Downstream changes of large-scale bed forms in turbidites around the Valencia channel mouth, north-west Mediterranean: Implications for palaeoflow reconstruction

Morris, S. A., Kenyon, N. H., Limonov, A. F. and Alexander, J. ORCID: https://orcid.org/0000-0002-2830-2727 (1998) Downstream changes of large-scale bed forms in turbidites around the Valencia channel mouth, north-west Mediterranean: Implications for palaeoflow reconstruction. Sedimentology, 45 (2). pp. 365-377. ISSN 1365-3091

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Abstract

Side-scan sonar, seismic and core data are used to identify mega-flutes, transverse and ‘V’ shaped bedforms in turbidites around the Valencia channel mouth, north-west Mediterranean. Long-range side-scan sonar data reveal a broad, curved, asymmetric, channel, that widens and terminates downfan. The western channel bank near the channel mouth has been partly eroded by turbidity currents that spilled out of the channel. Transverse bedforms on the east of the channel floor are interpreted as antidunes and, if this interpretation is correct, they indicate that the flow was probably supercritical at least locally within the channel. Trains of mega-flutes, are incised into coarse-grained sediments of the channel floor near the channel mouth. The association of mega-flutes and antidunes is thought to be diagnostic of channel–lobe transitions on deep-sea fans. The mega-flutes pass downfan into an area of streaks that diverge at up to 45° and indicates flow expansion from the channel mouth. About 75 km downfan from the channel mouth, deep-towed side-scan data record transverse bedforms (interpreted as antidunes) passing downfan into an area covered by ‘V’ shaped bedforms with upflow pointing apices (named chevrons here). The chevrons are commonly c. 200 m from limb to limb and c. 2 m in amplitude with flow-parallel wavelengths of c. 400 m. We propose that chevrons were formed by a strong, probably supercritical (or near critical) turbidity current spreading from the channel mouth and flowing towards the Balearic Abyssal Plain. Thinning of the turbidity current, resulting from flow spreading would allow the Froude number to remain high up to 100 km from the channel mouth and could explain the observed reduction in antidune wavelength.

Item Type:	Article
Faculty \ School:	Faculty of Science > School of Environmental Sciences
UEA Research Groups:	Faculty of Science > Research Groups > Geosciences Faculty of Science > Research Groups > Geosciences and Natural Hazards (former - to 2017)
Depositing User:	Rosie Cullington
Date Deposited:	29 Mar 2011 13:21
Last Modified:	24 Jul 2024 11:30
URI:	https://ueaeprints.uea.ac.uk/id/eprint/27443
DOI:	10.1046/j.1365-3091.1998.0160f.x

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