Abstract
The Paleoproterozoic Francevillian succession of Gabon has figured prominently in concepts
about Earth’s early oxygenation and genesis of a large positive excursion in carbon-isotope
values, the Lomagundi-Jatuli event (LJE). Here we present a detailed study of a
139-m-long core of Francevillian rocks marked by carbonate δ13C (δ13Ccarb) values of 5‰–9‰
that decline upsection to near 0‰, a trend inferred by many workers as a fingerprint of the
LJE and its termination. However, we show that the shift in δ13Ccarb values coincides with
a facies change: shallow-marine facies are marked by the strongly positive values, whereas
deeper-marine facies (below storm wave base) are at ~0‰. The most circumspect interpretation
of such facies dependence of δ13Ccarb is that shallow-marine settings record the isotope
effects of local physical and biochemical processes driving the ambient dissolved inorganic
carbon (DIC) pool to heavier values, and the lighter values (~0‰) in deeper-water facies
track the DIC of the open-marine realm where δ13C was largely unaffected by fractionations
occurring in shallow-water settings. Further, a transgressing redoxcline created conditions for
precipitation of Mn-bearing minerals and chemotrophic microbial biota, including methane
cycling communities evident by organic δ13C (δ13Corg) values of –4‰ and Δδcarb-org values as
high as 46‰. Thus, the Francevillian C-isotope profile reflects basin-specific conditions and
is not a priori an indicator of global C-cycle disturbances nor of the termination of the LJE.
Original language | English |
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Number of pages | 6 |
Journal | Geology |
Volume | Early View |
Early online date | 21 Jul 2020 |
DOIs | |
Publication status | E-pub ahead of print - 21 Jul 2020 |