The Ediacaran record of glaciogenic dropstones, diamictites and cap carbonates associated with non-metamorphosed banded iron formations (BIFs) in Iran

The Ediacaran record of glaciogenic dropstones, diamictites and cap carbonates associated with non-metamorphosed banded iron formations (BIFs) in Iran

[Display omitted] •Ediacaran glaciogenic dropstones, diamictites and cap carbonates-BIFs associations.•The dropstones occur as lone-stones as well as dump-stones.•The ferruginous diamictites occur in a jaspilitic magnetite-hematite (BIFs) matrix.•The cap carbonates overlie the BIFs, diamictites and...

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Veröffentlicht in:Precambrian research 2022-08, Vol.378, p.106740, Article 106740
Hauptverfasser: Aftabi, Alijan, Atapour, Habibeh, Mohseni, Sadegh
Format: Artikel
Sprache:eng
Schlagworte:
Cap carbonates
Dropstones
Ediacaran submarine synglaciovolcanism
Ferruginous diamictites
Iran
Jaspilitic BIFs
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Zusammenfassung:[Display omitted] •Ediacaran glaciogenic dropstones, diamictites and cap carbonates-BIFs associations.•The dropstones occur as lone-stones as well as dump-stones.•The ferruginous diamictites occur in a jaspilitic magnetite-hematite (BIFs) matrix.•The cap carbonates overlie the BIFs, diamictites and contain dropstones.•C-O isotopes, REEs and variation diagrams reflect Ediacaran glacial events. The Ediacaran period is marked by global icehouse episode, greenhouse period, increasing levels of oxygen-carbon dioxide, syn-glaciogenic structures-BIFs, typical Ediacaran biota and a marked negative carbon isotope excursion. On this global point, field glaciogenic structures, petrographic textures, Ediacaran biota, U-Pb zircon ages, C-O isotopes and geochemical data record an Ediacaran glaciogenic BIFs event in Iran. The Ediacaran (578–547 or 578–541.8 Ma) glaciogenic sequences in Bafq and Hormuz Island mining districts include submarine syn-glaciovolcanic rhyolitic rocks, rhyolitic tuffs, shaly tuffaceous carbonates, dropstone-bearing jaspilitic BIFs, salt minerals, ferruginous diamictites, and cap carbonates. The presence of polygonal, bullet-shape and flatiron forms of gneiss, greenschist, quartz schist, quartzite, marble and magnetite-hematite clasts in a matrix of jaspilitic magnetite-hematite, muddy sandstones and muddy dolomitic rocks records an Ediacaran glaciogenic event. The dropstones occur as lone-stones, dump-stones and deflect their underlying layers. The diamictites contain similar clasts to those of the dropstones, are gradationally covered by buff to dark-grey cap carbonates ± dropstones and resemble the Ghaub, Chuos and Kingston Peak Formation diamictites. C-O isotopes, REE+Y diagrams, high Y/Ho ratios, positive Eu-Y anomalies and subtle Ce anomaly possibly reflect a possible hydrothermal origin for the cap carbonates. Delta 13C values (−0.42 to −6.33‰) in cap carbonates show similar negative signatures to the Ediacaran Shuram glaciogenic event. Average delta 18O (−8.34‰) in the least-altered cap carbonates gives a precipitation temperature of 252.7 °C in the waning stage of the glaciogenic BIFs-hydrothermal system.
ISSN:0301-9268
1872-7433
DOI:10.1016/j.precamres.2022.106740