Hydrate occurrence in Europe: A review of available evidence

Large national programs in the United States and several Asian countries have defined and characterised their marine methane hydrate occurrences in some detail, but European hydrate occurrence has received less attention. The European Union-funded project "Marine gas hydrate - an indigenous res...

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Published in:Marine and Petroleum Geology
Main Authors: Vadakkepuliyambatta, Sunil, Leon, Ricardo, Ion, Gabriel, Hopper, John R., Holz, Sebastian, Hillman, Jess I. T., Giustiniani, Michela, Cifcig, Gunay, Cameselle, Alejandra L., Burwicz, Ewa, Bunz, Stefan, Bialas, Joerg, Betlem, Peter, Magalhaes, Vitor, Vasilev, Atanas, Vazquez, Juan-Tomas, Minshull, Timothy A., Marin-Moreno, Hector, Senger, Kim, Schwalenberg, Katrin, Roy, Srikumar, Rey, Daniel, Plaza-Faverola, Andreia A., Pinheiro, Luis M., O'Neill, Nick, Ostrovsky, Ilia, OKAY GÜNAYDIN, SEDA, Nielsen, Tove, Max, Michael D., Mata, Maria-Pilar, Makovsky, Yizhaq
Format: Article in Journal/Newspaper
Language:English
Published: 2020
Subjects:
Arctic
Barents Sea
Greenland
Svalbard
Methane hydrate
Online Access:https://doi.org/10.1016/j.marpetgeo.2019.08.014
https://avesis.deu.edu.tr/publication/details/d4bd17d3-fef2-4f1b-a572-06f3af584489/oai
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spelling ftdokuzeylueluni:d4bd17d3-fef2-4f1b-a572-06f3af584489 2023-05-15T15:13:53+02:00 Hydrate occurrence in Europe: A review of available evidence Vadakkepuliyambatta, Sunil Leon, Ricardo Ion, Gabriel Hopper, John R. Holz, Sebastian Hillman, Jess I. T. Giustiniani, Michela Cifcig, Gunay Cameselle, Alejandra L. Burwicz, Ewa Bunz, Stefan Bialas, Joerg Betlem, Peter Magalhaes, Vitor Vasilev, Atanas Vazquez, Juan-Tomas Minshull, Timothy A. Marin-Moreno, Hector Senger, Kim Schwalenberg, Katrin Roy, Srikumar Rey, Daniel Plaza-Faverola, Andreia A. Pinheiro, Luis M. O'Neill, Nick Ostrovsky, Ilia OKAY GÜNAYDIN, SEDA Nielsen, Tove Max, Michael D. Mata, Maria-Pilar Makovsky, Yizhaq 2020-01-01T00:00:00Z https://doi.org/10.1016/j.marpetgeo.2019.08.014 https://avesis.deu.edu.tr/publication/details/d4bd17d3-fef2-4f1b-a572-06f3af584489/oai eng eng d4bd17d3-fef2-4f1b-a572-06f3af584489 doi:10.1016/j.marpetgeo.2019.08.014 https://avesis.deu.edu.tr/publication/details/d4bd17d3-fef2-4f1b-a572-06f3af584489/oai info:eu-repo/semantics/closedAccess info:eu-repo/semantics/article 2020 ftdokuzeylueluni https://doi.org/10.1016/j.marpetgeo.2019.08.014 2022-06-01T07:14:15Z Large national programs in the United States and several Asian countries have defined and characterised their marine methane hydrate occurrences in some detail, but European hydrate occurrence has received less attention. The European Union-funded project "Marine gas hydrate - an indigenous resource of natural gas for Europe" (MIGRATE) aimed to determine the European potential inventory of exploitable gas hydrate, to assess current technologies for their production, and to evaluate the associated risks. We present a synthesis of results from a MIGRATE working group that focused on the definition and assessment of hydrate in Europe. Our review includes the western and eastern margins of Greenland, the Barents Sea and onshore and offshore Svalbard, the Atlantic margin of Europe, extending south to the northwestern margin of Morocco, the Mediterranean Sea, the Sea of Marmara, and the western and southern margins of the Black Sea. We have not attempted to cover the high Arctic, the Russian, Ukrainian and Georgian sectors of the Black Sea, or overseas territories of European nations. Following a formalised process, we defined a range of indicators of hydrate presence based on geophysical, geochemical and geological data. Our study was framed by the constraint of the hydrate stability field in European seas. Direct hydrate indicators included sampling of hydrate; the presence of bottom simulating reflectors in seismic reflection profiles; gas seepage into the ocean; and chlorinity anomalies in sediment cores. Indirect indicators included geophysical survey evidence for seismic velocity and/or resistivity anomalies, seismic reflectivity anomalies or subsurface gas escape structures; various seabed features associated with gas escape, and the presence of an underlying conventional petroleum system. We used these indicators to develop a database of hydrate occurrence across Europe. We identified a series of regions where there is substantial evidence for hydrate occurrence (some areas offshore Greenland, offshore west ... Article in Journal/Newspaper Arctic Barents Sea Greenland Methane hydrate Svalbard Dokuz Eylül University Research Information System Arctic Barents Sea Greenland Svalbard Marine and Petroleum Geology 111 735 764
institution Open Polar
collection Dokuz Eylül University Research Information System
op_collection_id ftdokuzeylueluni
language English
description Large national programs in the United States and several Asian countries have defined and characterised their marine methane hydrate occurrences in some detail, but European hydrate occurrence has received less attention. The European Union-funded project "Marine gas hydrate - an indigenous resource of natural gas for Europe" (MIGRATE) aimed to determine the European potential inventory of exploitable gas hydrate, to assess current technologies for their production, and to evaluate the associated risks. We present a synthesis of results from a MIGRATE working group that focused on the definition and assessment of hydrate in Europe. Our review includes the western and eastern margins of Greenland, the Barents Sea and onshore and offshore Svalbard, the Atlantic margin of Europe, extending south to the northwestern margin of Morocco, the Mediterranean Sea, the Sea of Marmara, and the western and southern margins of the Black Sea. We have not attempted to cover the high Arctic, the Russian, Ukrainian and Georgian sectors of the Black Sea, or overseas territories of European nations. Following a formalised process, we defined a range of indicators of hydrate presence based on geophysical, geochemical and geological data. Our study was framed by the constraint of the hydrate stability field in European seas. Direct hydrate indicators included sampling of hydrate; the presence of bottom simulating reflectors in seismic reflection profiles; gas seepage into the ocean; and chlorinity anomalies in sediment cores. Indirect indicators included geophysical survey evidence for seismic velocity and/or resistivity anomalies, seismic reflectivity anomalies or subsurface gas escape structures; various seabed features associated with gas escape, and the presence of an underlying conventional petroleum system. We used these indicators to develop a database of hydrate occurrence across Europe. We identified a series of regions where there is substantial evidence for hydrate occurrence (some areas offshore Greenland, offshore west ...
