Methane-induced early diagenesis of foraminiferal tests in the southwestern Greenland Sea

Planktic and epibenthic foraminiferal δ¹³C records at Site PS62/015-3 (southwestern Greenland Sea) reveal a series of transient events of extreme ¹³C depletion down to − 6‰ during the period 90–40 ka. Scanning electron microscope studies of the ultrastructures of foraminiferal tests suggest that ¹³C depleted specimens are affected by some 10–20% overgrowth by authigenic calcite contributing to the light δ¹³C signal. Incremental-leaching experiments and census counts of pristine versus overgrowth-affected specimens show that the ¹³C depleted foraminiferal tests incorporate a primary δ¹³C signature most likely ranging from + 1‰ to − 1.7‰ and a post-depositional δ¹³C signature around − 17‰ to − 19.5‰. Extremely low values of productivity and organic carbon in Late Quaternary sediments along the east Greenland margin preclude organic matter as potential source of the isotopically light carbon. In contrast, thermal instability of clathrates and subsequent aerobic oxidation of (highly ¹²C enriched) methane in pore and ocean water provide a compelling mechanism to account for the negative δ¹³C excursions of both primary and post-depositional carbonates. Here, pore water methane may have led to a supersaturation of ¹³C depleted bicarbonate and precipitation of isotopically light authigenic calcite on and in foraminiferal tests, a feature that may serve as a tracer to former sites of clathrate destabilization.