Supplementary material from "Aluminosilicate haloes preserve complex life approximately 800 million years ago"

Mudstone-hosted microfossils are a major component of the Proterozoic fossil record, particularly dominating the record of early eukaryotic life. Early organisms possessed no biomineralized parts to resist decay and controls on their fossilization in mudstones are poorly understood. Consequently, th...

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Bibliographic Details
Main Authors: Anderson, Ross P., Tosca, Nicholas J., Gianfelice Cinque, Frogley, Mark D., Lekkas, Ioannis, Akey, Austin, Hughes, Gareth M., Bergmann, Kristin D., Knoll, Andrew H., Briggs, Derek E.G.
Format: Article in Journal/Newspaper
Language:unknown
Published: The Royal Society 2020
Subjects:
20101 Astrobiology
FOS Physical sciences
Arctic
Svalbard
Canada
Burgess
Svanbergfjellet
Online Access:https://dx.doi.org/10.6084/m9.figshare.c.4963142
https://rs.figshare.com/collections/Supplementary_material_from_Aluminosilicate_haloes_preserve_complex_life_approximately_800_million_years_ago_/4963142
Description
Summary:Mudstone-hosted microfossils are a major component of the Proterozoic fossil record, particularly dominating the record of early eukaryotic life. Early organisms possessed no biomineralized parts to resist decay and controls on their fossilization in mudstones are poorly understood. Consequently, the Proterozoic fossil record is compromised—we do not know whether changing temporal/spatial patterns of microfossil occurrences reflect evolution or the distribution of favourable fossilization conditions. We investigated fossilization within the approximately 1000 Mya Lakhanda Group (Russia) and the approximately 800 Mya Svanbergfjellet and Wynniatt formations (Svalbard and Arctic Canada). Vertical sections of microfossils and surrounding matrices were extracted from thin sections by focused ion beam milling. Elemental mapping and synchrotron-based infrared microspectroscopy revealed that microfossils are surrounded by haloes rich in aluminium, likely hosted in kaolinite. Kaolinite has been implicated in Cambrian Burgess Shale-type (BST) fossilization and is known to slow the growth of degraders. The Neoproterozoic mudstone microfossil record may be biased to tropical settings conducive to kaolinite formation. These deposits lack metazoan fossils even though they share fossilization conditions with younger BST deposits that are capable of preserving non-mineralizing metazoans. Thus metazoans, at least those typically preserved in BST deposits, were likely absent from sedimentary environments before approximately 800 Mya.

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