort Carolyn Ruppel
title Data and calculations to support the study of the sea-air flux of methane and carbon dioxide on the West Spitsbergen margin in June 2014
title_short Data and calculations to support the study of the sea-air flux of methane and carbon dioxide on the West Spitsbergen margin in June 2014
title_full Data and calculations to support the study of the sea-air flux of methane and carbon dioxide on the West Spitsbergen margin in June 2014
title_fullStr Data and calculations to support the study of the sea-air flux of methane and carbon dioxide on the West Spitsbergen margin in June 2014
title_full_unstemmed Data and calculations to support the study of the sea-air flux of methane and carbon dioxide on the West Spitsbergen margin in June 2014
title_sort data and calculations to support the study of the sea-air flux of methane and carbon dioxide on the west spitsbergen margin in june 2014
publisher USGS Science Data Catalog
publishDate 2017
url https://search.dataone.org/view/fa28e92e-be1c-47ed-bb77-b3fdd4600708
op_coverage ENVELOPE(5.20419,10.82283,78.7613,78.20683)
BEGINDATE: 2014-06-21T00:00:00Z ENDDATE: 2014-06-27T00:00:00Z
long_lat ENVELOPE(-164.467,-164.467,-85.983,-85.983)
ENVELOPE(11.175,11.175,78.543,78.543)
ENVELOPE(16.546,16.546,68.801,68.801)
ENVELOPE(5.20419,10.82283,78.7613,78.20683)
geographic Arctic
Arctic Ocean
Hanssen
Norway
Prins Karls Forland
Svalbard
Tromso
geographic_facet Arctic
Arctic Ocean
Hanssen
Norway
Prins Karls Forland
Svalbard
Tromso
genre arctic methane
Arctic
Arctic Ocean
Prins Karls Forland
Svalbard
Tromso
Spitsbergen
University of Tromso
genre_facet arctic methane
Arctic
Arctic Ocean
Prins Karls Forland
Svalbard
Tromso
Spitsbergen
University of Tromso
_version_ 1782012338259361792

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