Litcius/Paper detail

Transfer efficiency of organic carbon in marine sediments

James A. Bradley, Dominik Hülse, Douglas E. LaRowe, Sandra Arndt

2022Nature Communications52 citationsDOIOpen Access PDF

Abstract

Abstract Quantifying the organic carbon (OC) sink in marine sediments is crucial for assessing how the marine carbon cycle regulates Earth’s climate. However, burial efficiency (BE) – the commonly-used metric reporting the percentage of OC deposited on the seafloor that becomes buried (beyond an arbitrary and often unspecified reference depth) – is loosely defined, misleading, and inconsistent. Here, we use a global diagenetic model to highlight orders-of-magnitude differences in sediment ages at fixed sub-seafloor depths (and vice-versa), and vastly different BE’s depending on sediment depth or age horizons used to calculate BE. We propose using transfer efficiencies ( T eff ’s) for quantifying sediment OC burial: T eff is numerically equivalent to BE but requires precise specification of spatial or temporal references, and emphasizes that OC degradation continues beyond these horizons. Ultimately, quantifying OC burial with precise sediment-depth and sediment-age-resolved metrics will enable a more consistent and transferable assessment of OC fluxes through the Earth system.

Topics & Concepts

Seafloor spreadingSedimentTotal organic carbonDiagenesisCarbon cycleSink (geography)Environmental scienceGeologyCarbon sinkOceanographyEarth scienceClimate changePaleontologyEnvironmental chemistryEcologyChemistryGeographyEcosystemBiologyCartographyMarine and coastal ecosystemsMethane Hydrates and Related PhenomenaMarine Biology and Ecology Research