Oceanographic controls on the accumulation of organic matter in marine sediments

Abstract

Summary The concentration of organic matter in marine deposits depends on the relative rates of accumulation of the various sedimentary components and the ease with which these components are preserved after burial. The supply of organic matter to any area of sea floor is controlled by the primary production rate in the surface ocean and the depth through which particulate material must settle. The accumulation of organic matter in sediments depends on the primary setting flux and on the bulk sedimentation rate, more carbon surviving decomposition where it is buried rapidly. The preferential preservation of organic matter under anoxic conditions, a widely-accepted explanation for the formation of sapropels, black shales and petroleum source beds, is considered to be of secondary importance in governing the accumulation of carbon in marine deposits. The modern sediments of the Black Sea, a widely-used analogue of the environment of black shale formation, do not have exceptionally high carbon contents, although an earlier sapropel is known to have formed during the change from an oxic lake to an anoxic marine basin. Likewise, the available information on modern anoxic fjords shows that they do not have sediments containing more carbon than their oxic counterparts. And finally, the inverse correlation between the carbon content of slope sediments and the oxygen content of the near-bottom waters in areas where the oxygen minimum intersects the sea floor is shown to be one of coincidence and understandable on the basis of the relationship between sedimentary carbon levels and other sediment properties. The supply of organic matter to marine deposits, controlled by the primary production rate, and the bulk sedimentation rate appear to be the most important factors which determine the organic content of sediments. Recent work on the location of former upwelling centres suggests that variations in palaeoproductivity may be responsible for the formation of many organic-rich rocks and may provide a better basis for predicting the location of petroleum source beds in the geological record.