Dissolved organic carbon (DOC) concentrations in the deep Black Sea are similar to 2.5 times higher than found in the global ocean. The two major external sources of DOC are rivers and the Sea of Marmara, a transit point for waters from the Mediterranean Sea. In addition, expansive phytoplankton blooms contribute autochthonous carbon to the Black Sea's similar to 800 Tg C DOC reservoir. Here, a basin-wide zonal section of DOC is explored using data from the 2013 Dutch GEOTRACES GA04-N, cruise 64PE373. DOC distributions are interpreted with respect to well-described hydrographic and biogeochemical layers of the Black Sea. Observed DOC concentrations were >180 mu mol kg(-1) at the surface, decreasing to similar to 125 mu mol kg(-1) at the base of the oxic layer and reaching a minimum of similar to 113 mu mol kg(-1) in the upper anoxic layer between similar to 150 and 500 m. At greater depths the concentrations increased; maximum anoxic layer concentrations of 122 mu mol kg(-1) were found in the homogeneous benthic bottom layer (>1775 m). Concentrations are then predicted based on conservation with respect to salinity using linear end-member mixing models, and predictions are compared with observations to estimate net removal (i.e., deficits) and accumulation (i.e., surpluses). A maximum surplus of similar to 10 mu mol kg(-1) was identified at the surface, likely due to local primary production. DOC exported to depth was non-conservative: up to similar to 34-41 mu mol kg(-1) was removed from the basin's oxic layer in <5 years, and an additional 13 +/- 5 mu mol kg(-1) was removed from the anoxic layer during its similar to 300 to 600-year residence time, given steady state. These deficits represent a removal of similar to 19% in the oxic water and a further removal of-10% under anoxia, for a net removal of 48 mu mol kg(-1) (or similar to 29%) of allochthonous DOC, with respect to predicted concentrations. We find no evidence for DOC accumulation (i.e., net production) in the anoxic Black Sea, and suggest that concentrations are elevated relative to the ocean due to input of terrigenous DOC from rivers; we estimate that >50% of DOC in the deep Black Sea is terrigenous. The Black Sea's relatively elevated DOC pool may be analogous to a hypothesized anoxic Eocene ocean's elevated reservoir only if the Eocene ocean received a substantial amount of terrigenous DOC.

• 出版日期2016-7-20