Ice-Rafting in Lakes in the early Neoproterozoic : dropstones in the Diabaig Formation, Torridon Group, NW Scotland

Peer reviewedPostprin

Effect of bathymetric data resolution on the understanding of sediment mobility : implications for offshore infrastructure projects on deglaciated continental shelves

Kurjanski, B., Caruso, S., McGhee, C., Rea, B., and Spagnolo, M.: Effect of bathymetric data resolution on the understanding of sediment mobility: implications for offshore infrastructure projects on deglaciated continental shelves, EGU General Assembly 2023, Vienna, Austria, 24–28 Apr 2023, EGU23-16716, https://doi.org/10.5194/egusphere-egu23-16716, 2023.Publisher PD

A conceptual model for glaciogenic reservoirs : from landsystems to reservoir architecture

Acknowledgements Authors would like to thank Benjamin Bellwald, Daniel Le Heron and one anonymous reviewer for their insightful comments and suggestions which helped to improve the manuscript. Funding This manuscript contains work conducted during a PhD study undertaken as part of the Natural Environment Research Council (NERC) Centre for Doctoral Training (CDT) in Oil & Gas [grant number NEM00578X/1]. It is sponsored by The University of Aberdeen University via their Scholarship Scheme.Peer reviewedPostprin

Morphological evidence for marine ice stream shutdown, central Barents Sea

The authors would like to thank NERC Oil and Gas CDT for the funding and support. We would also like to thank MAREANO (www.mareano.no) and EMODnet Bathymetry Consortium 2016 (http://www.emodnet-bathymetry.eu) for providing bathymetric data. We would like to thank Sarah Greenwood and two anonymous reviewers whose comments helped us to improve the manuscript.Peer reviewedPublisher PD

Structural and fluid-migration control on hill-hole pair formation: Evidence from high-resolution 3D seismic data from the SW Barents Sea

Hill-hole pairs are subglacial landforms consisting of thrust-block hills and associated source depressions. Formed by evacuation of material where ice sheets have been locally frozen to the substrate, they give insights into paleo-ice-sheet dynamics. The aim of this study was to document the relationships between ancient hill-hole pairs identified on a buried glacial unconformity with the structure of the underlying sedimentary deposits, and then to determine if the basin geology and glacial fluid migration pathways promoted local subglacial freeze-on during the hill-hole pair formation. The study is based on seismic geomorphological interpretation of four high-resolution 3D seismic cubes covering an area of 800 km2 in the SW Barents Sea, and fluid seepage data from 37 gravity cores. The seismic datasets allowed the identification of 55 hill-hole pairs along the buried unconformity. The hills are characterized by chaotic to homogenous seismic facies forming up to 19 m high mounds, each covering areas of 2000–644,000 m2. The holes form depressions between 1 and 44 m deep and 2000–704,000 m2 in areal extent, which cut into preglacial Mesozoic bedrock and later infilled by glacial till. The holes are often found above fault terminations. High-amplitude reflections identified along the faults and in the strata below the holes are interpreted as shallow gas migrating upward towards the glacial unconformity. Geochemical data of the seabed sediment cores further indicates an association between hill-hole pair occurrence and present-day thermogenic hydrocarbon seepage. The hill-hole pairs geometries were also used to identify five paleo-ice-flow directions along the glacial unconformity. These ice flows exhibit polythermal regimes, and four of them are parallel to ice-stream flow sets interpreted from glacial lineations. The integrated interpretation supports localized fault-related basal freezing of the Barents Sea Ice Sheet which resulted in the formation of hill-hole pairs when the ice sheet moved. In this context, the faults functioned as migration pathways for deep thermogenic fluids, possibly sourced from leaking Jurassic reservoirs.>p> This study highlights the importance of the underlying geology for ice-sheet dynamics: While hill-hole pairs above glacial till appear to be commonly associated with dispersed gas hydrates, hill-hole pairs above bedrock additionally indicate a link to underlying fault systems and hydrocarbon reservoirs. Freeze-on of underlying bedrock to the basal ice along the strike of faults in sedimentary bedrock explains deeper hill-hole pairs with smaller extents along the glacial unconformity compared to areally larger but shallow hill-hole pairs detected above glacial till on modern seabeds. Such close association between paleo-thermogenic gas seepage and the location of hill-hole pairs strongly support that hill-hole pairs are excellent markers revealing exit points of fluid migration pathways in petroleum system models

Diabaig Dropstones

Ice-rafted dropstones in a 1,000 Ma lake, Diabaig Formation, Torridonian , Scotlan