Gas hydrate concentration estimates from chlorinity, electrical resistivity and seismic velocity

Riedel, Michael; Collett, Timothy; Hyndman, R. D.

doi:10.4095/220618

Cited by 21 publications

(26 citation statements)

References 23 publications

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“…The estimated concentrations of between 15% and 30% of pore saturation in a 100 m thick layer above the BSR are much higher than estimated elsewhere, especially the Blake Ridge (Paull et al, 1996) and central Cascadia off Oregon during Leg 204 (Tréhu, Bohrmann, Rack, Torres, et al, 2003). Although both of these other studies involved different sediment environments, a careful reevaluation of the northern Cascadia estimates and their uncertainties was carried out by Riedel et al (2005). They concluded that the data and model uncertainties allowed a wide range of concentrations.…”

Section: Riedel Et Almentioning

confidence: 99%

See 1 more Smart Citation

Gas hydrate on the northern Cascadia margin: regional geophysics and structural framework

Riedel¹,

Willoughby²,

Chen³

et al. 2006

Proceedings of the IODP

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Integrated Ocean Drilling Program Expedition 311 is based on extensive site survey data and historic research at the northern Cascadia margin since 1985. This research includes various regional geophysical surveys using a broad spectrum of seismic techniques, coring and logging by the Ocean Drilling Program Leg 146, heat flow measurements, shallow piston coring, and bottom video observations across a cold-vent field, as well as novel controlled-source electromagnetic and seafloor compliance surveying techniques. The wealth of data available allowed construction of structural cross-sections of the margin, development of models for the formation of gas hydrate in an accretionary prism, and estimation of gas hydrate and free gas concentrations. Expedition 311 established for the first time a transect of drill sites across the northern Cascadia margin to study the evolution of gas hydrate formation over the entire gas hydrate stability field of the accretionary complex. This paper reviews the tectonic framework at the northern Cascadia margin and summarizes the scientific studies that led to the drilling objectives of Expedition 311 Cascadia gas hydrate.

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Section: Riedel Et Almentioning

confidence: 99%

“…E. Gas hydrate concentrations from the Jarrad et al (1995) reference with a slightly revised empirical porosity-velocity function. F. Gas hydrate concentrations using the Yuan et al (1996) reference profile for accreted sediments (from Riedel et al, 2005). …”

Section: Post-expedition 311 Outlookmentioning

confidence: 99%

Gas hydrate on the northern Cascadia margin: regional geophysics and structural framework

Riedel¹,

Willoughby²,

Chen³

et al. 2006

Proceedings of the IODP

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“…Historical work with data from Sites 889/890 has shown that the concentration of gas hydrate in sediments has been estimated by using (1) deviations in interstitial water chlorinities from measured baseline conditions, (2) electrical resistivity measurements by applying Archie's relation, and (3) both seismic-and downhole logging-derived P-and S-wave velocities. But results from Leg 146 left many questions unanswered (Riedel et al, 2005), such as:…”

Section: Site U1327mentioning

confidence: 99%

“…An earlier approach by Ussler and Paull (2001) for interpreting chlorinity data from Leg 146 by using a smooth chlorinity baseline suggested lower gas hydrate concentrations at Sites 889/890 but apparently contradicted other geophysical results using electrical resistivity and seismic velocity. In preparation for Expedition 311, the gas hydrate concentrations along the northern Cascadia margin were recalculated using Leg 146 acoustic/electrical resistivity logs and pore water chlorinity/salinity data (Riedel et al, 2005). New estimates show that the concentrations could alternatively be between 5% and 10% on average of the pore volume from ~130 mbsf to the BSR (~230 mbsf).…”

