Cruise report RV Pelagia campaign 64PE549

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Niemann, Helge; Huybens, Rosanne; Delre, Annalisa; van der Marel, Laurens; Whilpshaar, Martin; van Engelenburg, Barend, 2026, "Cruise report RV Pelagia campaign 64PE549", https://doi.org/10.25850/nioz/7b.b.tk, NIOZ, V1

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Description	horizon of 100 years (Etminan et al., 2016). Though the half-life of atmospheric methane is relatively short (~ 9 years), CH4 concentrations in the atmosphere have risen drastically to current values of ~ 1.9 ppm; i.e. ~ 2.5-fold higher compared to preindustrial values (IPCC, 2021). The exact mechanisms behind this increase are not fully understood, yet it is clear that the increase in the atmospheric methane budget is caused by anthropogenic sources (Nisbet et al., 2019; IPCC, 2021; Saunois et al., 2025); together, these amount to 345 - 409 Tg yr-1 . Natural CH4 sources are overall on a similar scale contributing about 40% (195 - 457 Tg yr-1 ) to the total atmospheric budget (540 – 865 Tg yr-1 ). Though it is likely that the overall contribution of the Ocean to the atmospheric methane budget is comparably small, ocean budget estimates vary considerably. Shelf seas for example are with 6 - 22 Tg yr-1 the main contributor of natural oceanic methane emission to the atmosphere though the shelf only accounts for 8 - 10 % of the global ocean surface (Weber et al., 2019; Saunois et al., 2020). Compared to the open ocean, shelf seas are characterized by high nutrient loads, high primary production, high sedimentation rates and subsequent burial of dead organic matter to the seabed. This leads to elevated methane production in sediments by microbial or thermogenic processes (Reeburgh, 2007). Methane emission related to offshore industries on the other hand are not well constrained but expected to be substantial (Pühl et al., 2024; IEA, 2025) . However, methane in shelf sea sediments is of commercial value and thus extracted. After exploitation, wells are sealed to prevent leakage, but recent investigations in the UK and German sector of the North Sea by Vielstädte et al. (2017), Böttner et al. (2020) and de Bruin (Bruin et al., 2025) however, found acoustic flares in the water column in vicinity of well heads; these acoustic features are caused by plumes of rising bubbles emanating from the sea floor. Such flares were almost always found when the well heads were in close vicinity to so-called bright spots in seismic data. Bright spots are caused by high amplitude response in sound velocity of the subsurface, e.g. triggered by the presence of shallow gas. The studies by Vielstädte et al. (2017), Böttner et al. (2020) could not fully clarify why the location of sea floor gas release was often at some distance from the well head (i.e. the leak-tightness of the well head seal itself was not necessarily compromised). However, the statistical co-occurrence of flares and (abandoned) wells suggested a causality. The available investigations also suggest that the frequency of plumes in UK and Norwegian sector might be higher than in the Dutch sector of the North Sea (Bruin et al., 2025). The Dutch sector of the North Sea is rich in shallow and deep subsurface methane. The deep methane is extracted from multiple active wells and many more wells are abandoned and sealed. With respect to the previous findings (Vielstädte et al., 2017; Böttner et al., 2020; Bruin et al., 2025) this raises the questions: - if and how frequent gas release occurs at or in the vicinity of (abandoned) wells in the Dutch sector of the North Sea; - if the gas release is caused by the previous drilling and/or inappropriate sealing attempts. (2026-03-02)
Subject	Earth and Environmental Sciences
Keyword	Methane, North Sea, Netherlands, Abandoned well

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	64PE549_Cruise Report_2025.pdf Adobe PDF - 1.5 MB - Mar 24, 2026 - 6 Downloads MD5: 533cf4ce160f94b6d4cd8abe160d3053	Download

