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| Score ↓ | Exp/Site/Hole | Year | Author/Title | Full text |
|---|
| 48% | 171A | 2000 | Stauffer, Philip: Modeling stress and flow in the toe region of an accretionary prism | |
| 48% | 110 | 1988 | Moore, J. C.; Mascle, A. et al.: Plumbing accretionary prisms; results from drilling and diving in contrasting hydrotectonic regimes | |
| 48% | | 1982 | Anonymous: Bohrlochexperimente am Mittelatlantischen Ruecken; Wiederbesetzung von Bohrloch 395 A Boreholes in the Mid-Atlantic Ridge; Site 395 A | |
| 48% | 131 | 1992 | Jouniaux, L.; Pozzi, J. P.: Etude experimentale des phenomenes electriques et magnetiques lies aux circulations de fluide dans des roches sous contraintes; relation avec la microfracturation Experimental study of electrical and magnetic phenomena linked to fluid circulation in stressed rocks; relation with microfracturing | |
| 48% | 94
94-608 | 1984 | Francis, T. J. G.: A review of IOS research into the feasibility of high-level radioactive waste disposal in the oceans | |
| 48% | 110 | 1987 | Fisher, Andrew T.; Hounslow, Mark W.: Heat flow through the toe of the Barbados accretionary complex; implications for sediment dewatering | |
| 48% | 146
146-892 | 1994 | Screaton, Elizabeth J.; Carson, Bobb et al.: Thrust faults as fluid conduits; insights from borehole tests on the Oregon accretionary prism | |
| 48% | | 1982 | Anderson, Roger N.: In the eye of the BHTV; two miles beneath the sea | |
| 48% | 91 | 1982 | Hobart, M. A.; Abbott, D. H. et al.: Detailed geothermal surveys on the East Pacific Rise at 19 degrees S | |
| 48% | 146 | 1999 | Mann, Doerte; Kukowski, Nina: Numerical modelling of focussed fluid flow in the Cascadia accretionary wedge | |
| 48% | 112 | 1996 | Schillhorn, Thies; Kukowski, Nina: Numerische 3D-FD Modellierungen zum Fluid- und Waermetransport im Akkretionskomplex vor Peru bei 9 Grad Sued Numerical 3D-FD models of fluid transport in an accretionary complex in Peru at 9 degrees south | |
| 48% | 110 | 1989 | Leonard, John N.; Taylor, Elliott et al.: Lithologic control on the physical properties of sediment and the development of accretionary prisms | |
| 48% | 205 | 2004 | Chavagnac, V.; Font, L. et al.: Plume-ridge interaction on the Cocos Plate (ODP Leg 205, Costa Rica); implication for fluid circulation | |
| 48% | 116 | 1995 | Ormond, Anne; Boulegue, Jacques et al.: A thermoconvective interpretation of heat flow data in the area of Ocean Drilling Program Leg 116 in a distal part of the Bengal Fan | download |
| 48% | 146
146-892 | 1994 | Screaton, E. J.; Carson, B. et al.: Hydrogeologic characteristics of ODP sealed borehole 892; discrepancy between shipboard- and submersible-based tests | |
| 48% | 139 | 1994 | Fisher, Andrew T.; Fischer, K. et al.: Geotechnical and hydrogeological properties of sediments from Middle Valley, northern Juan de Fuca Ridge | download |
| 48% | | 1993 | Kennedy, L. A.; Boudier, F. et al.: Deformation and recovery in the upper mantle and microstructural constraints on melt impregnation | |
| 48% | 110 | 1989 | Fisher, Andrew T.; Hounslow, Mark W.: Transient fluid flow through the toe of the Barbados accretionary complex; constraints from ODP Leg 110 heat flow studies and simple models | |
| 48% | 170 | 1997 | Saffer, Demian; Silver, Eli et al.: Consolidation, pore fluid pressures, and implications for dewatering pathways of subducted sediments, offshore Costa Rica | |
| 48% | 168 | 1995 | Chapman, David; Davis, Earl et al.: Fluid flow in young crust targeted for study | |
| 48% | 116
116-717
116-718 | 1990 | Corrigan, Jeffrey Delon: On apatite fission-track analysis and heat transfer processes in the upper crust | |
