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Score ↓ | Exp/Site/Hole | Year | Author/Title | Full text |
63% | 64 | 1990 | Gieskes, Joris M.; Magenheim, Andrew J.: Hydro-geochemistry of the Guaymas Basin hydrothermal system | |
63% | | 1979 | Spooner, E. T. C.: Ophiolitic rocks and evidence for hydrothermal convection of sea water within crust | |
63% | | 1987 | Barnes, R. O.: Fluid and chemical fluxes between seawater and basement rocks during "active" and "passive" hydrothermal circulation in the oceanic crust | |
63% | | 1990 | Alt, J. C.: Crustal alteration from the perspective of ocean drilling | |
63% | | 1992 | Franklin, James M.: Advances in understanding volcanogenic massive sulphide deposits; lessons from the modern environment | |
63% | | 2006 | Howard, M. T.; Kasting, J. F.: Modern hydrothermal systems and the oxygen isotopic evolution of seawater | |
63% | | 1990 | Perfit, M. R.: Magmatism, hydrothermal alteration and sulphide mineralization on the Galapagos Ridge: a potential ODP site to study massive sulphide genesis | |
63% | | 1983 | Kurnosow, W. B.; Choodkiewicz, I. W. et al.: Przeobrazenia hydrotermalne bazaltow w oceanie na podstawie danych z wiercen gebokowodnych oraz badan eksperymentalnych Hydrothermal alterations of ocean basalts based on the deep-sea drilling core data and experimental modelling | |
63% | 126 | 1991 | Tazaki, Kazue: Hydrothermal alteration of deep sea sediments from the Izu-Bonin fore arc basin, Leg 126, ODP | |
63% | | 1981 | Challenger devotes 78B to old hole | |
63% | | 1980 | Banerjee, S. K.: Rock magnetic techniques for deciphering the nature of alteration of the oceanic crust | |
63% | | 1996 | Eckhardt, J. D.; Stueben, D. et al.: Drilling in the Tyrrhenian Sea? The Quaternary igneous seafloor and hydrothermal deposits | |
63% | | 1990 | Holm, Nils G.: Report on the workshop Chemical evolution and neo-abiogenesis in marine hydrothermal systems | |
63% | | 2004 | Marumo, Katsumi; Urabe, Tetsuro et al.: Drilling into the active seafloor hydrothermal system at Suiyo Seamount | |
63% | | 1990 | Crane, Kathleen: East Pacific Rise thermal atlas reveals cool surprise | |
63% | | 1984 | Bazilevskaya, Ye. S.: Metallogeniy okeanskogo lozha po dannym glubokovodnogo bureniya Metallogeny of the ocean floor, based on deep-sea drilling data | |
63% | | 1980 | Leinen, Margaret: Cenozoic hydrothermal sedimentation in the eastern Pacific | |
63% | 193 | 2006 | Wicker, Steven G.; Vanko, David A.: Sub-seafloor hydrothermal activity at the deep-sea PACMANUS hydrothermal field, Manus Basin, Papua New Guinea; evidence from fluid inclusions in quartz | |
63% | 304 304-U1309 305 305-U1309 340T 340T-U1309 | 2012 | McCaig, Andrew M.; Harris, Michelle: Hydrothermal circulation and the dike-gabbro transition in the detachment mode of slow seafloor spreading | |
63% | 331 | 2012 | Takai, Ken; Mottl, Michael J. et al.: IODP Expedition 331; strong and expansive subseafloor hydrothermal activities in the Okinawa Trough | download |
62% | 158 | 1999 | Gregory, Thomas Kendall: Rare earth elements as tracers of fluid evolution at the TAG hydrothermal mound | |
61% | | 2010 | Takai, Ken; Mottl, Michael et al.: Integrated Ocean Drilling Program Expedition 331 scientific prospectus; Deep hot biosphere | download |
