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| Score | Exp/Site/Hole | Year | Author/Title ↓ | Full text |
|---|
| 67% | 23
23-227 | 1988 | Zierenberg, Robert A.; Shanks, Wayne C., III: Isotopic studies of epigenetic features in metalliferous sediment, Atlantis II Deep, Red Sea | |
| 67% | 139 | 1994 | Zierenberg, Robert A.; Goodfellow, Wayne D. et al.: Sulfur isotopic composition of massive sulfide from the Middle Valley sediment-covered seafloor spreading center | |
| 50% | 169 | 1998 | Zierenberg, Robert A.; Fouquet, Yves et al.: The deep structure of a sea-floor hydrothermal deposit | |
| 58% | 139
139-856
139-857
146
169
169-856
169-857 | 1996 | Zierenberg, R. A.; Fouquet, Yves et al.: The roots of seafloor massive sulfide deposits; preliminary results from ODP Leg 169 drilling in Middle Valley and Escanaba Trough | |
| 83% | | 2000 | Zhirnov, E. A.; Cherkashev, G. A. et al.: Inner structure of the TAG active hydrothermal mound (by ODP materials) | |
| 83% | | 1991 | Yim, W. W. S.: Tin placer genesis in northeastern Tasmania | |
| 67% | | 2004 | Yeats, C. J.: Mineralogy and geochemistry of alteration at the PACMANUS hydrothermal field, eastern Manus Basin, Papua New Guinea | |
| 67% | 193 | 2005 | Yang, Kaihui; Scott, Steven D.: Vigorous exsolution of volatiles in the magma chamber beneath a hydrothermal system on the modern sea floor of the eastern Manus back-arc basin, western Pacific; evidence from melt inclusions | |
| 67% | | 1991 | Williams, Alan E.; McKibben, Michael A. et al.: An overview of fluid geochemistry and ore genesis in the Salton Sea geothermal system and comparison with the Gulf of California hydrothermal systems | |
| 67% | 193 | 2009 | Webber, Alexander; Roberts, Steve et al.: Fluid mixing and thermal regimes beneath the PACMANUS hydrothermal field, Papua New Guinea; helium oxygen isotopes | |
| 50% | 139
169 | 2005 | Von Damm, K. L.; Parker, C. M. et al.: The Escanaba Trough, Gorda Ridge hydrothermal system; temporal stability and sub-seafloor complexity | download |
| 67% | 112
112-680 | 1994 | Veto, Istvan; Hetenyi, Magdolna et al.: Hydrogen index as reflecting intensity of sulphidic diagenesis in non-bioturbated, shaly sediments | |
| 58% | 37
37-332
37-334
37-335 | 1990 | Varga, R. J.; Moores, E. M.: Intermittent magmatic spreading and tectonic extension in the Troodos Ophiolite; implications for exploration for black smoker-type ore deposits | |
| 67% | 70 | 1986 | Varentsov, I. M.; Sakharov, B. A. et al.: Gidrotermal'nyye otlozheniya zony Galapagosskogo rifta, 70-y reys BS "Glomar Chellendzher"; aspekty mineralogii i geokhimii glavnykh komponentov Hydrothermal deposits in the area of the Galapagos Rift, Leg 70, "Glomar Challenger"; aspects of mineralogy and geochemistry of the principal components | |
| 100% | | 1989 | Varentsov, I. M.: O glavnykh problemakh v poznanii genezisa margantsevykh mestorozhdeniy Main problems in knowledge of genesis of manganese deposits | |
| 33% | 139
139-856
169
169-856 | 2004 | Teagle, Damon A. H.; Alt, Jeffrey C.: Hydrothermal alteration of basalts beneath the Bent Hill massive sulfide deposit, Middle Valley, Juan de Fuca Ridge | |
| 83% | 34 | 1974 | Swanson, S. B.; Scott, R. B.: Hydrothermal products of Leg 34 basalts; Deep Sea Drilling Project | |
| 83% | 106 | 1986 | Sulanowska, Margaret; Humphris, Susan E. et al.: Hydrothermal mineralization in the MARK area, Mid-Atlantic Ridge 23 degrees N | |
| 58% | 126 | 1998 | Sui, A. U.; Glasby, G. P.: Submarine hydrothermal manganese deposits in the Izu-Bonin-Mariana Arc; an overview | |
