Onset of oxidative weathering of continents recorded in the geochemistry of ancient glacial diamictites

Glacial diamictites deposited in the Mesoarchean, Paleoproterozoic, Neoproterozoic, and Paleozoic eras record temporal variations in their average compositions that reflect the changing composition of the upper continental crust (UCC). Twenty six of the 27 units studied show elevated chemical index...

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Bibliographic Details
Published in:Earth and planetary science letters 2014-12, Vol.408, p.87-99
Main Authors: Gaschnig, Richard M., Rudnick, Roberta L., McDonough, William F., Kaufman, Alan J., Hu, Zhaochu, Gao, Shan
Format: Article
Language:English
Subjects:
Atmospherics
Continents
Depletion
Deposition
diamictite
glaciation
Great Oxidation Event
oxygen
Paleozoic Era
Precambrian
Signatures
Sulfur isotopes
upper continental crust
Weathering
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Summary:Glacial diamictites deposited in the Mesoarchean, Paleoproterozoic, Neoproterozoic, and Paleozoic eras record temporal variations in their average compositions that reflect the changing composition of the upper continental crust (UCC). Twenty six of the 27 units studied show elevated chemical index of alternation (CIA) and low Sr abundances, regardless of their age, documenting pervasive weathering of the average UCC. Lower abundances of transition metals reflect a shift towards more felsic crustal compositions after the Archean. Superimposed on this chemical difference is the signal of the rise of oxidative weathering of the continents, recorded by changes in the absolute and relative abundances of the redox sensitive elements Mo and V. Neoproterozoic and Paleozoic diamictites show pervasive depletion in Mo and V, reflecting their loss from the continents due to increasing intensity of oxidative weathering, as also recorded in some of the Paleoproterozoic diamictites. A few of the Paleoproterozoic diamictites deposited after the Great Oxidation Event show no depletion in Mo and V (e.g., Gowganda), but such signatures could be inherited from their provenance. In contrast, the pre-GOE Duitschland diamictite (ca. 2.3–2.5 Ga) from South Africa reveals evidence of intense oxidative weathering (i.e., large depletions in Mo), supporting a growing body of observations showing the presence of measurable atmospheric oxygen prior to permanent loss of the mass independent fractionation signal in sulfur isotopes. •Evolution of upper continental crust tracked by glacial tillites of different ages.•Crust has become more felsic with time.•Progressive depletion of Mo, V, and Cr tracks rise of oxidative weathering.•Evidence for some oxidative weathering before GOE from Duitschland Formation.
ISSN:0012-821X
1385-013X
DOI:10.1016/j.epsl.2014.10.002