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Leg 204 synthesis : gas hydrate distribution and dynamics in the Central Cascadia accretionary complex

ScholarsArchive at Oregon State University

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Title Leg 204 synthesis : gas hydrate distribution and dynamics in the Central Cascadia accretionary complex
Names Tréhu, Anne Martine (creator)
Torres, Marta E. (creator)
Bohrmann, G. (creator)
Colwell, Frederick (creator)
Date Issued 2006 (iso8601)
Abstract Ocean Drilling Program (ODP) Leg 204 to Hydrate Ridge, located on
the continental slope offshore Oregon (USA), was the first drilling expedition
dedicated to understanding gas hydrate processes in accretionary
complexes and provided a testbed for a number of different techniques
for estimating the gas hydrate content of sediments. It was also the first
time that (1) digital infrared scans of core temperature were systematically
recorded for all cores from within or near the gas hydrate stability
zone, facilitating identification of gas hydrate samples for further study,
(2) hydrate-bearing cores were recovered and logged at in situ pressure,
and (3) ODP allowed acquisition of logging-while-drilling data prior to
coring at a given site, providing an initial comprehensive estimate of
gas hydrate distribution that was used to design the subsequent coring
program.
Gas hydrate estimates based on a variety of geophysical and
geochemical techniques indicate a heterogeneous distribution of gas
hydrate, which results in part because of two distinct regimes for delivery
of gas to the gas hydrate stability zone. In the “reaction regime,”
which is pervasive throughout the study region, the average gas hydrate
content of the sediments is relatively low (2%–8% of the pore space),
no gas hydrate is present in the upper ~30 meters below seafloor (mbsf)
because the methane content of the pore water is below saturation, and
the fine-scale distribution of gas hydrate depends strongly on lithology.
Superimposed on the reaction regime is a “transport-dominated regime”
in which gas is focused into a stratigraphically controlled conduit
and is transported as free gas to the structural summit. At the summit,
high gas pressure drives free gas into and through the gas hydrate
stability zone, resulting in a shallow deposit in which gas hydrate comprises
~25% of the total sediment volume to a depth of ~25 mbsf.
Geochemical data indicate that most of the gas that forms the summit
deposit has migrated from greater depth and has either a thermogenic
or altered biogenic character, and modeling suggests that abundant free
gas is needed to form gas hydrate in these conditions. Although this deposit
contains only ~2% of the estimated total volume of methane
trapped in gas hydrate within the study region, it may be particularly
susceptible to destabilization in response to oceanographic change.
Genre Article
Identifier Tréhu, A.M., Torres, M. E., Bohrmann, G., & Colwell, F.S. (2006). Leg 204 synthesis: gas hydrate distribution and dynamics in the Central Cascadia accretionary complex. Proceedings of the Ocean Drilling Program, Scientific results, 204, 1-40.

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