NEOGENE GROWTH OF THE SEDIMENTARY ORGANIC-CARBON RESERVOIR

We develop a recycling model using C-13/C-12 mass balance for net grow th/loss of the sedimentary organic carbon (C-org) reservoir, and apply it to the Neogene bulk marine carbonate delta(13)C record. The model allows for variations in photosynthetic fractionation factors, carbon cycling rates, and the isotopic composition of riverine carbon inputs to the oceans, The sign of the net flux term is controlled by the diff erence between fractional C-org burial and fractional C-org weathering , independent of any variations in carbon cycling rate, These terms ar e in turn estimated from the carbon isotope mass balance of newly depo sited and weathered sediments, respectively, The magnitude of the net flux is sensitive to the global carbon cycling (erosion/deposition) ra te, which may be estimated by the use of the records of radiogenic iso topic variations (Nd, Sr) in paleoseawater. A key observation and inpu t to the model is that photosynthetic carbon isotope fractionation by both marine algae and terrestrial plants has decreased during the Ceno zoic, Incorporating time-dependent carbon isotope fractionation into t he model shows that the sedimentary C-org reservoir has grown througho ut most of the Neogene, even as marine delta(13)C values fell after 14 Ma, A similar result is obtained if the variation in the marine delta (13)C record is largely caused by changes in the carbon isotopic compo sition of river fluxes to the oceans, rather than changes in the organ ic/inorganic ratio of output to the burial sink. The growth of the sed imentary organic carbon reservoir requires that the Neogene sedimentar y carbon cycle was a net source of O-2 and a net sink of CO2 to the at mosphere, at least until the Plio-Pleistocene. As a consequence, Neoge ne CO2 consumption by silicate weathering cannot be balanced by oxidat ion of sedimentary C-org, placing a significant constraint on global c arbon balance models. A related prediction of our model is that atmosp heric O-2 levels rose during the Neogene.