Section: Introductionmentioning

confidence: 99%

Cascadia Margin gas hydrates

Riedel¹,

Collett²

2005

IODP Preliminary Report

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Expedition 311 Scientists PUBLISHER'S NOTESMaterial in this publication may be copied without restraint for library, abstract service, educational, or personal research purposes; however, this source should be appropriately acknowledged. Katerina Petronotis Yeoperson Martin Rothfuss Pressure Coring Engineer Philip RumfordCuratorial Specialist Derryl Schroeder Drilling Engineer Michael StormsOperations Superintendent Scott TowesMarine Mammal Observer (7-18 October) Floris TuynderPressure Coring Engineer 7 Expedition 311 Preliminary Report ABSTRACTA transect of four sites (U1325, U1326, U1327, and U1329) across the Northern Cascadia margin was cored during Integrated Ocean Drilling Program Expedition 311 to study gas hydrate occurrences and formation models for accretionary complexes. In addition to the transect sites, a fifth site (U1328), representing a cold vent with active fluid and gas flow, was visited.The four transect sites represent different stages in the evolution of gas hydrate across the margin from the earliest occurrence on the westernmost first accreted ridge (Site U1326) to its final stage at the eastward limit of gas hydrate occurrence on the margin in shallower water (Site U1329).Logging while drilling/measurement while drilling carried out at the start of the expedition prior to coring provided a set of measurements that guided subsequent coring and special tool deployments at all five sites. Additional wireline logging at each site and two vertical seismic profiles at Sites U1327 and U1328 were completed. A total of 1217.76 m of sediment core was recovered using the advanced piston corer and extended core barrel systems, interspersed with 24 (16 successful) pressure core sampler runs for onboard degassing experiments and 19 Fugro piston corer/HYACE deployments; 4 of these pressure cores were stored under in situ pressure for subsequent shore-based studies.Indirect evidence of the presence of gas hydrate included increased electrical resistivities and P-wave velocities on downhole logs and low-salinity interstitial water anomalies, numerous infrared cold spots, and decreases in void gas C 1 /C 2 ratios, as well as gas hydrate-related sedimentological moussy/soupy textures in recovered cores. Gas hydrate was also observed directly in the recovered cores, and >30 gas hydrate samples were preserved in liquid nitrogen for shore-based studies. The combined observations show that gas hydrate mainly occurs within coarser-grained turbidite sands and silts.The occurrence of gas hydrate appears to be controlled by several key factors, and the concentration of gas hydrate changes significantly as those factors vary in the sediments along the margin. The key controlling factors are (1) local methane solubility linked with pore water salinity, (2) fluid/gas advection rates, and (3) availability of suitable host material (coarse-grained sediments). In the previous model for gas hydrate formation in an accretionary margin, the highest concentrations of gas hydrate were expected to occur localized near the ba...

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“…An emphasis is taken on the salinity background trend and its influence on the regional gas hydrate concentration estimates. Concentration estimates have been a long-debated topic, especially at Ocean Drilling Program (ODP) Leg 146 Site 889 prior to Expedition 311 (e.g., Hyndman et al, 1999;Riedel et al, 2005), as this location exhibits a strongly decreasing trend in pore water salinity down to bottom-simulating reflector (BSR) depths and remains constant below that level, which is unique compared to all others sites drilled during Expedition 311.…”

Section: Introductionmentioning

confidence: 99%

Data report: a downhole electrical resistivity study of northern Cascadia marine gas hydrate

Chen¹,

Riedel²,

Spence³

et al. 2008

Proceedings of the IODP

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Downhole electrical resistivity measurements can be exploited for gas hydrate concentration estimates. However, to do so requires that several assumptions be made, in particular about in situ pore water salinity and porosity. During Integrated Ocean Drilling Program Expedition 311, electrical resistivity was measured in four boreholes along a transect across the northern Cascadia margin, offshore Vancouver Island, Canada. Logging-while-drilling and conventional wireline logging data of resistivity, density, and neutron-porosity are used together with measurements of porosity and pore water salinity of the recovered core to systematically estimate gas hydrate concentrations at these four sites. Using Archie's law, empirical parameters a and m are determined from gas hydrate-free zones by means of a Pickett plot. The in situ salinity baseline trend for each site was estimated directly from the measured pore water salinity values, as well as indirectly by calculating the trend using Archie's law and simultaneously solving for gas hydrate saturation and in situ salinity. Results showed that the in situ salinities at Sites U1325, U1326, and U1329 were well determined from a smooth trend through the highest measured salinity values of the recovered core. Only Site U1327 exhibits strongly decreasing pore water salinity, reaching 22‰ at the base of the gas hydrate stability field. This regional low salinity requires special analyses to estimate gas hydrate concentration from resistivity and introduces a large uncertainty. It is suggested that the decreased salinity results largely (90%) from a deeper fresh water source with the remaining freshening being the result of dissociation of pervasive gas hydrate (~3% of the pore space). Considering estimates from density porosity to be the most accurate, gas hydrate saturations average ~9% ± 7% at Site U1326, 10% ± 7% at Site U1325, and 11% ± 7% at Site U1327 over the entire range of gas hydrate occurrence. No significant gas hydrate is inferred at Site U1329, although small amounts may be present just above the bottom-simulating reflector. In two localized zones at Site U1326 (60-100 mbsf [meters below seafloor]) and Site U1327 (120-150 mbsf), significantly higher gas hydrate concentrations of >30% of the pore space were encountered.

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Gas hydrate concentration estimates from chlorinity, electrical resistivity and seismic velocity

Cited by 21 publications

References 23 publications

Gas hydrate on the northern Cascadia margin: regional geophysics and structural framework

Gas hydrate on the northern Cascadia margin: regional geophysics and structural framework

Cascadia Margin gas hydrates

Data report: a downhole electrical resistivity study of northern Cascadia marine gas hydrate

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