60% | 64 64-477 64-478 64-481 | 1983 | Simoneit, Bernd R. T.: Effects of hydrothermal activity on sedimentary organic matter; Guaymas Basin, Gulf of California, petroleum genesis and protokerogen degradation | |
60% | 64 | 1988 | Peter, Jan M.; Scott, Steven D.: Mineralogy, composition, and fluid inclusion microthermometry of sea-floor hydrothermal deposits in the southern trough of Guaymas Basin, Gulf of California | |
60% | 139 | 1994 | Goodfellow, W. D.; Leybourne, M. et al.: The Middle Valley hydrothermal system and associated sulphide deposits, Juan de Fuca Ridge; recent results of Leg 139, Ocean Drilling Program--Reseau hydrothermal et gisements sulfures associes de la vallee du Milieu, dorsale Juan de Fuca; resultats recents du troncon 139, Programme de sondage des fonds marins | |
60% | | 1996 | Binns, R. A.; Scott, S. D.: Massive sulfide mineralisation in felsic volcanic rocks of the eastern Manus back-arc basin, Western Pacific; ODP Proposal 479 | |
60% | 158 | 1996 | Sturz, Anne A.; Itoh, Mika J. T. et al.: Mineralogy and chemical composition of clay minerals, TAG sulfide deposit | |
60% | 158 | 1998 | Sturz, A. A.; Itoh, M. J. T. et al.: Mineralogy and chemical composition of clay minerals, TAG hydrothermal mound | |
60% | 31 31-291 31-294 | 1983 | Lalou, Claude: Genesis of ferromanganese deposits; hydrothermal origin | |
60% | 158 193 | 2003 | Bach, Wolfgang; Roberts, Stephen et al.: Controls of fluid chemistry and complexation on rare-earth element contents of anhydrite from the Pacmanus subseafloor hydrothermal system, Manus Basin, Papua New Guinea | |
60% | 149 | 2008 | Schwarzenbach, E. M.; Frueh-Green, G. L. et al.: Carbon in ancient serpentinite-hosted hydrothermal systems; the Northern Apennine ophiolites (Italy) and the Iberian margin | |
60% | 193 | 2005 | Roberts, Stephen; Bach, Wolfgang et al.: (super 87) Sr/ (super 86) Sr, (super 3) He/ (super 4) He, REE and stable isotope (delta (super 34) S, delta (super 18) O) constraints on the hydrothermal fluid evolution of the PACMANUS system, Manus Basin | |
60% | 139 139-858 169 169-858 | 2001 | Stein, Joshua S.; Fisher, Andrew T.: Multiple scales of hydrothermal circulation in Middle Valley, northern Juan de Fuca Ridge; physical constraints and geologic models | download |
60% | 193 | 2002 | Bach, W.; Barriga, F. et al.: Anatomy of a dacite-hosted submarine hydrothermal system; results from drilling at PACMANUS | |
60% | | 2000 | Petersen, S.; Herzig, P. M. et al.: Third dimension of a presently forming VMS deposit; TAG hydrothermal mound, Mid-Atlantic Ridge, 26N | |
60% | 193 | 2007 | Craddock, P. R.; Bach, W.: Anhydrite as a tracer of sub-seafloor hydrothermal circulation and vent deposit formation | |
60% | | 1988 | Embley, Robert W.; Jonasson, Ian R. et al.: Submersible investigation of an extinct hydrothermal system on the Galapagos Ridge; sulfide mounds, stockwork zone, and differentiated lavas | |
60% | 158 | 1996 | Rona, Peter A.; Davis, Earl E. et al.: Thermal properties of TAG hydrothermal precipitates, Mid-Atlantic Ridge, and comparison with Middle Valley, Juan de Fuca Ridge | |
60% | | 2004 | Yeats, C. J.: Mineralogy and geochemistry of alteration at the PACMANUS hydrothermal field, eastern Manus Basin, Papua New Guinea | |
60% | 169 169-1038 | 1998 | James, R. H.; Palmer, Martin R.: Alkali element and B geochemistry of sedimented hydrothermal systems | |
