Difference between revisions of "Reference document for methane harmonized monitoring"
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Task 4.2 of the WP4 developed a joint pilot experiment to measure methane transfer from the seafloor to the atmosphere, in a pilot study involving RIs ICOS, Eurofleets, EMSO and ACTRIS. The pilot experiment developed joint monitoring strategy for methane detection at various levels starting from the seafloor and moving across the water column, the water/air interface and the atmosphere. The Romanian sector of the Black Sea is the selected location. This area hosts a large number of emission sites of methane-rich gases, from the continental shelf to the deepest part of the basin. It is consequently a good candidate for investigating the fate of marine methane, from the sedimentary column to the atmosphere by combining the expertise and technologies of six EU teams. The methodology applied integrates (1) sampling from the three spheres (lithosphere, hydrosphere and atmosphere) for laboratory measurements of methane concentration by well-proven standard methods together with δ13C-CH4 analysis, (2) in situ measurements of methane concentration and δ13C- CH4 into the water column and the atmosphere, and (3) the deployment of a seafloor observatory for a short monitoring period (4-5 days) to evaluate the temporal variability of gas fluxes. | Task 4.2 of the WP4 developed a joint pilot experiment to measure methane transfer from the seafloor to the atmosphere, in a pilot study involving RIs ICOS, Eurofleets, EMSO and ACTRIS. The pilot experiment developed joint monitoring strategy for methane detection at various levels starting from the seafloor and moving across the water column, the water/air interface and the atmosphere. The Romanian sector of the Black Sea is the selected location. This area hosts a large number of emission sites of methane-rich gases, from the continental shelf to the deepest part of the basin. It is consequently a good candidate for investigating the fate of marine methane, from the sedimentary column to the atmosphere by combining the expertise and technologies of six EU teams. The methodology applied integrates (1) sampling from the three spheres (lithosphere, hydrosphere and atmosphere) for laboratory measurements of methane concentration by well-proven standard methods together with δ13C-CH4 analysis, (2) in situ measurements of methane concentration and δ13C- CH4 into the water column and the atmosphere, and (3) the deployment of a seafloor observatory for a short monitoring period (4-5 days) to evaluate the temporal variability of gas fluxes. | ||
Key words: Acoustics survey, atmosphere, geochemical analysis, in-situ gasmeasurements, in-situ sampling, methane transfer, observatory, sediment,water-column | Key words: Acoustics survey, atmosphere, geochemical analysis, in-situ gasmeasurements, in-situ sampling, methane transfer, observatory, sediment,water-column | ||
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<div class="mbox">⚠️ The full contents of this document have not yet been moved to the wiki. Please use the links to access the original document.</div> | <div class="mbox">⚠️ The full contents of this document have not yet been moved to the wiki. Please use the links to access the original document.</div> | ||
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Latest revision as of 15:00, 12 April 2021
Abstract[edit]
Project | ENVRIplus |
---|---|
Deliverable nr | D4.3 |
Submission date | 2019-07-23 |
Type | Report |
PDF | Zenodo
Task 4.2 of the WP4 developed a joint pilot experiment to measure methane transfer from the seafloor to the atmosphere, in a pilot study involving RIs ICOS, Eurofleets, EMSO and ACTRIS. The pilot experiment developed joint monitoring strategy for methane detection at various levels starting from the seafloor and moving across the water column, the water/air interface and the atmosphere. The Romanian sector of the Black Sea is the selected location. This area hosts a large number of emission sites of methane-rich gases, from the continental shelf to the deepest part of the basin. It is consequently a good candidate for investigating the fate of marine methane, from the sedimentary column to the atmosphere by combining the expertise and technologies of six EU teams. The methodology applied integrates (1) sampling from the three spheres (lithosphere, hydrosphere and atmosphere) for laboratory measurements of methane concentration by well-proven standard methods together with δ13C-CH4 analysis, (2) in situ measurements of methane concentration and δ13C- CH4 into the water column and the atmosphere, and (3) the deployment of a seafloor observatory for a short monitoring period (4-5 days) to evaluate the temporal variability of gas fluxes.
Key words: Acoustics survey, atmosphere, geochemical analysis, in-situ gasmeasurements, in-situ sampling, methane transfer, observatory, sediment,water-column
Original document | [1] |
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Title | D4.3 Reference document for methane harmonized monitoring |
Work package | WP 4 – Joint operations across the RI domains |
Leading beneficiary | INGV |
Authors | Jean-Daniel Paris (CEA) |
| Hélène Leau (Ifremer) |
| Livio Ruffine (Ifremer) |
| Thomas Giunta (Ifremer) |
| Jean-Pierre Donval (Ifremer) |
| Viven Guyader (Ifremer) |
| Dominique Birot (Ifremer) |
| Carla Scalabrin (Ifremer) |
| Christophe Brandilly (Ifremer) |
| Thibault Douillard (Ifremer) |
| Mia Schumacher (GEOMAR) |
| Manfredi Longo (INGV) |
| Sergio Scire (INGV) |
| Francesco Italiano (INGV) |
| Gianluca Lazzaro (INGV) |
Accepted by | Jean-Daniel Paris (WP 4 leader) |
Deliverable type | Report |
Dissemination level | Public |
Deliverable due date | M46 |
Actual Date of Submission | 2019-07-23 |
Abstract | #Abstract |
Project internal reviewer | Jean-Daniel Paris (CEA) |
Document history | |
Date | Version |
07/07/2019 | Creation of the document |
23/07/2019 | Accepted by WP 4 Leader |