| 48% | | 2003 | Jarrard, Richard D.: Subduction fluxes of water, carbon dioxide, chlorine, and potassium | download |
| 48% | 308 | 2008 | Dugan, Brandon: Fluid flow in the Keathley Canyon 151 mini-basin, northern Gulf of Mexico | |
| 48% | 204 | 2005 | Weinberger, Jill: Investigations of the structural and hydrologic context of gas hydrate deposits on Hydrate Ridge, Oregon | |
| 48% | 204
204-1251 | 2005 | Weinberger, J. L.; Brown, K. M.: Abnormal fluid pressures at ODP Site 1251; implications for fluid flow and hydrate concentration | |
| 48% | | 2001 | Stauffer, Philip H.; Bekins, Barbara A.: Modeling consolidation and dewatering near the toe of the northern Barbados accretionary complex | download |
| 48% | | 2009 | Kelemen, Peter B.; Matter, Jurg et al.: In situ mineral carbonation in peridotite and basalt for CO (sub 2) capture and storage | |
| 48% | | 1994 | Davis, Earl; Becker, Keir: Studying crustal fluid flow with ODP borehole observatories | |
| 48% | | 1996 | Davis, E. E.; Wang, K. et al.: An unequivocal case for high Nusselt-number hydrothermal convection in sediment-buried igneous oceanic crust | |
| 48% | 168
169 | 1997 | Davis, E. E.; Wang, K. et al.: Where does all the water go? Reflections on oceanic crustal fluid flow | |
| 48% | 141 | 2006 | Roeser, Georg; Behrmann, Jan H. et al.: Geotechnical characterization of trench- and slope sediments off southern Chile; preliminary results | |
| 48% | 110 | 1992 | Dreiss, S. J.; Bekins, B. A. et al.: Fluid flow in an active accretionary complex | |
| 48% | 104
119 | 1992 | Pittenger, Hugh Alan: Geotechnical properties of siliceous sediments from the Voring Plateau, Norwegian Sea and the Kerguelen Plateau, Southern Ocean | |
| 48% | | 1998 | Pirmez, Carlos; Brewer, Tim S.: Borehole electrical images; recent advances in ODP | |
| 48% | 164 | 1995 | Paull, C. K.; Ussler, W., III et al.: Methane sources, migration paths, and seafloor seepage associated with marine gas hydrates | |
| 48% | 170
205 | 2005 | Vannucchi, P.; Leoni, L. et al.: Dynamic interaction between pore fluids and faulting along the Costa Rica decollement (ODP Legs 170 and 205) | |
| 48% | 190 | 2007 | Skarbek, R. M.; Saffer, D. M.: Pore pressure development in sub-decollement sediments in subduction zones; insights from laboratory data and numerical modeling | |
| 48% | | 2010 | Masaki, Y.; Kawada, Y. et al.: Hydrothermal circulation regime of the Iheya-North hydrothermal field in the mid-Okinawa Trough inferred from heat flow measurements | |
| 48% | 158 | 2002 | Goto, Shusaku; Kinoshita, Masataka et al.: Geothermal constraints on the hydrological regime of the TAG active hydrothermal mound, inferred from long-term monitoring | |
| 48% | 131 | 1990 | Moran, K.; Campanella, R. G.: In situ stress measurements from ODP Leg 131; Nankai Trough | |
| 48% | 169 | 2009 | Simonyan, A. V.; Behrens, H. et al.: Experimental determination of water diffusion in porous basaltic rocks of the oceanic crust | |
| 48% | 168 | 2004 | Hutnak, M.; Fisher, A. T. et al.: Evidence for along-strike hydrothermal circulation within young oceanic crust on the eastern flank of the Endeavour axis, Juan de Fuca Ridge | |
| 48% | | 2004 | Wheat, C. Geoffrey; Mottl, Michael J.: Geochemical fluxes through mid-ocean ridge flanks | |
| 48% | 110 | 1994 | Stauffer, P.; Bekins, B. A. et al.: Elevated fluid pressures and possible hydrofractures | |
| 48% | 311 | 2005 | Riedel, M.; Collett, T. S. et al.: Tectonic discrimination with classification trees | |
| 48% | 190
190-1173
196
196-1173 | 2006 | O'Regan, Matthew: Temperature and fluid flow at Nankai | |
