Abstract
Early diagenetic chert nodules and beds in the upper Mesoproterozoic Angmaat (formerly Society Cliffs) Formation, Baffin and Bylot islands, preserve microfossils and primary petrofabrics that record microbial mat deposition and lithification across a range of peritidal carbonate environments. Five distinct microfossil assemblages document the distribution of mat-building and mat-dwelling populations across a gradient from restricted, frequently exposed flats to more persistently subaqueous environments. Mats built primarily by thin filamentous or coccoidal cyanobacteria give way to a series of more robust forms that show increasing assemblage diversity with decreasing evidence of subaerial exposure. Distinct fabric elements are associated with each microbial assemblage, and aspects of these petrofabrics are recognizably preserved within unsilicified carbonate in the same beds. These include some features that are distinctly geologic in nature (e.g., seafloor cements) and others that reflect microbial growth and decomposition (e.g., tufted microbialites). A particularly distinctive, micronodular fabric is here interpreted as carbonate infilling of primary voids within microbial mat structures. Such structures mark the co-occurrence of cyanobacterial photosynthesis that produced oxygen gas, filamentous mat builders that imparted the coherence necessary to trap gas bubbles, elevated carbonate saturation required to preserve void fabrics via penecontemporaneous cementation, and a relative paucity of detrital sediment that would have inhibited mat growth. Petrofabrics preserved in Angmaat samples are widespread in upper Paleoproterozoic and Mesoproterozoic carbonate successions but are rare thereafter, perhaps recording, at least in part, the declining carbonate saturation state of seawater. Covariation of microfossil assemblages with petrofabrics in both silicified and unsilicified portions of carbonate beds supports hypotheses that link stromatolite microstructure to the composition and diversity of mat communities.
Highlights
Stromatolites constitute the most conspicuous record of life in Proterozoic sedimentary rocks
Silicified fabrics, in turn, can be compared directly to textures preserved in unsilicified carbonate in the same beds, allowing us to address the question of how microbial community composition relates to mat fabric in selected Proterozoic carbonate successions
Petrographic variations suggest that the principal petrofabrics identified in Angmaat chert can be ordered along a gradient of decreasing environmental restriction and subaerial exposure, identified on the basis of variations in seafloor carbonate precipitates and evidence for postdepositional dissolution (Fig. 14)
Summary
Stromatolites constitute the most conspicuous record of life in Proterozoic sedimentary rocks. Within a single thin section, stratiform precipitates and coccoid mats can be interbedded with mats formed by fine filamentous cyanobacteria that trapped gas bubbles preserved as cement-filled primary void space (Fig. 11). These two biofacies/microfabrics must have been contiguous on the Angmaat platform. Within thin sections of flat-laminated filamentous mats, a few laminae are texturally and paleobiologically distinct These layers commonly contain poorly preserved Eoentophysalis populations, but they are dominated by large colonial coccoids assigned to Eogloeocapsa bella Golovenok and Belova (1984) Clearly distinguished in chert nodules, filamentous and Eogloeocapsa-rich layers are difficult to tell apart in unsilicified carbonate beds
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