| 67% | 158 | 1998 | Sturz, A. A.; Itoh, M. J. T. et al.: Mineralogy and chemical composition of clay minerals, TAG hydrothermal mound | |
| 100% | | 1977 | Seyfried, W. E., Jr.: Seawater-basalt interaction from 25 degrees -300 degrees C and 1-500 bars; implications for the origin of submarine metal-bearing hydrothermal solutions and regulation of ocean chemistry | |
| 67% | 127
127-794
128
128-794 | 1990 | Scott, Steven D.; Pouclet, Andre: ODP Leg 128 sea of Japan; basement rocks, volcanism and a Kuroko massive sulfide environment in a failed rift | |
| 83% | 128
128-799 | 1991 | Scott, Steven D.; Marumo, Katsumi: Successful test of the failed rift hypothesis for kuroko-type massive sulfide deposits, ODP Site 799, Sea of Japan | |
| 83% | | 2006 | Schwarz-Schampera, Ulrich; Stoffers, Peter et al.: IODP; high-temperature hydrothermal venting at submarine volcanoes on the Tonga Arc, SW Pacific | |
| 83% | 54 | 1979 | Schrader, E. L.; Furbish, W. J.: Geochemical characteristics of oceanic hydrothermal and diagenetic Mn deposits; possible economic applications | |
| 67% | 111 | 1988 | Schoeps, Dietmar; Herzig, Peter M.: Mineralogy and chemical composition of sulfides from the Leg 111 dike section of ODP Hole 504B, Costa Rica Rift | |
| 83% | 193 | 2001 | Roberts, Stephen; Benning, Liane G.: Leg 193; Manus Basin | |
| 50% | 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 | |
| 67% | 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 | |
| 67% | 139
158
169
193 | 2009 | Roberts, Stephen: Mechanisms for the formation of ocean floor massive sulfides; is there more to learn from ocean drilling? | |
| 67% | 193 | 2005 | Pinto, A. M. M.; Relvas, J. M. R. S. et al.: Gold mineralization in recent and ancient volcanic-hosted massive sulfides; the PACMANUS Field and the Neves Corvo Deposit | |
| 83% | 139
158
169
193 | 2003 | Phillips, Neil: Economic geology | |
| 50% | 158
158-957 | 2003 | Petersen, Sven; Herzig, Peter M. et al.: Diversity of seafloor hydrothermal systems on sediment-free mid-ocean ridges | |
| 67% | | 2000 | Petersen, S.; Herzig, P. M. et al.: Third dimension of a presently forming VMS deposit; TAG hydrothermal mound, Mid-Atlantic Ridge, 26N | |
| 83% | | 1991 | Peter, Jan M.; Scott, Steven D.: Hydrothermal mineralization in the Guaymas Basin, Gulf of California | |
| 67% | 64
64-477
64-481 | 1986 | Peter, J.; Scott, S. D. et al.: Geochemical, mineralogical, fluid inclusion, and stable isotope studies of hydrothermal vent precipitates, Guaymas Basin, Gulf of California | |
| 83% | 169 | 2000 | Peter, J. M.; Goodfellow, W. D.: Setting, mineralogy and geochemistry of the Middle Valley sulfide deposits; results of ODP Leg 169 | |
| 50% | 193 | 2006 | Paulick, Holger; Bach, W.: Phyllosilicate alteration mineral assemblages in the active subsea-floor PACMANUS hydrothermal system, Papua New Guinea, ODP Leg 193 | |
| 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 |
| 58% | 193 | 2002 | Paul, Heather: Petrology and lithogeochemistry of volcanic rocks hosting seafloor hot springs systems in the Manus Basin, southwestern Pacific Ocean | |
| 67% | 28
28-268 | 1991 | Oudin, E.; Pascal, M. L. et al.: Base and precious metal deposition processes in a submarine geyser; the Atlantis II Deep case | |
| 50% | 69
69-504
70
70-504
83
83-504
92
92-504
111
111-504
137
137-504
140
140-504
148
148-504 | 1987 | Nesbitt, Bruce E.; St. Louis, Robert M. et al.: Distribution of gold in altered basalts of DSDP Hole 504B | |
| 50% | 69
69-504
70
70-504
83
83-504
92
92-504
111
111-504
137
137-504
140
140-504
148
