Skip to Main Content
Skip Nav Destination
GEOREF RECORD

Tectono-sedimentary evolution of a fossil ocean-continent transition; Tasna Nappe, Central Alps (SE Switzerland)

Charlotte Ribes, Benoit Petri, Jean-Francois Ghienne, Gianreto Manatschal, Federico Galster, Garry D. Karner, Patricio H. Figueredo, Christopher A. Johnson and Anne-Marie Karpoff
Tectono-sedimentary evolution of a fossil ocean-continent transition; Tasna Nappe, Central Alps (SE Switzerland)
Geological Society of America Bulletin (November 2019) 132 (7-8): 1427-1446

Abstract

Magma-poor ocean-continent transitions at distal rifted margins record complex stratigraphic interactions engendered by extreme crustal thinning and mantle exhumation. The Tasna ocean-continent transition, exposed in the Middle Penninic Tasna nappe in eastern Switzerland, is so far the only known example where the lateral transition from continental crust to exhumed serpentinized mantle lithosphere is exposed and not overprinted by later Alpine deformation. This paper presents sedimentological, structural, and petrographical observations and detrital zircon provenance data to document: (1) the processes controlling continental hyperextension and mantle exhumation; and (2) the facies, depositional systems, sediment sources, delivery pathways, and depositional stacking patterns associated with magma-poor ocean-continent transitions. Our results show that the basement units of the Tasna ocean-continent transition are composed of prerift upper and lower crust and subcontinental mantle rocks juxtaposed as part of the continental crustal thinning process. The absence of pervasive, synrift deformation in the lower-crustal rocks indicates that the thinning was likely achieved by deformation along localized shear zones before being exhumed at the seafloor by brittle, late extensional detachment faulting and not by any form of lower-crustal flow. The age of the first sediments deposited on the continental crust and exhumed mantle, the so-called Tonschiefer Formation, is considered to be Late Jurassic. A key observation is that the restored morpho-tectonic and sedimentary evolution of the Tasna ocean-continent transition shows the intercalation of downdip, transported platform-derived sediments and along-axis-derived siliciclastic sediments originating from the recycling of prerift sediments, local basement, and/or extra-Alpine sources.


ISSN: 0016-7606
EISSN: 1943-2674
Coden: BUGMAF
Serial Title: Geological Society of America Bulletin
Serial Volume: 132
Serial Issue: 7-8
Title: Tectono-sedimentary evolution of a fossil ocean-continent transition; Tasna Nappe, Central Alps (SE Switzerland)
Affiliation: Universite de Strasbourg, Institut de Physique du Globe de Strasbourg/Ecole et Observatoire des Sciences de la Terre, Strasbourg, France
Pages: 1427-1446
Published: 20191107
Text Language: English
Publisher: Geological Society of America (GSA), Boulder, CO, United States
References: 87
Accession Number: 2020-006786
Categories: StratigraphyStructural geology
Document Type: Serial
Bibliographic Level: Analytic
Annotation: GSA Data Repository item 2020022
Illustration Description: illus. incl. sects., geol. sketch maps
N46°45'00" - N46°55'00", E10°10'00" - E10°19'60"
Secondary Affiliation: University of Texas-Austin, USA, United StatesExxonMobil Upstream Integrated Solutions Company, USA, United States
Country of Publication: United States
Secondary Affiliation: GeoRef, Copyright 2022, American Geosciences Institute. Reference includes data from GeoScienceWorld, Alexandria, VA, United States. Reference includes data supplied by the Geological Society of America, Boulder, CO, United States
Update Code: 202006
Close Modal

or Create an Account

Close Modal
Close Modal