Geophysical Aging of Oceanic Crust: Evidence from Hole 801C

Jarrard, Richard D.; Larson, Roger L.; Fisher, A. T.; Abrams, Lewis J.

doi:10.2973/odp.proc.sr.144.025.1995

Cited by 5 publications

(22 citation statements)

References 45 publications

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“…CHN‐based hydration measurements were not available for the Leg 185 index property samples, so we determined relative variations in hydration with LAS. Figure 5a shows that matrix density for these basalts is only subtly correlated with LAS‐based hydration, in contrast to the much better association between matrix density and hydration for the shorter interval analyzed by Jarrard et al [1995]. Increasing hydration is associated with increasing porosity (Figure 5c), with a higher correlation ( R = 0.69) than observed by Jarrard et al [1995].…”

Section: Site 801 Analysismentioning

confidence: 87%

“…Although Hole 801C was drilled during Leg 129, no downhole experiments were undertaken in the hole at that time. ODP Leg 144 returned to this site and completed both packer [ Larson et al , 1993] and logging [ Jarrard et al , 1995] measurements. A complete suite of in situ geophysical logs was obtained through the upper 100 m of basalt, including velocity, density, neutron porosity, resistivity, three‐component magnetometer, geochemistry, and Formation MicroScanner® logs.…”

Section: Datamentioning

confidence: 99%

“…Physical properties of the upper hydrothermal zone and overlying alkali basalts have been presented and analyzed previously [ Busch et al , 1992; Wallick et al , 1992; Larson et al , 1993; Jarrard et al , 1995] and are not presented here. Our analyses focus on the tholeiitic section, first encountered on Leg 129 but mostly cored and logged during Leg 185.…”

Section: Datamentioning

confidence: 99%

“… Wallick et al [1992] also measured velocity versus pressure. Our analyses exclude the data of Wallick et al [1992], because of incomplete removal of interstitial water during drying [ Jarrard et al , 1995]. Leg 185 basalt physical properties sampling used a much closer sample spacing than at any previous deep crustal site: approximately three samples per core.…”

Section: Datamentioning

confidence: 99%

“…Typical H 2 O + contents of 3–6 wt % for the upper extrusives contrast with initial MORB H 2 O + of only 0.12 wt % in fluid inclusions [ Sobolev and Chaussidon , 1996]. For the portion of Hole 801C cored during Leg 129, the index property measurements of Busch et al [1992] were paired with geochemical analyses of Alt et al [1992], permitting demonstration of a close correlation between increasing hydration (greater H 2 O + ) and decreases in velocity, matrix density, and matrix velocity [ Busch et al , 1992; Jarrard et al , 1995]. An association between alteration and porosity was also evident, probably because of two factors: (1) alteration increases porosity and (2) high porosity promotes alteration because of high permeability and therefore enhanced fluid flow.…”

Section: Site 801 Analysismentioning

confidence: 99%

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Physical properties of upper oceanic crust: Ocean Drilling Program Hole 801C and the waning of hydrothermal circulation

et al. 2003

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[1] The hydrologic evolution of oceanic crust, from vigorous hydrothermal circulation in young, permeable volcanic crust to reduced circulation in old, cooler crust, causes a corresponding evolution of geophysical properties. Ocean Drilling Program (ODP) Hole 801C, which obtained the world's oldest section of in situ, normal oceanic crust, provides the opportunity to examine relationships among hydrologic properties (porosity, permeability, fluid flow), crustal alteration, and geophysical properties, at both core plug and downhole log scales. Within these upper crustal basalts, fluid flux in zones with high porosity and associated high permeability fosters alteration, particularly hydration. Consequently, porosity is correlated with both permeability and a variety of hydration indicators. Porosity-dependent alteration is also seen at the log scale: potassium enrichment is strongly proportional to porosity. We extend the crustal alteration patterns observed at Hole 801C to a global examination of how physical properties of upper oceanic crust change as a function of age based on global data sets of Deep Sea Drilling Project and ODP core physical properties and downhole logs. Increasing crustal age entails macroporosity reduction and large-scale velocity increase, despite intergranular velocity decrease with little microporosity change. The changes in macroporosity and velocity are significant for pillows but minor for flows. Matrix densities provide the strongest demonstration of systematic age-dependent alteration. On the basis of observed decreases in matrix density that are proportional to the logarithm of age, approximately half of all intergranular-scale crustal alteration occurs after the first 10-15 Myr. Apparently, crustal alteration continues, at a decreasing rate, throughout the lifetime of oceanic crust.

