Methane Hydrate Stability and Potential Resource in the Levant Basin, Southeastern Mediterranean Sea

Tayber, Ziv; Meilijson, Aaron; Ben‐Avraham, Zvi; Makovsky, Yizhaq

doi:10.3390/geosciences9070306

Cited by 16 publications

(24 citation statements)

References 133 publications

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“…at least twice as deep as the typical upper limits of 300-500 m in the open ocean. In the eastern Mediterranean Sea, the upper limit of the MHSZ has been estimated to lie at water depths of 1150-1350 m (Pape et al 2010;Römer et al 2014;Tayber et al 2019). The 1250 m depth contour is marked on Fig.…”

Section: Regional Settingmentioning

confidence: 99%

“…37.1 inset; Lykousis et al 2009;Pape et al 2010). A recent review of gas hydrates offshore Europe (Minshull et al 2020) found that, despite the wide distribution of seismic reflection data in the eastern Mediterranean Sea, evidence of a BSR was limited to a single profile across the central Nile fan offshore Egypt (Praeg et al 2008) and to scattered 3D seismic amplitude anomalies in the eastern Nile fan off Israel proposed to represent a 'pseudo-BSR' (Tayber et al 2019). However, geophysical evidence of gas hydrates has been recognized for 20 years by the Egyptian exploration industry, albeit based on seismic and well data that remain poorly documented.…”

Section: Introductionmentioning

confidence: 99%

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A Gas Hydrate System of Heterogeneous Character in the Nile Deep-Sea Fan

Praeg

Migeon

Mascle

et al. 2022

World Atlas of Submarine Gas Hydrates in Continental Margins

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Large deep-sea fans are useful settings to study gas hydrate systems, the rapid burial of organic-rich sediment driving linked processes of gas generation, fluid expulsion and syn-sedimentary tectonism. The Nile deep-sea fan (100,000 km 2 ) is a collapsing Late Cenozoic depocentre that is both a hydrocarbon province and an area of widespread seafloor fluid seepage. Evidence for gas hydrates has been reported in this area, but remains poorly documented. Available seismic and well data are used together with information on seafloor features to characterise a deep-water (1500-2700 m) gas hydrate system in the central Nile fan. The system is in part expressed as a bottom simulating reflection (BSR) discontinuously observed across a relatively small area (6000 km 2 ), both cross-cutting the stratified fill of fault-bound slope basins, and upslope of the basins within thick unstratified mass transport deposits. West of the BSR area, log data from two wells 45 km apart indicate the presence of gas hydrates in intervals up to 75 m thick near the base of the stability zone. Gas hydrates are also likely to be present near the seafloor within hundreds of pockmark-like mounds that record gas venting through the stability zone, most observed west of the BSR area. The central Nile fan thus contains a gas hydrate system expressed as two areas of comparable size, one with a discontinuous BSR but few seafloor gas vents, another lacking a BSR but with downhole evidence of gas hydrates and abundant gas venting. This heterogenous character is suggested to reflect spatial variations in fluid expulsion from the Nile fan, which can inhibit BSR formation while favouring gas hydrate accumulation over wide areas. This possibility has implications for other large deep-sea fans, many of which have restricted BSRs but may contain more extensive gas hydrate systems.

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Section: Regional Settingmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

A Gas Hydrate System of Heterogeneous Character in the Nile Deep-Sea Fan

Praeg

Migeon

Mascle

et al. 2022

World Atlas of Submarine Gas Hydrates in Continental Margins

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“…To date, hydrate has been sampled only in several mud volcanoes of the accretionary complex, starting in the Anaximander Seamount region, i.e., [48,49]. In addition, a recent 3D dataset acquired in the Levan Basin, southeastern Mediterranean Sea, suggested that this region could be promising in regards to gas hydrate [50]. Reference [50] estimated the potential inventory of natural gas hydrate in the Levant Basin correlating the gas hydrate stability zone with seismic indicators of gas and providing a potentiality of carbon in this area.…”

Section: Mediterranean Regionmentioning

confidence: 99%

“…So, References [50,54] suggest that the Mediterranean region should be investigated in order to understand the reason of the past-presence and the quite-absence of gas hydrate by using a multidisciplinary approach spanning from field data to modeling.…”

Section: Mediterranean Regionmentioning

confidence: 99%

Gas Hydrate: Environmental and Climate Impacts

et al. 2019

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This Special Issue reports research spanning from the analysis of indirect data, modelling, laboratory and geological data confirming the intrinsic multidisciplinarity of the gas hydrate studies. The study areas are (1) Arctic, (2) Brazil, (3) Chile and (4) the Mediterranean region. The results furnished an important tessera of the knowledge about the relationship of a gas hydrate system with other complex natural phenomena such as climate change, slope stability and earthquakes, and human activities.

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“… 63 See Nicholas A. Ioannides [ 30 ]; ‘Rights and Obligations of States in Undelimited Maritime Areas: The Case of the Eastern Mediterranean Sea’ in Stephen Minas and Jordan Diamond (eds), Stress Testing the Law of the Sea Dispute Resolution, Disasters and Emerging Challenges (BRILL 2018) 311–337; Recent geological studies have suggested that the Levant seafloor in the Eastern Mediterranean Sea contains approximately 100 trillion cubic feet (Tcf) of gas hydrates, see Ziv Tayber et al [ 31 ]. …”

mentioning

confidence: 99%

Hydrate occurrence in Europe: Risks, rewards, and legal frameworks

Partain

Yiallourides

2020

Marine Policy

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Asbtract In January of this year (2020), a major scientific study (‘the Minshull report’) announced that gas hydrate reservoirs were found in many offshore areas across Europe. The European Commission is now considering a policy view to commercialize the development and extraction of methane gas from European offshore areas. Affirmation from the European Commission that offshore methane hydrates are too useful and too valuable to forego development could initiate a global response to adopt offshore methane hydrates as a new source of natural gas for heating, for electrical power supplies, and for potential new revenues. The upside? The potential rewards from offshore methane hydrates are multi-fold. Coastal states are surrounded in methane hydrate resources that if responsibly developed could enable vast amounts of methane (natural gas) to be produced for decades or centuries beyond the timelines of conventional natural gas assets. There are also massive volumes of fresh water trapped in hydrates that could aid in fighting droughts and desertification. The downside? There are novel foreseeable risks that might result from those commercial methane hydrate activities. The climate change risks and geo-physical hazards from offshore methane hydrates are quite distinct from both conventional and unconventional hydrocarbons. There are new challenges to achieving safety and sustainability. In review, this paper both welcomes the discovery and confirmation of offshore methane hydrates in European waters and also raises concerns that more research is required on the optimal policy strategies for the known and foreseeable risks to best enable safe and sustainable policy choices.

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Methane Hydrate Stability and Potential Resource in the Levant Basin, Southeastern Mediterranean Sea

Cited by 16 publications

References 133 publications

A Gas Hydrate System of Heterogeneous Character in the Nile Deep-Sea Fan

A Gas Hydrate System of Heterogeneous Character in the Nile Deep-Sea Fan

Gas Hydrate: Environmental and Climate Impacts

Hydrate occurrence in Europe: Risks, rewards, and legal frameworks

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