148-504 | 2007 | Nakamura, Kentaro; Kato, Yasuhiro et al.: Geochemistry of hydrothermally altered basaltic rocks from the Southwest Indian Ridge near the Rodriguez triple junction | download |
| 50% | 69
69-504
70
70-504
83
83-504
92
92-504
111
111-504
137
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148
148-504 | 1995 | Muehe, R.; Peucker-Ehrenbrink, B. et al.: Pb-enrichment within hydrothermally altered oceanic crust; implications for the global Pb-geochemical cycle | |
| 50% | 158 | 2000 | Mozgova, N. N.; Borodaev, Yu. S. et al.: Noble metals in sulfide assemblages from deep sectors of the active TAG Mound (Mid-Atlantic Ridge, 26 degrees 08'N) | |
| 17% | 5
5-35 | 1990 | Morton, Janet L.; Zierenberg, Robert A. et al.: Volcanic and sedimentary controls on hydrothermal mineralization at Escanaba Trough, southern Gorda Ridge | download |
| 58% | 158 | 1999 | Monecke, T.; Kempe, U. et al.: Trace element characteristics of quartz from the TAG hydrothermal mound | |
| 13% | 158 | 1998 | Mills, Rachel A.; Teagle, Damon A. H. et al.: Fluid mixing and anhydrite precipitation within the TAG mound | download |
| 83% | 193
193-1188 | 2003 | McConachy, Tim F.; Binns, Ray A.: Modern seafloor hydrothermal systems and ore forming processes | |
| 83% | 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 | |
| 83% | 139 | 1993 | Marchig, V.; Boni, M.: Massive sulfides from Middle Valley (Ocean Drilling Program, Leg 139 "sedimented ridges"); mineral and chemical composition and comparison with massive sulfides from the southern part of the East Pacific Rise | |
| 100% | | 1981 | Manheim, Frank T.; Hess, Harold D.: Hard mineral resources around the U S continental margin | |
| 67% | 54
54-424 | 1982 | Malahoff, Alexander; Mcmurtry, Gary M. et al.: Geology and chemistry of hydrothermal deposits from active submarine volcano Loihi, Hawaii | |
| 13% | 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 |
| 58% | 64
64-476
66
66-490
66-491
67
67-497
67-498 | 1992 | Lipkina, M. I.: Low temperature hydrothermal mineralization and hydrocarbons in the ocean | |
| 67% | 85
85-573
85-574 | 2004 | Li, Y. H.; Schoonmaker, J. E.: Chemical composition and mineralogy of marine sediments | |
| 67% | 193
193-1189 | 2004 | Lee, S.; Doh, S. et al.: Magnetic and electron microscopic investigation on rock samples from the PACMANUS hydrothermal vent field in Papua New Guinea | |
| 83% | | 1986 | Lazur, Yu. M.; Varentsov, I. M. et al.: Dispersed Mn, Fe, Ti, Cu, and Zn mineralization in hydrothermal and pelagic sediments in the region of the Galapagos Rift; 70th voyage of the Glomar Challenger | |
| 67% | 62
62-463
62-465
62-466 | 1985 | Lazur, Yu. M.; Varentsov, I. M. et al.: Copper-zinc mineralization in Mesozoic sediments in central areas of the Northwest Pacific (62nd voyage of the Glomar Challenger) | |
| 83% | 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 | |
| 8% | 169 | 2000 | Lawrie, Darren; Miller, D. Jay: Sulfide mineral chemistry and petrography from Bent Hill, ODP Mound, and TAG massive sulfide deposits | download |
| 67% | 31
31-291
31-294 | 1983 | Lalou, Claude: Genesis of ferromanganese deposits; hydrothermal origin | |
| 33% | 139
139-856
139-858
169
169-856
169-858
169-1035
169-1036 | 2000 | Lackschewitz, K. S.; Singer, A. et al.: Formation and transformation of clay minerals in the hydrothermal deposits of Middle Valley, Juan de Fuca Ridge, ODP Leg 169 | |
| 58% | 139
139-856
139-857
139-858
169
169-856
169-857
169-858 | 2004 | Kurnosov, Victor B.: Hydrothermal mineralization and redistribution of chemical elements on sedimented Juan de Fuca Ridge | |