format Article in Journal/Newspaper
author Vadakkepuliyambatta, Sunil
Leon, Ricardo
Ion, Gabriel
Hopper, John R.
Holz, Sebastian
Hillman, Jess I. T.
Giustiniani, Michela
Cifcig, Gunay
Cameselle, Alejandra L.
Burwicz, Ewa
Bunz, Stefan
Bialas, Joerg
Betlem, Peter
Magalhaes, Vitor
Vasilev, Atanas
Vazquez, Juan-Tomas
Minshull, Timothy A.
Marin-Moreno, Hector
Senger, Kim
Schwalenberg, Katrin
Roy, Srikumar
Rey, Daniel
Plaza-Faverola, Andreia A.
Pinheiro, Luis M.
O'Neill, Nick
Ostrovsky, Ilia
OKAY GÜNAYDIN, SEDA
Nielsen, Tove
Max, Michael D.
Mata, Maria-Pilar
Makovsky, Yizhaq
spellingShingle Vadakkepuliyambatta, Sunil
Leon, Ricardo
Ion, Gabriel
Hopper, John R.
Holz, Sebastian
Hillman, Jess I. T.
Giustiniani, Michela
Cifcig, Gunay
Cameselle, Alejandra L.
Burwicz, Ewa
Bunz, Stefan
Bialas, Joerg
Betlem, Peter
Magalhaes, Vitor
Vasilev, Atanas
Vazquez, Juan-Tomas
Minshull, Timothy A.
Marin-Moreno, Hector
Senger, Kim
Schwalenberg, Katrin
Roy, Srikumar
Rey, Daniel
Plaza-Faverola, Andreia A.
Pinheiro, Luis M.
O'Neill, Nick
Ostrovsky, Ilia
OKAY GÜNAYDIN, SEDA
Nielsen, Tove
Max, Michael D.
Mata, Maria-Pilar
Makovsky, Yizhaq
Hydrate occurrence in Europe: A review of available evidence
author_facet Vadakkepuliyambatta, Sunil
Leon, Ricardo
Ion, Gabriel
Hopper, John R.
Holz, Sebastian
Hillman, Jess I. T.
Giustiniani, Michela
Cifcig, Gunay
Cameselle, Alejandra L.
Burwicz, Ewa
Bunz, Stefan
Bialas, Joerg
Betlem, Peter
Magalhaes, Vitor
Vasilev, Atanas
Vazquez, Juan-Tomas
Minshull, Timothy A.
Marin-Moreno, Hector
Senger, Kim
Schwalenberg, Katrin
Roy, Srikumar
Rey, Daniel
Plaza-Faverola, Andreia A.
Pinheiro, Luis M.
O'Neill, Nick
Ostrovsky, Ilia
OKAY GÜNAYDIN, SEDA
Nielsen, Tove
Max, Michael D.
Mata, Maria-Pilar
Makovsky, Yizhaq
author_sort Vadakkepuliyambatta, Sunil
title Hydrate occurrence in Europe: A review of available evidence
title_short Hydrate occurrence in Europe: A review of available evidence
title_full Hydrate occurrence in Europe: A review of available evidence
title_fullStr Hydrate occurrence in Europe: A review of available evidence
title_full_unstemmed Hydrate occurrence in Europe: A review of available evidence
title_sort hydrate occurrence in europe: a review of available evidence
publishDate 2020
url https://doi.org/10.1016/j.marpetgeo.2019.08.014
https://avesis.deu.edu.tr/publication/details/d4bd17d3-fef2-4f1b-a572-06f3af584489/oai
geographic Arctic
Barents Sea
Greenland
Svalbard
geographic_facet Arctic
Barents Sea
Greenland
Svalbard
genre Arctic
Barents Sea
Greenland
Methane hydrate
Svalbard
genre_facet Arctic
Barents Sea
Greenland
Methane hydrate
Svalbard
op_relation d4bd17d3-fef2-4f1b-a572-06f3af584489
doi:10.1016/j.marpetgeo.2019.08.014
https://avesis.deu.edu.tr/publication/details/d4bd17d3-fef2-4f1b-a572-06f3af584489/oai
op_rights info:eu-repo/semantics/closedAccess
op_doi https://doi.org/10.1016/j.marpetgeo.2019.08.014
container_title Marine and Petroleum Geology
container_volume 111
container_start_page 735
op_container_end_page 764
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