3D macro- and microfabric analyses of Neoproterozoic diamictites from the Valjean Hills, California (United States)

Author(s)

C. Kettler, E. Phillips, K. Pichler, D. Smrzka, T. M. Vandyk, D. P. Le Heron

Abstract

The Cryogenian interval (720–635 Ma) is famous for a rich archive of diamictites, many of which were deposited during glaciations. Classic examples are exposed in the Kingston Peak Formation of the Valjean Hills, near Death Valley (United States), with previous work pointing to multiple glacial cycles in other outcrop belts. Within any glacial period, diamictites are widespread, and in addition, their mechanics of deposition are highly variable. Some are massive in appearance at outcrop or in hand specimens and apparently lack any information that allows their mode of emplacement to be elucidated. Yet, the correct interpretation for deep-time successions in this area is especially important, since it is debated whether the diamictites are either associated with a tectonically driven origin, associated with rifting at the south-western Laurentian margin alongside slope-controlled gravitational mass movement, or predominantly deposited as (sub)glacial diamictites. In this paper, we demonstrate how diamictite texture can be objectively quantified based on clast orientations, at both macroscale and microscale (micromorphology), guiding interpretations. Our method is based on a technique used for Quaternary sediments, by mapping the apparent longest axes of skeleton grains (ranging from fine-grained sand to fine-grained pebbles) in oriented thin sections and reconstructing their microfabric in a 3D space coupled with macrofabric data for each diamictite. In this way, we could identify a bimodal signal in the orientation of the longest axes for each sample. Evidence for shearing and soft sediment deformation supports either subaqueous or subglacial deposition with deformation induced by basal sliding with a paleoflow directed toward the southeast. Our combined approach of micro- and macrofabric analyses can also encourage acquiring accurate fabric data for seemingly structureless diamictites from other deep-time rock archives in an objective manner.

Organisation(s)

Department of Geology

External organisation(s)

The Lyell Centre, Jacobs Universität Bremen, University of London

Journal

Frontiers in Earth Science

Volume

11

ISSN

2296-6463

DOI

https://doi.org/10.3389/feart.2023.929011

Publication date

05-2023

Peer reviewed

Yes

Austrian Fields of Science 2012

105101 General geology

Keywords

ASJC Scopus subject areas

General Earth and Planetary Sciences

Portal url

https://ucrisportal.univie.ac.at/en/publications/200b50db-fff1-43ae-9d52-8ab0b00438f3