| 83% | | 2001 | Kruglyakov, V. V.; Ponomareva, I. N.: Problems of mining ocean-floor ferromanganese nodules | |
| 67% | 139 | 1994 | Krasnov, Sergey G.: Alteration of an oceanic massive sulfide deposit, caused by a sill-driven hydrothermal system in sediments; evidences from geochemistry and mineralogy | |
| 83% | | 1992 | Kotlinski, R.: Wyniki badan geologiczno-poszukiwawczych zloz konkrecji polimetalicznych, w stredie Klarion-Klipperton na Oceanie Spokojnym Results of geologic exploration research on polymetallic concretions in the Clarion-Clipperton Zone, Pacific Ocean | |
| 83% | | 1992 | Kotarba, M.; Piela, J. et al.: Geneza gazu zimnego akumulowanego w Permsko-Karbonskich puapkach litologicznych zloza "Paproc" w swietle badan izotopowych Origin of natural gas in Permo-Carboniferous lithological traps of the Paproc Field, western Poland, in light of isotope studies | |
| 67% | 45 | 1982 | Kossowskaya, A. G.; Petrova, V. V. et al.: Mineral associations of palagonitization of oceanic basalts and aspects of extraction of mineral components | |
| 67% | 5
5-35 | 1988 | Koski, Randolph A.; Shanks, Wayne C., III et al.: The composition of massive sulfide deposits from the sediment-covered floor of Escanaba Trough, Gorda Ridge; implications for depositional processes | |
| 67% | 64
64-481 | 1993 | Kodina, L. A.; Vlasova, L. N. et al.: O prevrashcheniyakh organicheskogo veshchestva osadkov v zone gidrotermal'noy aktivnosti basseyna Guaymas po dannym izotopno-geokhimicheskgo issledovaniya Alteration of organic materials in sediments from hydrothermal zones in the Guaymas Basin according to isotopic and geochemical data | |
| 58% | 193 | 2005 | Ketcham, Richard A.; Iturrino, Gerardo J.: Non-destructive high-resolution visualization and measurement of anisotropic effective porosity in complex lithologies using high-resolution X-ray computed tomography | download |
| 58% | 69
69-504
70
70-504
83
83-504
92
92-504 | 1988 | Kawahata, Hodaka; Shikazono, Naotatsu: Sulfur isotope and total studies of basalts and greenstones from DSDP Hole 504B, Costa Rica Rift; implications for hydrothermal alteration | |
| 50% | 69
69-504
70
70-504
83
83-504
92
92-504
111
111-504
137
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148-504 | 1986 | Kawahata, Hodaka; Scott, Steven D. et al.: Subseafloor sulfide precipitation in DSDP Hole 504B | |
| 50% | 158
158-957 | 2006 | Jiang Shaoyong; Yang Tao et al.: Lead and sulfur isotopic composition of sulfides from the TAG hydrothermal field, Mid-Atlantic Ridge | |
| 42% | | 2000 | Jewell, Paul W.: Bedded barite in the geologic record | |
| 67% | 169
169-1038 | 1999 | James, Rachael H.; Rudnicki, Mark D. et al.: The alkali element and boron geochemistry of the Escanaba Trough sediment-hosted hydrothermal system | |
| 83% | 169 | 1997 | James, R. H.; Palmer, M. R.: Evidence for the transport of phase-separated hydrothermal fluids through sediment at the Escanaba Trough | |
| 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 | |
| 1% | 201 | 2010 | Jaisi, Deb P.; Blake, Ruth E.: Tracing sources and cycling of phosphorus in Peru margin sediments using oxygen isotopes in phosphates | download |
| 67% | 158 | 1994 | Humphris, S. E.; Tivey, M. K. et al.: Investigating the formation of the active TAG hydrothermal mound using observational, petrographic and geochemical data | |
| 83% | 169 | 1997 | Houghton, J.; Pulsipher, T. et al.: Major and minor element geochemistry of sulfide minerals from Middle Valley and Escanaba Trough sediment hosted volcanogenic massive sulfide deposits | |
