Reburial of fossil organic carbon in marine sediments

Abstract

Marine sediments act as the ultimate sink for organic carbon, sequestering otherwise rapidly cycling carbon for geologic timescales^1,2. Sedimentary organic carbon burial appears to be controlled by oxygen exposure time in situ^3,4, and much research has focused on understanding the mechanisms of preservation of organic carbon⁵. In this context, combustion-derived black carbon has received attention as a form of refractory organic carbon that may be preferentially preserved in soils^6,7 and sediments^8,9. However, little is understood about the environmental roles, transport and distribution of black carbon. Here we apply isotopic analyses to graphitic black carbon samples isolated from pre-industrial marine and terrestrial sediments. We find that this material is terrestrially derived and almost entirely depleted of radiocarbon, suggesting that it is graphite weathered from rocks, rather than a combustion product. The widespread presence of fossil graphitic black carbon in sediments has therefore probably led to significant overestimates of burial of combustion-derived black carbon in marine sediments. It could be responsible for biasing radiocarbon dating of sedimentary organic carbon, and also reveals a closed loop in the carbon cycle. Depending on its susceptibility to oxidation, this recycled carbon may be locked away from the biologically mediated carbon cycle for many geologic cycles.