60% | 149 | 2008 | Schwarzenbach, Esther M.; Frueh-Green, G. L. et al.: Comparing sulfur and carbon speciation in ophiolites and active peridotite-hosted hydrothermal systems | |
59% | 193 193-1188 | 2003 | Roberts, Stephen; Bach, Wolfgang et al.: Radiogenic and stable isotope evidence of contrasting evolution of hydrothermal fluids in the Pacmanus system, Manus Basin; ODP Leg 193 | |
59% | 193 193-1188 193-1189 | 2007 | Beaudoin, Yannick; Scott, Steven D. et al.: Effects of hydrothermal alteration on Pb in the active PACMANUS hydrothermal field, ODP Leg 193, Manus Basin, Papua New Guinea; a LA-ICP-MS study | download |
59% | 158 158-957 | 2000 | Humphris, Susan E.; Tivey, Margaret K.: A synthesis of geological and geochemical investigations of the TAG hydrothermal field; insights into fluid-flow and mixing processes in a hydrothermal system | |
58% | 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 |
58% | 209 | 2006 | Schmidt, K.; Koschinsky-Fritsche, A. et al.: Detailed geochemical investigation of hydrothermal fluids from the Logatchev Field, 15 degrees N, MAR | download |
58% | 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 | |
58% | 304 305 | 2006 | Ludwig, Kristin A.; Kelley, Deborah S. et al.: Formation and evolution of carbonate chimneys at the Lost City hydrothermal field | download |
58% | 193 | 2004 | Paulick, H.; Vanko, D. A. et al.: Drill core-based facies reconstruction of a deep marine felsic volcano hosting an active hydrothermal system (Pual Ridge, Papua New Guinea, ODP Leg 193) | download |
57% | 92 92-597 92-598 | 1986 | Lyle, Mitchell W.; Owen, Robert M. et al.: History of hydrothermal sedimentation at the East Pacific Rise, 19 degrees S | download |
56% | | 2002 | Barriga, Fernando J. A. S.; Dias, Agata S. C. M. A. et al.: Replacement processes in volcanogenic massive sulfide deposits; the key to giant orebodies | |
55% | 92 92-597 92-598 92-599 92-600 92-601 92-602 | 1986 | Marchig, Vesna; Erzinger, Joerg: Chemical composition of Pacific sediments near 20 degrees S; changes with increasing distance from the East Pacific Rise | download |
55% | 158 | 1998 | Teagle, Damon A. H.; Alt, Jeffrey C. et al.: Dissecting an active hydrothermal deposit; the strontium and oxygen isotopic anatomy of the TAG hydrothermal mound; whole rock and silicate minerals | download |
55% | 139 168 169 | 2000 | Gillis, Kathryn M.; Banerjee, Neil R.: Hydrothermal alteration patterns in supra-subduction zone ophiolites | |
55% | 70 70-506 70-507 70-508 70-509 | 1983 | Becker, Keir; Von Herzen, Richard P.: Heat transfer through the sediments of the Mounds hydrothermal area, Galapagos spreading center at 86 degrees W | download |
55% | 149 | 2008 | Schwarzenbach, Esther: Carbon in ancient serpentinite-hosted hydrothermal systems; constraints from the Northern Apennine ophiolites (Italy) and the Iberian margin | |
55% | 209 209-1274 | 2008 | Amini, Marghaleray; Eisenhauer, Anton et al.: Calcium isotope (delta (super 44/40) Ca) fractionation along hydrothermal pathways, Logatchev Field (Mid-Atlantic Ridge, 14 degrees 45'N) | download |
55% | 193 | 2009 | Giorgetti, Giovanna; Monecke, Thomas et al.: Low-temperature hydrothermal alteration of trachybasalt at Conical Seamount, Papua New Guinea; formation of smectite and metastable precursor phases | |
