Unravelling megaturbidite deposition: Evidence for turbidite stacking/amalgamation and seiche influence during the 1601 ce earthquake at Lake Lucerne, Switzerland

Vermassen, Flor; Van Daele, Maarten; Praet, Nore; Cnudde, Veerle; Kissel, Catherine; Anselmetti, Flavio S. (2023). Unravelling megaturbidite deposition: Evidence for turbidite stacking/amalgamation and seiche influence during the 1601 ce earthquake at Lake Lucerne, Switzerland. Sedimentology, 70(5), pp. 1496-1520. Wiley 10.1111/sed.13094

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Megaturbidites are commonly used to reconstruct the seismic history (palaeo- seismology) of areas where large earthquakes occur. However, the depositional mechanisms and sedimentary characteristics of these deposits are not yet fully understood. This study unravels the sequence of sediment deposition that occurred in Lake Lucerne (Vitznau Basin) following the 1601 CE earthquake in central Switzerland. During this event, slope failures were triggered, generat- ing mass flows and turbidity currents that led to the formation of mass- transport deposits and a megaturbidite. These deposits are sampled in 28 sed- iment cores, which are examined with X-ray computed tomography scans (medical and lCT), grain-size analysis and natural remanent magnetisation. This suite of analyses allows a detailed reconstruction of turbidite stacking and amalgamation in the centre of the basin, followed by settling of finer sedi- ments influenced by a lake seiche. Initial deposition of mass-transport deposits is followed by sandy turbidites reaching the depocentre. Some of these turbidite sands can be linked to their source areas, and evidence is found of some turbidites being overridden by mass flows in the peripheral parts of the megaturbidite deposit. Hereafter, sedimentation becomes con- trolled by seiche-induced currents, which rework fine sediments upon deposi- tion, leading to subtle grain-size variations at the base of the seiche- influenced sub-unit and a ponded geometry of the megaturbidite. As the seiche movement dampens, a relatively muddy, homogeneous sub-unit is deposited that drapes the basin plain. Overall, this study provides the first highly detailed sedimentological analysis of megaturbidite deposition in a lake, demonstrating the distinct sedimentological imprint of lake seiching and turbidite amalgamation/stacking. This will improve the recognition and inter- pretation of earthquake-induced megaturbidites in other lake records or iso- lated basins, and demonstrates the value of using (l)CT scans in combination with traditional sedimentological parameters to reconstruct the depositional processes of megaturbidites.

Item Type:

Journal Article (Original Article)

Division/Institute:

08 Faculty of Science > Institute of Geological Sciences
08 Faculty of Science > Institute of Geological Sciences > Quaternary Geology

UniBE Contributor:

Anselmetti, Flavio

Subjects:

500 Science > 550 Earth sciences & geology
000 Computer science, knowledge & systems

ISSN:

0037-0746

Publisher:

Wiley

Language:

English

Submitter:

Flavio Anselmetti

Date Deposited:

06 Apr 2023 12:56

Last Modified:

21 Jul 2023 00:13

Publisher DOI:

10.1111/sed.13094

BORIS DOI:

10.48350/181566

URI:

https://boris.unibe.ch/id/eprint/181566

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