| 48% | | 1998 | Becker, Keir; Davis, Earl E.: CORK borehole observatories record in-situ fluid flow processes in subseafloor formations | |
| 48% | 204 | 2008 | Torres, M. E.; Chan, L. et al.: Lithium systematics revealed in samples from ODP Leg 204 (Hydrate Ridge); a tribute to Lui-Heung Chan | |
| 48% | 111
111-504
137
137-504
140
140-504
148
148-504
168
168-1026 | 2011 | Winslow, D. M.; Fisher, A. T. et al.: Application of a Markov chain Monte Carlo model for determining formation permeability and sensitivity to formation properties from thermal data in flowing subseafloor boreholes | |
| 47% | 10
10-91
16
16-160
16-161
16-163
31
31-293
31-298
31-299
31-302 | 1981 | Bryant, William R.; Bennett, Richard H. et al.: Shear strength, consolidation, porosity, and permeability of oceanic sediments | |
| 47% | 146
146-891
146-892 | 1994 | Gray, William Geoffrey Douglas: Sediment consolidation and permeability at the central Oregon margin, Ocean Drilling Program sites 891 and 892 | |
| 47% | | 1996 | MacLeod, C. J.; Manning, C. E.: Influence of axial segmentation on hydrothermal circulation at fast-spreading ridges; insights from Hess Deep | |
| 47% | 69
70 | 1983 | Karato, Shun-ichiro; Becker, Keir: Porosity and hydraulic properties of sediments from the Galapagos spreading center and their relation to hydrothermal circulation in the oceanic crust | download |
| 47% | 111
111-504
118
118-735
137
137-504
139
139-858
140
140-504
148
148-504
168
168-1024
169
169-858
176
176-735 | 2004 | Becker, Keir; Davis, Earl E.: In situ determinations of the permeability of the igneous oceanic crust | |
| 47% | 304
304-U1309
305
305-U1309 | 2008 | Hirose, Takehiro; Hayman, Nicholas W.: Structure, permeability, and strength of a fault zone in the footwall of an oceanic core complex, the Central Dome of the Atlantis Massif, Mid-Atlantic Ridge, 30 degrees N | download |
| 47% | 104
104-642 | 2008 | Harris, Robert N.; Higgins, Sean M.: A permeability estimate in 56 Ma crust at ODP Hole 642E, Voring Plateau Norwegian Sea | download |
| 47% | 169 | 1998 | James, R. H.; Duckworth, R. C. et al.: Drilling of sediment-hosted massive sulphide deposits at the Middle Valley and Escanaba Trough spreading centres; ODP Leg 169 | |
| 47% | 308 | 2008 | Flemings, Peter B.; Long, Hui: Pressure prediction in the shallow Ursa Basin; deepwater Gulf of Mexico | |
| 47% | 69
69-504
69-504B
70
70-504
70-504B
83
83-504
83-504B
92
92-504
92-504B
111
111-504
111-504B
137
137-504
137-504B
140
140-504
140-504B
148
148-504
148-504B | 1983 | Zoback, Mark D.; Anderson, Roger N.: Permeability, underpressures, and convection in the oceanic crust at Deep Sea Drilling Project Hole 504B | download |
| 47% | 207
207-1257
207-1258
207-1259
207-1260
207-1261 | 2007 | O'Regan, A. Matthew; Moran, Kate: Compressibility, permeability, and stress history of sediments from Demerara Rise | download |
| 47% | 205 | 2006 | Screaton, Elizabeth J.; Hays, Troy et al.: Permeabilities of Costa Rica subduction zone sediments | download |
| 46% | 169 | 2000 | Iturrino, Gerardo J.; Davis, Earl et al.: Permeability, electrical, and thermal properties of sulfide, sedimentary and basaltic units from the Bent Hill area of Middle Valley, Juan de Fuca Ridge | download |
| 46% | 51
51-417
52
52-417
52-418
53
53-418
102
102-418 | 1980 | Hamano, Y.: Physical properties of basalts from holes 417D and 418A | download |
| 45% | 110
110-671
110-672
110-676 | 1990 | Taylor, Elliott; Leonard, John: Sediment consolidation and permeability at the Barbados forearc | download |
| 45% | 185
185-1149 | 2006 | Hirono, Tetsuro: Measurement of mass transfer property with subducted oceanic plate | download |