54% | 64 64-477 64-478 64-481 | 1982 | Gieskes, Joris M.; Kastner, Miriam et al.: Hydrothermal activity in the Guaymas Basin, Gulf of California; a synthesis | download |
53% | 91 91-596 | 1990 | Zhou, Lei; Kyte, Frank T.: History of hydrothermal material accumulation in the central South Pacific over the past 85 Ma; a proxy for deep water circulation patterns | |
53% | 54 54-424 | 1981 | Varnavas, S. P.; Cronan, D. S.: Partition geochemistry of sediments from DSDP 424 in the Galapagos Hydrothermal Mounds Field | |
53% | 54 | 1981 | Clauer, N.; Vidal, P.: Pb and Sr isotopic compositions of hydrothermal deposits from East Pacific Rise and Galapagos Ridge | |
53% | 70 | 1981 | Becker, Keir; Von Herzen, R. P.: Rates of hydrothermal convection at the Galapagos mounds area deduced from temperature measurements | |
53% | 91 | 1983 | Natland, James H.; Menard, H. W.: Old ocean crust in the SW Pacific; volcanism hydrothermal processes, and sedimentary history revealed by DSDP Leg 91 coring | |
53% | | 1985 | Leggett, J. K.: Deep-sea pelagic sediments and palaeo-oceanography; a review of recent progress | |
53% | 32 32-304 | 1985 | Ohashi, Masayoshi: Depositional environments and chemical compositions of manganese micronodules | |
53% | 64 | 1982 | Stout, Paul M.: Hydrothermal alteration of sediments, Guaymas Basin, Gulf of California | |
53% | 64 64-477 | 1982 | Simoneit, Bernd R. T.; Lonsdale, Peter F.: Hydrothermal petroleum in mineralized mounds at the seabed of Guaymas Basin | |
53% | 91 | 1982 | Leinen, M.: Late Pleistocene hydrothermal sedimentation at DSDP Leg 91 "hydrogeology" sites | |
53% | 70 | 1982 | Lalou, C.; Brichet, E. et al.: Chronologie et evolution des depots hydrothermaux des Galapagos (DSDP Leg 70) Chronology and evolution of hydrothermal deposits of the Galapagos, DSDP Leg 70 | |
53% | 153 | 2000 | Meurer, William P.; Gee, Jeff: Evidence for the protracted construction of the lower oceanic crust at the MARK area by emplacement of small magma bodies | |
53% | 64 | 1979 | Moore, D. G.; Curray, J. R.: Deep sea drilling in the Gulf of California, a new ocean basin | |
53% | 153 | 1996 | Gaggero, L.; Cortesogno, L.: Metamorphic evolution of Leg 153 gabbros; stress-induced recrystallization from subsolidus to hydrothermal conditions in a slow-spreading ridge | |
53% | 153 | 1996 | Gao, Dengliang; Karson, Jeffrey A. et al.: Microstructures of metagabbros at the eastern Kane Ridge-transform intersection in the MARK area; implications for extensional deformation of the oceanic crust | |
53% | | 1996 | Gallahan, William Eugene, III: Geochronology and geochemistry of low temperature hydrothermal alteration in oceanic crust; an investigation of celadonite in the Troodos Ophiolite, Cyprus | |
53% | | 1979 | Lawver, L. A.; Vacquier, V. et al.: Gulf of California IPOD site survey results, Guaymas Basin heat flow | |
53% | 147 147-894 | 1993 | Manning, C. E.: High-temperature gabbro metamorphism at Hess Deep and the root zones of EPR hydrothermal systems | |
53% | 147 | 1993 | Gillis, K. M.: Hydrothermal evolution of EPR lower crust exposed at Hess Deep | |
53% | 139 | 1993 | Buatier, Martine; Karpoff, Anne Marie et al.: Mineralogical and geochemical records of sediment-hydrothermal fluid interactions in Middle Valley (Juan de Fuca Ridge, Leg 139) | |
