Joint Interpretation of Electromagnetic and Seismic Data to Determine Gas and Methane Hydrate Distribution within the Nyegga CNE03 Seep

The presence of the Nyegga pockmark field within the gas hydrate stability field on the Norwegian continental slope points to possible methane release through cold seeps. It is, however, not clear how the methane may migrate through the still existing hydrate stability zone as the gas should form ne...

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Main Authors: Jegen, Marion, Hölz, Sebastian, Cukur, Deniz, Sommer, Malte, Attias, E., Weitemeyer, K., Berndt, Christian
Format: Conference Object
Language:unknown
Published: 2014
Subjects:
Nyegga
The Chimney
Methane hydrate
Online Access:https://oceanrep.geomar.de/id/eprint/26719/
id ftoceanrep:oai:oceanrep.geomar.de:26719
record_format openpolar
spelling ftoceanrep:oai:oceanrep.geomar.de:26719 2023-05-15T17:11:56+02:00 Joint Interpretation of Electromagnetic and Seismic Data to Determine Gas and Methane Hydrate Distribution within the Nyegga CNE03 Seep Jegen, Marion Hölz, Sebastian Cukur, Deniz Sommer, Malte Attias, E. Weitemeyer, K. Berndt, Christian 2014 https://oceanrep.geomar.de/id/eprint/26719/ unknown Jegen, M. , Hölz, S. , Cukur, D., Sommer, M., Attias, E., Weitemeyer, K. and Berndt, C. (2014) Joint Interpretation of Electromagnetic and Seismic Data to Determine Gas and Methane Hydrate Distribution within the Nyegga CNE03 Seep. [Talk] In: AGU Fall Meeting 2014. , 15.-19.12.2014, San Francisco, USA . Conference or Workshop Item NonPeerReviewed 2014 ftoceanrep 2023-04-07T15:16:17Z The presence of the Nyegga pockmark field within the gas hydrate stability field on the Norwegian continental slope points to possible methane release through cold seeps. It is, however, not clear how the methane may migrate through the still existing hydrate stability zone as the gas should form new hydrate further up in the section. In an effort to better understand the physical processes and quantify the hydrate/gas distribution in the area, GEOMAR and the University of Southampton collected different types of electromagnetic data sets with different depth ranges and resolution in a region, which has been extensively covered by seismic investigation. The presence of hydrate within seafloor sediments causes an increase in both the bulk modulus, and hence the seismic velocity, and in the electrical resistivity. The presence of gas decreases seismic velocity but increases electrical resistivity. Both seismic and controlled source electromagnetic methods can and have been used to estimate hydrate and gas content. Since seismic velocity and the electrical resistivity are sensitive also to a range of other parameters such as lithology, porosity and pore fluid salinity, single rock property parameter investigations are hampered by many uncertainties. However, since the sensitivities are different for the two properties, determination of both velocity and resistivity for the same volume of sea bed provides a powerful tool for distinguishing the contribution of hydrate or gas from that of other parameters. In this work we report on a new type of 3D electromagnetic high resolution tomography experiment which was focused on the CNE03 chimney in the centre of the region. The data indicates the presence of a highly resistive zone, where seismic travel time tomography has shown the presence of gas hydrates within the chimney. The distribution of methane hydrate concentrations are derived based on a joint interpretation of seismic velocity and electrical resistivities. Conference Object Methane hydrate OceanRep (GEOMAR Helmholtz Centre für Ocean Research Kiel) Nyegga ENVELOPE(9.443,9.443,62.612,62.612) The Chimney ENVELOPE(-55.748,-55.748,52.617,52.617)
institution Open Polar
collection OceanRep (GEOMAR Helmholtz Centre für Ocean Research Kiel)
op_collection_id ftoceanrep
language unknown
description The presence of the Nyegga pockmark field within the gas hydrate stability field on the Norwegian continental slope points to possible methane release through cold seeps. It is, however, not clear how the methane may migrate through the still existing hydrate stability zone as the gas should form new hydrate further up in the section. In an effort to better understand the physical processes and quantify the hydrate/gas distribution in the area, GEOMAR and the University of Southampton collected different types of electromagnetic data sets with different depth ranges and resolution in a region, which has been extensively covered by seismic investigation. The presence of hydrate within seafloor sediments causes an increase in both the bulk modulus, and hence the seismic velocity, and in the electrical resistivity. The presence of gas decreases seismic velocity but increases electrical resistivity. Both seismic and controlled source electromagnetic methods can and have been used to estimate hydrate and gas content. Since seismic velocity and the electrical resistivity are sensitive also to a range of other parameters such as lithology, porosity and pore fluid salinity, single rock property parameter investigations are hampered by many uncertainties. However, since the sensitivities are different for the two properties, determination of both velocity and resistivity for the same volume of sea bed provides a powerful tool for distinguishing the contribution of hydrate or gas from that of other parameters. In this work we report on a new type of 3D electromagnetic high resolution tomography experiment which was focused on the CNE03 chimney in the centre of the region. The data indicates the presence of a highly resistive zone, where seismic travel time tomography has shown the presence of gas hydrates within the chimney. The distribution of methane hydrate concentrations are derived based on a joint interpretation of seismic velocity and electrical resistivities.
format Conference Object
author Jegen, Marion
Hölz, Sebastian
Cukur, Deniz
Sommer, Malte
Attias, E.
Weitemeyer, K.
Berndt, Christian
spellingShingle Jegen, Marion
Hölz, Sebastian
Cukur, Deniz
Sommer, Malte
Attias, E.
Weitemeyer, K.
Berndt, Christian
Joint Interpretation of Electromagnetic and Seismic Data to Determine Gas and Methane Hydrate Distribution within the Nyegga CNE03 Seep
author_facet Jegen, Marion
Hölz, Sebastian
Cukur, Deniz
Sommer, Malte
Attias, E.
Weitemeyer, K.
Berndt, Christian
author_sort Jegen, Marion
title Joint Interpretation of Electromagnetic and Seismic Data to Determine Gas and Methane Hydrate Distribution within the Nyegga CNE03 Seep
title_short Joint Interpretation of Electromagnetic and Seismic Data to Determine Gas and Methane Hydrate Distribution within the Nyegga CNE03 Seep
title_full Joint Interpretation of Electromagnetic and Seismic Data to Determine Gas and Methane Hydrate Distribution within the Nyegga CNE03 Seep
title_fullStr Joint Interpretation of Electromagnetic and Seismic Data to Determine Gas and Methane Hydrate Distribution within the Nyegga CNE03 Seep
title_full_unstemmed Joint Interpretation of Electromagnetic and Seismic Data to Determine Gas and Methane Hydrate Distribution within the Nyegga CNE03 Seep
title_sort joint interpretation of electromagnetic and seismic data to determine gas and methane hydrate distribution within the nyegga cne03 seep
publishDate 2014
url https://oceanrep.geomar.de/id/eprint/26719/
long_lat ENVELOPE(9.443,9.443,62.612,62.612)
ENVELOPE(-55.748,-55.748,52.617,52.617)
geographic Nyegga
The Chimney
geographic_facet Nyegga
The Chimney
genre Methane hydrate
genre_facet Methane hydrate
op_relation Jegen, M. , Hölz, S. , Cukur, D., Sommer, M., Attias, E., Weitemeyer, K. and Berndt, C. (2014) Joint Interpretation of Electromagnetic and Seismic Data to Determine Gas and Methane Hydrate Distribution within the Nyegga CNE03 Seep. [Talk] In: AGU Fall Meeting 2014. , 15.-19.12.2014, San Francisco, USA .
_version_ 1766068692333887488

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