| 45% | 193 | 2007 | Iturrino, Gerardo J.; Ketcham, Richard A. et al.: Permeability, resistivity, and X-ray computed tomography measurements in samples from the PACMANUS hydrothermal system | download |
| 43% | 205 | 2006 | McKiernan, Alexander W.; Saffer, Demian M.: Permeability and consolidation properties of subducting sediments off Costa Rica, ODP Leg 205 | download |
| 43% | 118
118-735
118-735B
176
176-735
176-735B | 1991 | Goldberg, D.; Broglia, C. et al.: Fracturing, alteration, and permeability; in-situ properties in Hole 735B | download |
| 42% | 314
314-C0004
314-C0006
316
316-C0004
316-C0006
316-C0007
316-C0008 | 2011 | Dugan, Brandon; Daigle, Hugh: Data report; permeability, compressibility, stress state, and grain size of shallow sediments from Sites C0004, C0006, C0007, and C0008 of the Nankai accretionary complex | download |
| 42% | 75
75-532 | 1984 | Bennett, Richard H.; Almagor, Gideon et al.: Geotechnical properties of sediments from Walvis Ridge, Deep Sea Drilling Project, Leg 75, Hole 532A | download |
| 42% | 146
146-892 | 1995 | Screaton, Elizabeth J.; Carson, Bobb et al.: In situ permeability tests at Site 892; characteristics of a hydrogeologically active fault zone on the Oregon accretionary prism | download |
| 42% | 93
93-603
93-604
95
95-603 | 1987 | Johns, Mark W.: Consolidation and permeability characteristics of sediments from Deep Sea Drilling Project Leg 93, sites 603 and 604 | download |
| 40% | 69
69-504
70
70-504
83
83-504
92
92-504
111
111-504
137
137-504
140
140-504
148
148-504 | 1981 | Anderson, Roger N.; Zoback, Mark D.: Permeability, underpressure and convection in layer 2A near the Costa Rica Rift | |
| 40% | 69
69-504
70
70-504
83
83-504
92
92-504
111
111-504
137
137-504
140
140-504
148
148-504 | 1982 | Anderson, Roger N.; Newmark, R. L. et al.: In situ permeability variation in the upper kilometer of the oceanic crust of the Costa Rica Rift | |
| 40% | 69
69-504
70
70-504
83
83-504
92
92-504
111
111-504
137
137-504
140
140-504
148
148-504 | 1982 | Anderson, Roger N.; Zoback, Mark D.: Permeability, underpressures, and convection in the oceanic crust near the Costa Rica Rift, eastern equatorial Pacific | download |
| 40% | | 1998 | Erickson, Stephanie Newton: Porosity-velocity and porosity-formation factor relationships in siliciclastic sediments | |
| 40% | 69
69-504
70
70-504
83
83-504
92
92-504
111
111-504
137
137-504
140
140-504
148
148-504 | 1985 | Anderson, Roger N.; Zoback, Mark D. et al.: Permeability versus depth in the upper oceanic crust; in situ measurements in DSDP Hole 504B, eastern Equatorial Pacific | download |
| 40% | 69
69-504
70
70-504
83
83-504
92
92-504
111
111-504
137
137-504
140
140-504
148
148-504 | 1994 | Fisher, A. T.; Becker, K.: Models of ocean crustal permeability based on the correlation between seafloor heat flow and basement relief and numerical models | |
| 40% | 111
111-504
137
137-504
140
140-504
148
148-504
148-896 | 2004 | Becker, Keir; Davis, Earl E. et al.: Temperature and video logs from the upper oceanic crust, Holes 504B and 896A, Costa Rica Rift flank; implications for the permeability of upper oceanic crust | download |
| 40% | 69
69-504
70
70-504
83
83-504
92
92-504
111
111-504
137
137-504
140
140-504
148
148-504 | 1995 | Fisher, Andrew T.; Becker, Keir: Correlation between seafloor heat flow and basement relief; observational and numerical examples and implications for upper crustal permeability | download |
| 40% | 69
69-504
70
70-504
83
83-504
92
92-504
111
111-504
137
137-504
140
140-504
148
148-504 | 1993 | Rosenberg, N. D.; Spera, F. J. et al.: The relationship between flow and permeability field in seafloor hydrothermal systems | |