53% | | 1995 | Ohta, Suguru; Shimizu, Kenji et al.: Bottom observations searching hydrothermal vent communities by the Deep Sea Multi-Monitoring System (DESMOS) | |
53% | 70 | 1989 | Lazur, Y. M.; Varentsov, I. M. et al.: Dispersed Mn-, Fe-, Ti-, Cu-, and Zn-minerals in hydrothermal and pelagic sediments of the Galapagos Rift Zone | |
53% | | 1979 | Leinen, M.; Stakes, D.: Metal accumulation rates in the central equatorial Pacific during Cenozoic time | |
53% | 145 145-886 | 1993 | Owen, R. M.; Dickens, G. R.: Chinook Trough rifting and Late Cretaceous hydrothermal deposition at ODP Site 886 | |
53% | 106 | 1986 | Honnorez, J.; Detrick, R. S. et al.: Drilling in the Snake-Pit hydrothermal area in Mid-Atlantic Ridge rift valley south of the Kane fracture zone; highlights from ODP Leg 106 | |
53% | 54 | 1978 | Hekinian, R.; Rosendahl, B. R.: Preliminary results of DSDP Leg 54 | |
53% | 139 | 1991 | Davis, Earl E.; Mottl, Michael et al.: Ocean Drilling Program; Leg 139 scientific prospectus; Sedimented ridges; I | |
53% | 92 | 1984 | Owen, Robert M.; Rea, David K.: Did submarine hydrothermal activity cause an Eocene greenhouse effect? | |
53% | 92 92-598 | 1991 | Olivarez, Annette M.; Owen, Robert M.: The europium anomaly of seawater; implications for fluvial versus hydrothermal REE inputs to the oceans | |
53% | 139 | 1995 | Marchig, V.; Dietrich, P.: Hydrothermal activity in Middle Valley (East Pacific Rise 48N, Leg 139, ODP); chemical redistribution between sediment, igneous rocks and massive sulfides | |
53% | | 1991 | Dick, H. J. B.; Meyer, P. S. et al.: Tectonically enhanced circulation of late-magmatic and hydrothermal fluids in Layer 3 at a slow-spreading ridge | |
53% | 168 | 1998 | Vanko, David A.; Marescotti, Pietro et al.: Patterns of hydrothermal alteration in <3.5 Ma old sediment-covered basalts from the east flank, Juan de Fuca Ridge | |
53% | 174B | 1998 | Becker, Keir; Richter, Carl et al.: Leg 174B revisits Hole 395A; logging and long-term monitoring of off-axis hydrothermal processes in young oceanic crust | |
53% | | 1977 | Ross, D. A.: Results of recent expeditions to the Red Sea; Chain, Glomar Challenger, and Valdivia expeditions | |
53% | 64 64-477 | 1980 | Lonsdale, Peter: Hydrothermal plumes and baritic sulfide mounds at a Gulf of California spreading center | |
53% | 34 34-319 | 1977 | Dymond, J.; Corliss, J. B. et al.: History of metalliferous sedimentation at Deep Sea Drilling Site 319, in the South eastern Pacific | |
53% | 92 92-598 | 1988 | Olivarez, A. M.; Owen, Robert M.: Rare earth element scavenging by hydrothermal precipitates | |
53% | 158 | 1996 | Ludwig, Rainer: Porosity-seismic velocity relationship and evolution of shallow oceanic crust near spreading centers of the Pacific and Atlantic Ocean | |
53% | 32 | 1986 | Adachi, Mamoru; Yamamoto, Koshi et al.: Hydrothermal chert and associated siliceous rocks from the northern Pacific; their geological significance as indication of ocean ridge activity | |
53% | 106 | 1986 | Sulanowska, Margaret; Humphris, Susan E. et al.: Hydrothermal mineralization in the MARK area, Mid-Atlantic Ridge 23 degrees N | |
53% | | 2004 | Bickle, Mike; Elderfield, Harry: Hydrothermal fluxes in a global context | |
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