The seabed geomorphology and geological structure of the Firth of Lorn, western Scotland, UK, as revealed by multibeam echo-sounder survey
Howe, John A.; Anderton, Roger; Arosio, Riccardo; Dove, Dayton; Bradwell, Tom; Crump, Philip; Cooper, Rhys; Cocuccio, Andre. 2015 The seabed geomorphology and geological structure of the Firth of Lorn, western Scotland, UK, as revealed by multibeam echo-sounder survey. Earth and Environmental Science Transactions of the Royal Society of Edinburgh, 105 (4). 273-284. 10.1017/S1755691015000146
Full text not available from this repository. (Request a copy)Abstract/Summary
This paper presents recently collected swath bathymetry from the Firth of Lorn. 553 km2 of data were collected during 2012–2013 as part of the INIS Hydro (Ireland, Northern Ireland and Scotland Hydrographic Survey) programme. The area proves to consist of bedrock-dominated seabed, divided into narrow, stratigraphicallyconstrained and glacially-over-deepened basins. The bedrock is composed of late Proterozoic Dalradian metasediments overlain unconformably by Old Red Sandstone (ORS) sediments and lavas of ?Silurian-age. The central region of the Firth of Lorn is dominated by a vertical cliff, up to 150 m high and extending for approximately 24 km. This feature, here termed the Insh Fault, may have originated as a Dalradian extensional fault, been reactivated as an ORS feature and now forms a fault-line scarp with resistant ORS rocks on the downthrown side, flanking the more deeply eroded metasediments exposed in the basin. Tertiary intrusives are common, in particular, swarms of Paleocene dolerite dykes exposed on the sediment-free bedrock surfaces, and can be traced for many kilometres. Evidence for past glaciation is widespread, manifest in the extensive erosion of the bedrock platforms and the abundance of well-preserved moraines and over-deepened basins. The survey region includes the Corryvreckan Whirlpool and Great Race, beneath the tidal flows of which occur submarine dunes.
Item Type: | Publication - Article |
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Digital Object Identifier (DOI): | 10.1017/S1755691015000146 |
ISSN: | 1755-6910 |
Date made live: | 23 Dec 2015 15:13 +0 (UTC) |
URI: | https://nora.nerc.ac.uk/id/eprint/512519 |
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