| 40% | 204 | 2002 | Trehu, Anne M.; Bangs, Nathan L. et al.: Complex subsurface plumbing beneath the southern Hydrate Ridge, Oregon continental margin, from high-resolution 3D seismic reflection and OBS data | |
| 40% | 101
101-630 | 1988 | Lavoie, Dawn: Geotechnical properties of sediments in a carbonate-slope environment; Ocean Drilling Program Site 630, northern Little Bahama Bank | download |
| 39% | 96
96-619 | 1986 | Bryant, William R.; Wetzel, Andreas et al.: Geotechnical properties on intraslope basin sediments, Gulf of Mexico, Deep Sea Drilling Project Leg 96, Site 619 | download |
| 39% | 116
116-717
116-718
116-719 | 1990 | Wetzel, Andreas: Consolidation characteristics and permeability of Bengal Fan sediments drilled during Leg 116 | download |
| 39% | 135 | 1994 | Lavoie, Dawn L.; Bruns, Terry R. et al.: Geotechnical and logging evidence for underconsolidation of Lau Basin sediments; rapid sedimentation vs. fluid flow | download |
| 38% | 174A
174A-1073 | 2000 | Dugan, Brandon; Flemings, Peter B.: Overpressure and fluid flow in the New Jersey continental slope; implications for slope failure and cold seeps | |
| 38% | 170
170-1039
170-1040
170-1043 | 2000 | Saffer, Demian M.; Silver, Eli A. et al.: Inferred pore pressures at the Costa Rica subduction zone; implications for dewatering processes | |
| 38% | | 2000 | Davis, E. E.; Wang, K. et al.: Formation-scale hydraulic and mechanical properties of oceanic crust inferred from pore pressure response to periodic seafloor loading | download |
| 38% | 134
134-832
134-833 | 1992 | Greene, H. Gary; Collot, Jean-Yves et al.: An intra-arc basin as a potential hydrocarbon prospect; recent results of Ocean Drilling Project Leg 134 drilling in the North Aoba Basin, Vanuatu | |
| 38% | 150 | 1996 | Sugarman, P. J.; Miller, Kenneth G.: Miocene sequences and hydrogeologic units, NJ Coastal Plain | |
| 38% | 156
156-949 | 1996 | Screaton, E. J.; Fisher, A. T. et al.: Hydrogeologic characteristics of the decollement in the Barbados Ridge accretionary complex; implications for fluid migration | |
| 38% | 168
168-1024
168-1025
168-1026
168-1027 | 2002 | Davis, E. E.; Becker, K.: Observations of natural-state fluid pressures and temperatures in young oceanic crust and inferences regarding hydrothermal circulation | |
| 38% | 148
148-896 | 1994 | Belarouchi, Abdeltif; Laverne, Christine: L'alteration a basse temperature des basaltes du puits 896A (Pacifique Est, Leg ODP 148) Low-temperature alteration of basalts from Site 896A (East Pacific, ODP Leg 148) | |
| 38% | 44
44-390
44-392 | 1979 | Enos, P.; Freeman, T.: Lower Cretaceous peritidal limestones at 2,700-m depth, Blake Nose, Atlantic Ocean | |
| 38% | 147
147-894 | 1993 | Gillis, K. M.; Mevel, C.: Drilling the lower crust and upper mantle at a fast-spreading ridge; results of ODP Leg 147 | |
| 38% | 87
87-582
87-583
87-584 | 1986 | Johns, Mark W.: Consolidation and permeability characteristics of Japan Trench and Nankai Trough sediments from Deep Sea Drilling Project Leg 87, sites 582, 583, and 584 | download |
| 38% | 143
143-866 | 1998 | Flood, P. G.: Origin of white sucrosic dolomite within shallow-water limestones, ODP Hole 866A, Resolution Guyot, Mid-Pacific Mountains; strontium isotopic evidence for the role of sea water in dolomitization | |
| 38% | 113
113-689
113-690
120
120-747
120-751 | 1990 | Rack, Frank R.; Bryant, William R.: Microfabric and physical properties of deep-sea high latitude carbonate oozes | |
| 38% | 107
107-652 | 1990 | Chamley, H.; Pierre C. et al.: Mineral and stable isotopes changes related to depositional conditions and heat flow in the pre-Pliocene series at ODP Site 652, Tyrrhenian Sea | |
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