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Section: Site 801 Analysismentioning

confidence: 87%

Section: Datamentioning

confidence: 99%

Section: Datamentioning

confidence: 99%

Section: Datamentioning

confidence: 99%

Section: Site 801 Analysismentioning

confidence: 99%

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Physical properties of upper oceanic crust: Ocean Drilling Program Hole 801C and the waning of hydrothermal circulation

et al. 2003

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Effect of Rock Wettability on the Electric Resistivity of Hydrate Formations: An Experimental Investigation

et al. 2021

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Gas hydrates are large energy resources with estimated global reserves of approximately 500–10 000 Gt of carbon, which can be extracted from underground reservoirs. In addition, such reservoirs can potentially catastrophically release greenhouse gases (such as methane or carbon dioxide). Classically, rock wettability is one of the key factors in predicting fluid flow behavior, fluid distribution, reserves, and productivities. However, the effect of wettability on the electric resistivity of hydrate formations is poorly understood. Thus, to evaluate the influence of rock wettability on the electrical resistivity (note that resistivity logging is a key well logging tool) of hydrate-bearing sandstone, nuclear magnetic resonance experiments were conducted. Clearly, the effective porosity and liquid saturation increased with increasing temperature, due to hydrate dissociation. Furthermore, the resistivity index and rock resistivity (R t) increased with increasing hydrate saturation, and the formation factor demonstrated a positive correlation with hydrate saturation, though the formation factor for oil-wet (OW) sandstone was higher than that for water-wet (WW) sandstone. This work will thus significantly improve the fundamental understanding of the petrophysical properties of gas hydrate reservoirs so that energy production can be optimized, geohazards can be avoided, and the hydrate gun hypothesis can be better assessed.

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Subduction fluxes of water, carbon dioxide, chlorine, and potassium

Jarrard

2003

Geochem Geophys Geosyst

326

324

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[1] The alteration of upper oceanic crust entails growth of hydrous minerals and loss of macroporosity, with associated large-scale fluxes of H 2 O, CO 2 , Cl À , and K 2 O between seawater and crust. This agedependent alteration can be quantified by combining a conceptual alteration model with observed agedependent changes in crustal geophysical properties at DSDP/ODP sites, permitting estimation of crustal concentrations of H 2 O, CO 2 , Cl À , and K 2 O, given crustal age. Surprisingly, low-temperature alteration causes no net change in total water; pore water loss is nearly identical to bound water gain. Net change in total crustal K 2 O is also smaller than expected; the obvious low-temperature enrichment is partly offset by earlier high-temperature depletion, and most crustal K 2 O is primary rather than secondary. I calculate crustal concentrations of H 2 O, CO 2 , Cl À , and K 2 O for 41 modern subduction zones, thereby determining their modern mass fluxes both for individual subduction zones and globally. This data set is complemented by published flux determinations for subducting sediments at 26 of these subduction zones. Global mass fluxes among oceans, oceanic crust, continental crust, and mantle are calculated for H 2 O, Cl À , and K 2 O. Except for the present major imbalance between sedimentation and sediment subduction, most fluxes appear to be at or near steady state. I estimate that half to two thirds of subducted crustal water is later refluxed at the prism toe; most of the remaining water escapes at subarc depths, triggering partial melting. The flux of subducted volatiles, however, does not appear to correlate with either rate of arc magma generation or magnitude of interplate earthquakes.

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Geophysical Aging of Oceanic Crust: Evidence from Hole 801C

Cited by 5 publications

References 45 publications

Physical properties of upper oceanic crust: Ocean Drilling Program Hole 801C and the waning of hydrothermal circulation

Physical properties of upper oceanic crust: Ocean Drilling Program Hole 801C and the waning of hydrothermal circulation

Effect of Rock Wettability on the Electric Resistivity of Hydrate Formations: An Experimental Investigation

Subduction fluxes of water, carbon dioxide, chlorine, and potassium

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