| 58% | 169 | 2004 | Houghton, J. L.; Shanks, W. C., III et al.: Massive sulfide deposition and trace element remobilization in the Middle Valley sediment-hosted hydrothermal system, northern Juan de Fuca Ridge | download |
| 25% | 31
31-297 | 1975 | Hosking, K. F. G.: The sulphides of certain deep-sea sediment samples collected on DSDP Leg 31 | download |
| 67% | 173
173-1068 | 2001 | Hopkinson, L.; Beard, J. S. et al.: The nature of syntectonic hydrothermal circulation and mineralization within a serpentinite-hosted detachment fault; a case study from the West Iberia non-volcanic rifted continental margin | |
| 8% | 69
69-504
70
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83
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148-504 | 1985 | Honnorez, Jose; Alt, Jeffrey C. et al.: Stockwork-like sulfide mineralization in young oceanic crust; Deep Sea Drilling Project Hole 504B | download |
| 67% | 106 | 1986 | Honnorez, J.; Detrick, R. et al.: Mineralogy and geology of the Snake-Pit hydrothermal sulfide deposit on the Mid-Atlantic Ridge at 23 degrees N | |
| 83% | 159
159-960 | 1995 | Hisada, K.; Ishii, T. et al.: Detrital chrome spinels in Hole 960A, CIGMR | |
| 58% | | 1990 | Hill, Peter J.; Coulbourn, William T. et al.: Manihiki Plateau; results of recent resource-oriented shipboard investigations and discovery of a major ?mud volcano complex | |
| 67% | 158 | 1997 | Herzig, Peter M.; Petersen, Sven et al.: Unusual sulfur isotopic composition of volcanic-hosted massive sulfide deposits at the modern seafloor; TAG hydrothermal mound (MAR) and Lau back-arc (SW-Pacific) | |
| 83% | 158 | 1995 | Herzig, Peter M.; Humphris, Susan E.: Ocean Drilling Program reveals the subsurface nature of the TAG hydrothermal mound | |
| 83% | 158 | 1995 | Herzig, P.; Humphris, S.: Drilling the TAG hydrothermal mound, MAR 26 degrees N | |
| 58% | 118 | 1991 | Hebert, R.; Constantin, M.: Petrology of hydrothermal metamorphism of oceanic layer 3; implications for sulfide parageneses and redistribution | |
| 50% | 69
69-504
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148-504 | 1989 | Hannington, Mark Donald: The geochemistry of gold in modern seafloor hydrothermal systems and implications for gold mineralization in ancient volcanogenic massive sulfides | |
| 7% | 158 | 1998 | Hannington, Mark D.; Galley, Alan G. et al.: Comparison of the TAG mound and stockwork complex with cyprus-type massive sulfide deposits | download |
| 67% | 158 | 1994 | Hannington, M. D.; Jonasson, I. R. et al.: Active volcanoes and ore deposits on the ocean floor--Volcans actifs et gisements de minerai sur le plancher oceanique | |
| 50% | 69
69-504
70
70-504
83
83-504
92
92-504
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111-504
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148-504 | 1988 | Hannington, M. D.; Herzig, Peter M. et al.: The distribution of gold in sub-seafloor stockwork mineralization from DSDP Hole 504B and the Agrokipia B Deposit, Cyprus | |
| 83% | 158 | 1996 | Hannington, M. D.; Galley, A. G. et al.: Comparison of the TAG mound-stockwork complex with cyprus-type massive sulfide deposits; results of Leg 158 drilling | |
| 50% | 69
69-504
70
70-504
83
83-504
92
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148-504 | 1995 | Hall, James M.; Yang, Jing-Sui: Constructional features of Troodos type oceanic crust; relationships between dike density, alteration, magnetization, and ore body distribution and their implications for in situ oceanic crust | download |
| 100% | | 1985 | Halkyard, John E.: Technology for mining cobalt rich manganese crusts from seamounts | |
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