Jerram, Dougal A. et al. (2009): Understanding the offshore flood basalt sequence using onshore volcanic facies analogues; an example from the Faroe-Shetland Basin
Leg/Site/Hole:
Related Expeditions:
ODP 104 ODP 104 642
Identifier:
ID:
2009-060829
Type:
georefid
ID:
10.1017/S0016756809005974
Type:
doi
Creator:
Name:
Jerram, Dougal A.
Affiliation:
University of Durham, Department of Earth Sciences, Durham, United Kingdom
Role:
author
Name:
Single, Richard T.
Affiliation:
British Geological Survey, United Kingdom
Role:
author
Name:
Hobbs, Richard W.
Affiliation:
Uppsala University, Sweden
Role:
author
Name:
Nelson, Catherine E.
Affiliation:
Role:
author
Identification:
Title:
Understanding the offshore flood basalt sequence using onshore volcanic facies analogues; an example from the Faroe-Shetland Basin
Year:
2009
Source:
In: Jerram, Dougal A. (prefacer), Goodenough, Kathryn M. (prefacer), Troll, Valentin R. (prefacer), From the British Tertiary into the future; modern perspectives on the British Paleogene and North Atlantic igneous provinces
Publisher:
Cambridge University Press, London, United Kingdom
Volume:
146
Issue:
3
Pages:
353-367
Abstract:
Flood basalts in associated volcanic rifted margins, such as the North Atlantic Igneous Province, have a significant component of lavas which are preserved in the present day in an offshore setting. A close inspection of the internal facies architecture of flood basalts onshore provides a framework to interpret the offshore sequences imaged by remote techniques such as reflection seismology. A geological interpretation of the offshore lava sequences in the Faroe-Shetland Basin, using constraints from onshore analogues such as the Faroe Islands, allows for the identification of a series of lava sequences which have characteristic properties so that they can be grouped. These are tabular simple flows, compound-braided flows, and sub-aqueously deposited hyaloclastite facies. The succession of volcanic rocks calculated in this study has a maximum thickness in excess of 6800 m. Down to the top of the sub-volcanic sediments, the offshore volcanic succession has a thickness of about 2700 m where it can be clearly identified across much of the area, with a further 2700 m or more of volcanic rock estimated from the combined gravity and seismic modelling to the north and west of the region. A large palaeo-waterbody is identified on the basis of a hyaloclastite front/apron consisting of a series of clinoforms prograding towards the eastern part of the basin. This body was >500 m deep, must have been present at the onset of volcanism into this region, and parts of the water body would have been present during the continued stages of volcanism as indicated by the distribution of the hyaloclastite apron.
Language:
English
Genre:
Serial
Rights:
URL:
Coverage: Geographic coordinates: North:67.1330 West:-6.0000 East:
2.5548 South:60.0000
Keywords: Stratigraphy; Applied geophysics; Arctic Ocean; Atlantic Ocean; Atlantic Ocean Islands; basalts; Beinisvoro Formation; Cenozoic; Enni Formation; Europe; facies; Faeroe Islands; Faeroe Islands Group; Faeroe-Shetland Basin; flood basalts; geophysical methods; geophysical surveys; Great Britain; hyaloclastite; igneous rocks; large igneous provinces; Leg 104; lithostratigraphy; Malinstindur Formation; models; North Atlantic; North Atlantic igneous province; Norwegian Sea; Ocean Drilling Program; ODP Site 642; Paleogene; petrology; pyroclastics; rift zones; seismic methods; seismic stratigraphy; surveys; Tertiary; United Kingdom; volcanic features; volcanic rocks; Voring Plateau; Western Europe;
.