Meyers, Philip A.; Silliman, James E.; Shaw, Timothy J. (1996): Organic matter accumulation, sulfate reduction, and methane generation in a turbidite sequence on the Iberia abyssal plain. American Association of Petroleum Geologists and Society of Economic Paleontologists and Mineralogists, Tulsa, OK, United States, In: Anonymous, American Association of Petroleum Geologists 1996 annual convention, 5, 98, georefid:1997-017560
Abstract:
Organic matter can be transferred and redeposited from continental margins to the deep-sea by turbidity currents and slumps. An opportunity to investigate the consequences of turbidite deposition on sediment organic matter was provided by a transect of four closely spaced drill sites sampled during ODP Leg 149 in a Pliocene-Pleistocene distal turbidite sequence on the landward edge of the Iberia Abyssal Plain. Organic carbon concentrations average ca 0.7% in sediments from sites 897 and 898 and ca 0.4% at Sites 899 and 900. Headspace concentrations of interstitial methane exceed 100,000 ppm in sediments from sites 897 and 898 but are essentially zero in those from sites 899 and 900. Methane concentrations do not rise until interstitial sulfate concentrations are virtually depleted, suggesting the presence of deep in situ methanogenic bacterial activity at sites 897 and 898 and its absence at sites 899 and 900. Two factors associated with the turbidity flows that created the sedimentary sequence evidently influenced post-depositional diagenesis at these sites. The principal factor is that the rapidly deposited turbidite sequences at sites 897 and 898 protected organic matter from oxic, early degradation and thereby permitted anoxic, later degradation to proceed. In contrast, organic matter in the more slowly deposited turbidites at sites 899 and 900 was oxidized soon after deposition and was therefore not available for later microbial utilization. A lesser factor is that the turbidity flows may have obtained their entrained organic matter from different environments and consequently delivered organic matter with different characteristics.
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West: -15.3000 East: -10.2000 North: 41.0000 South: 39.0000
West: NaN East: NaN North: NaN South: NaN
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