Dissociation of oceanic methane hydrate as a cause of the carbon isotope excursion at the end of the Paleocene

Abstract

Isotopic records across the “Latest Paleocene Thermal Maximum“ (LPTM) indicate that bottom water temperature increased by more than 4°C during a brief time interval (4 years) of the latest Paleocene (∼55.6 Ma). There also was a coeval −2 to −3‰ excursion in the δ¹³C of the ocean/atmosphere inorganic carbon reservoir. Given the large mass of this reservoir, a rapid δ¹³C shift of this magnitude is difficult to explain within the context of conventional hypotheses for changing the mean carbon isotope composition of the ocean and atmosphere. However, a direct consequence of warming bottom water temperature from 11 to 15°C over 10⁴ years would be a significant change in sediment thermal gradients and dissociation of oceanic CH₄ hydrate at locations with intermediate water depths. In terms of the present‐day oceanic CH₄ hydrate reservoir, thermal dissociation of oceanic CH₄ hydrate during the LPTM could have released greater than 1.1 to 2.1 × 10¹⁸ g of carbon with a δ¹³C of approximately −60‰. The release and subsequent oxidation of this amount of carbon is sufficient to explain a −2 to −3‰ excursion in δ¹³C across the LPTM. Fate of CH₄ in oceanic hydrates must be considered in developing models of the climatic and paleoceanographic regimes that operated during the LPTM.