• Chemostratigraphic record of the Great Oxidation Event in the Paleoproterozoic oceans. • Expansion of the Lomagundi Carbon Isotope Excursion in the Paleoproterozoic oceans. • Francevillian Basin and Paleoproterozoic oceans connection during the Lomagundi Carbon Isotope Excursion. • End of the Lomagundi Carbon Isotope Excursion recorded in the Paleoproterozoic Francevillian Group. • Tectonic evolution of the Paleoproterozoic Francevillian Basin. The 2.2–2.06 Ga Lomagundi Carbon Isotope Excursion (LCIE), Earth’s most pronounced and long-lasting carbon isotope anomaly, corresponds to the latter part of the Great Oxidation Episode (GOE), but its timing is poorly constrained, and recent work shows facies-dependent δ 13 C variations in restricted nearshore settings, challenging its interpretation as a global Paleoproterozoic ocean signal. The end of the LCIE has been recognized in the Francevillian Group, an exceptionally well-preserved, unmetamorphosed Paleoproterozoic succession in southeastern Gabon. However, uncertainties in basin evolution and depositional ages have limited interpretations. To address this, we combined detrital zircon U-Pb geochronology, based on two independent methods, with geochemical analyses for the FB to FD formations. The results of the two methods show a consistent signal of a tectonic evolution from extensional (rift to passive margin) to convergent (foreland) settings and indicate that the Francevillian Basin was connected to the global ocean both during the LCIE peak (ca. 2.13 Ga, FB Formation) and its termination (ca. 2.08 Ga, FC–FD transition). Integrating these data with geochronologic constraints from other open-marine carbonate successions characterized by high δ 13 C values demonstrates a synchronous end to the LCIE between ca. 2.13 and 2.08 Ga. This implies that the LCIE reflects global-scale biogeochemical and redox processes rather than local, basin-scale processes. The Francevillian Group record thus provides critical insights into the GOE, early biospheric innovations and ecosystem evolution.
Djeutchou et al. (Wed,) studied this question.