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Estimates of biogenic methane production rates in deep marine sediments at Hydrate Ridge, Cascadia Margin

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Title Estimates of biogenic methane production rates in deep marine sediments at Hydrate Ridge, Cascadia Margin
Names Colwell, Frederick (creator)
Boyd, S. (creator)
Delwiche, M. E. (creator)
Phelps, T. J. (creator)
Newby, D. T. (creator)
Date Issued 2008-06 (iso8601)
Abstract Methane hydrate found in marine sediments is thought to contain gigaton quantities of methane and is
considered an important potential fuel source and climate-forcing agent. Much of the methane in hydrates is
biogenic, so models that predict the presence and distribution of hydrates require accurate rates of in situ
methanogenesis. We estimated the in situ methanogenesis rates in Hydrate Ridge (HR) sediments by coupling
experimentally derived minimal rates of methanogenesis to methanogen biomass determinations for discrete
locations in the sediment column. When starved in a biomass recycle reactor, Methanoculleus submarinus
produced ca. 0.017 fmol methane/cell/day. Quantitative PCR (QPCR) directed at the methyl coenzyme M
reductase subunit A gene (mcrA) indicated that 75% of the HR sediments analyzed contained <1,000 methanogens/
g. The highest numbers of methanogens were found mostly from sediments <10 m below seafloor. By
considering methanogenesis rates for starved methanogens (adjusted to account for in situ temperatures) and
the numbers of methanogens at selected depths, we derived an upper estimate of <4.25 fmol methane
produced/g sediment/day for the samples with fewer methanogens than the QPCR method could detect. The
actual rates could vary depending on the real number of methanogens and various seafloor parameters that
influence microbial activity. However, our calculated rate is lower than rates previously reported for such
sediments and close to the rate derived using geochemical modeling of the sediments. These data will help to
improve models that predict microbial gas generation in marine sediments and determine the potential
influence of this source of methane on the global carbon cycle.
Genre Article
Identifier Boyd, S., Colwell, F. S., Delwiche, M. E., Newby, D. T., Phelps, T. J., Reed, D. W., (2008) Estimates of biogenic methane production rates in deep marine sediments at Hydrate Ridge, Cascadia margin. Applied and Environmental Microbiology, 74(11), 3444-3452.

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