Citation Metadata

Dataset Persistent ID	doi:10.25850/nioz/7b.b.tk
Publication Date	2026-03-24
Title	Cruise report RV Pelagia campaign 64PE549
Other ID	DAS:c4e5210b-67f9-4322-b3c1-fa10332f52af DOI:10.25850/nioz/7b.b.tk
Author	Niemann, Helge (Royal Netherlands Institute for Sea Research, Utrecht University) - ORCID: 0000-0002-3468-8304 Huybens, Rosanne (TNO) Delre, Annalisa (Royal Netherlands Institute for Sea Research) - ORCID: 0000-0002-9154-2635 van der Marel, Laurens (Royal Netherlands Institute for Sea Research, Utrecht University) Whilpshaar, Martin (TNO) van Engelenburg, Barend (SoDM)
Contact	Use email button above to contact. Niemann, Helge (NIOZ Royal Netherlands Institute for Sea Research) Research Data Management (NIOZ Royal Netherlands Institute for Sea Research)
Description	horizon of 100 years (Etminan et al., 2016). Though the half-life of atmospheric methane is relatively short (~ 9 years), CH4 concentrations in the atmosphere have risen drastically to current values of ~ 1.9 ppm; i.e. ~ 2.5-fold higher compared to preindustrial values (IPCC, 2021). The exact mechanisms behind this increase are not fully understood, yet it is clear that the increase in the atmospheric methane budget is caused by anthropogenic sources (Nisbet et al., 2019; IPCC, 2021; Saunois et al., 2025); together, these amount to 345 - 409 Tg yr-1 . Natural CH4 sources are overall on a similar scale contributing about 40% (195 - 457 Tg yr-1 ) to the total atmospheric budget (540 – 865 Tg yr-1 ). Though it is likely that the overall contribution of the Ocean to the atmospheric methane budget is comparably small, ocean budget estimates vary considerably. Shelf seas for example are with 6 - 22 Tg yr-1 the main contributor of natural oceanic methane emission to the atmosphere though the shelf only accounts for 8 - 10 % of the global ocean surface (Weber et al., 2019; Saunois et al., 2020). Compared to the open ocean, shelf seas are characterized by high nutrient loads, high primary production, high sedimentation rates and subsequent burial of dead organic matter to the seabed. This leads to elevated methane production in sediments by microbial or thermogenic processes (Reeburgh, 2007). Methane emission related to offshore industries on the other hand are not well constrained but expected to be substantial (Pühl et al., 2024; IEA, 2025) . However, methane in shelf sea sediments is of commercial value and thus extracted. After exploitation, wells are sealed to prevent leakage, but recent investigations in the UK and German sector of the North Sea by Vielstädte et al. (2017), Böttner et al. (2020) and de Bruin (Bruin et al., 2025) however, found acoustic flares in the water column in vicinity of well heads; these acoustic features are caused by plumes of rising bubbles emanating from the sea floor. Such flares were almost always found when the well heads were in close vicinity to so-called bright spots in seismic data. Bright spots are caused by high amplitude response in sound velocity of the subsurface, e.g. triggered by the presence of shallow gas. The studies by Vielstädte et al. (2017), Böttner et al. (2020) could not fully clarify why the location of sea floor gas release was often at some distance from the well head (i.e. the leak-tightness of the well head seal itself was not necessarily compromised). However, the statistical co-occurrence of flares and (abandoned) wells suggested a causality. The available investigations also suggest that the frequency of plumes in UK and Norwegian sector might be higher than in the Dutch sector of the North Sea (Bruin et al., 2025). The Dutch sector of the North Sea is rich in shallow and deep subsurface methane. The deep methane is extracted from multiple active wells and many more wells are abandoned and sealed. With respect to the previous findings (Vielstädte et al., 2017; Böttner et al., 2020; Bruin et al., 2025) this raises the questions: - if and how frequent gas release occurs at or in the vicinity of (abandoned) wells in the Dutch sector of the North Sea; - if the gas release is caused by the previous drilling and/or inappropriate sealing attempts. (2026-03-02)
Subject	Earth and Environmental Sciences
Keyword	Methane North Sea Netherlands Abandoned well
Production Date	2026-03-24
Contributor	Hosting Institution : Royal Netherlands Institute for Sea Research (NIOZ)
Distributor	Research Data Management (NIOZ Royal Netherlands Institute for Sea Research)
Distribution Date	2026-03-02
Depositor	Iakovos Petrou
Deposit Date	2026-03-02

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