Microbial methane generation and gas transport in shallow sediments of an accretionary complex, southern hydrate ridge (ODP Leg 204), offshore Oregon, USA Public Deposited

http://ir.library.oregonstate.edu/concern/defaults/sf268b030

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  • Sediments at the southern summit of Hydrate Ridge display two distinct modes of gas hydrate occurrence. The dominant mode is associated with active venting of gas exsolved from the accretionary prism and leads to high concentrations (15%–40% of pore space) of gas hydrate in seafloor or near-surface sediments at and around the topographic summit of southern Hydrate Ridge. These near-surface gas hydrates are mainly composed of previously buried microbial methane but also contain a significant (10%–15%) component of thermogenic hydrocarbons and are overprinted with microbial methane currently being generated in shallow sediments. Focused migration pathways with high gas saturation (>65%) abutting the base of gas hydrate stability create phase equilibrium conditions that permit the flow of a gas phase through the gas hydrate stability zone. Gas seepage at the summit supports rapid growth of gas hydrates and vigorous anaerobic methane oxidation. The other mode of gas hydrate occurs in slope basins and on the saddle north of the southern summit and consists of lower average concentrations (0.5%–5%) at greater depths (30–200 meters below seafloor [mbsf]) resulting from the buildup of in situ–generated dissolved microbial methane that reaches saturation levels with respect to gas hydrate stability at 30–50 mbsf. Net rates of sulfate reduction in the slope basin and ridge saddle sites estimated from curve fitting of concentration gradients are 2–4 mmol/m³/yr, and integrated net rates are 20–50 mmol/ m²/yr. Modeled microbial methane production rates are initially 1.5 mmol/m³/yr in sediments just beneath the sulfate reduction zone but rapidly decrease to rates of <0.1 mmol/m³/yr at depths >100 mbsf. Integrated net rates of methane production in sediments away from the southern summit of Hydrate Ridge are 25–80 mmol/m²/yr. Anaerobic methane oxidation is minor or absent in cored sediments away from the summit of southern Hydrate Ridge. Ethane-enriched Structure I gas hydrate solids are buried more rapidly than ethane-depleted dissolved gas in the pore water because of advection from compaction. With subsidence beneath the gas hydrate stability zone, the ethane (mainly of low-temperature thermogenic origin) is released back to the dissolved gas-free gas phases and produces a discontinuous decrease in the C₁/C₂ vs. depth trend. These ethane fractionation effects may be useful to recognize and estimate levels of gas hydrate occurrence in marine sediments.
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  • Claypool, G. E., Milkov, A. V., Lee, Y. ­J., Torres, M. E., Borowski, W. S. and Tomaru, H., 2006, Microbial Methane Generation and Gas Transport in Shallow Sediments of an Accretionary Complex, Southern Hydrate Ridge (ODP Leg 204), Offshore Oregon USA, in Proceedings of the Ocean Drilling Program, Scientific Results, edited by Trehu, A. M., Bohrmann, G., Torres, M. E. and Colwell, F. S., Ocean Drilling Program, College Station, Texas. [Online]. Available from World Wide Web: http://www-odp.tamu.edu/publications/204_SR/204sr.htm.
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  • description.provenance : Submitted by Mary Phan (mpscanner@gmail.com) on 2009-12-21T19:50:04Z No. of bitstreams: 1 Torres_IODP 2006_MicrobialMethaneGeneration.pdf: 676993 bytes, checksum: 8df4c9617ebb3c7198bd220fc6d35e12 (MD5)
  • Vol. 204 (2006)
  • Proceedings of the Ocean Drilling Program, scientific results
  • description.provenance : Made available in DSpace on 2009-12-21T23:24:07Z (GMT). No. of bitstreams: 1 Torres_IODP 2006_MicrobialMethaneGeneration.pdf: 676993 bytes, checksum: 8df4c9617ebb3c7198bd220fc6d35e12 (MD5) Previous issue date: 2006
  • description.provenance : Approved for entry into archive by Linda Kathman(linda.kathman@oregonstate.edu) on 2009-12-21T23:24:07Z (GMT) No. of bitstreams: 1 Torres_IODP 2006_MicrobialMethaneGeneration.pdf: 676993 bytes, checksum: 8df4c9617ebb3c7198bd220fc6d35e12 (MD5)
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  • 1930-1014

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