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| Score ↓ | Exp/Site/Hole | Year | Author/Title | Full text |
|---|
| 100% | 154 | 1995 | Exploring an active seafloor hydrothermal system | |
| 94% | 126 | 1998 | Sui, A. U.; Glasby, G. P.: Submarine hydrothermal manganese deposits in the Izu-Bonin-Mariana Arc; an overview | |
| 91% | 158 | 1996 | Gemmell, J. Bruce: Subsurface architecture of the TAG hydrothermal mound, Mid-Atlantic Ridge; results of Ocean Drilling Program Leg 158 | |
| 91% | 158 | 1996 | Honnorez, Jose J.; Alt, Jeffrey C. et al.: Active and fossil hydrothermal alterations of basalt beneath and within the TAG hydrothermal mound | |
| 89% | 158 | 1995 | Active hydrothermal system drilled at the Mid-Atlantic Ridge | |
| 89% | | 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 | |
| 83% | 158 | 1994 | Herzig, Peter; Humphris, Susan et al.: TAG hydrothermal system | |
| 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 | |
| 83% | 158 | 1996 | Alt, Jeffrey C.; Teagle, Damon A. H.: Probing the TAG hydrothermal mound and stockwork; oxygen isotopic profiles from deep ocean drilling | |
| 83% | | 1999 | Jacquemont, Benoit; Honnorez, Jose: Present-day paragonite-smectite mixed layer phyllosilicate from the TAG active hydrothermal mound, Mid-Atlantic Ridge | |
| 83% | 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 | |
| 83% | 158 | 1995 | Herzig, P.; Humphris, S.: Drilling the TAG hydrothermal mound, MAR 26 degrees N | |
| 79% | 158
158-957 | 1996 | Charlou, Jean L.; Donval, Jean P. et al.: Gases and helium isotopes in high temperature solutions sampled before and after ODP Leg 158 drilling at TAG hydrothermal field (26 degrees N, MAR) | download |
| 77% | 109 | 1986 | Fujii, T.; Hamano, Y.: Preliminary results of Leg 109, Deep-Sea Drilling Project, ODP | |
| 77% | | 1984 | Peterson, Curt D.; Duncan, Robert A. et al.: Downcore variation and sequence of hydrothermal mineralization in massive sea-floor basalts, DSDP Site 597 | |
| 77% | 49 | 1991 | Ogishima, Tomoko; Kinoshita, Hajimu: Alteration of ferromagnetic constituents of oceanic basalt under pressurized hydrothermal liquids in laboratory | |
| 75% | | 1994 | Edmonds, Henrietta N.; Gamo, T. et al.: Sampling of hydrothermal fluids from the TAG Mound, Mid-Atlantic Ridge, by Shinkai 6500; preliminary results of fluid chemistry characterization prior to ODP drilling | |
| 75% | 158 | 1996 | Petersen, S.; Herzig, P. M. et al.: Fluid temperature history of the TAG hydrothermal mound, Mid-Atlantic Ridge, 26 degrees N | |
| 75% | 158 | 1994 | Humphris, Susan; Herzig, Peter et al.: TAG: drilling an active hydrothermal system on a sediment-free slow-spreading ridge | |
| 75% | 158 | 1996 | Bruegmann, G. E.; Hofmann, A. W. et al.: Os isotopic composition and Os distribution in the active mound of the TAG-hydrothermal system, Mid-Atlantic Ridge | |
| 75% | | 2000 | Zhirnov, E. A.; Cherkashev, G. A. et al.: Inner structure of the TAG active hydrothermal mound (by ODP materials) | |
| 75% | 158 | 2000 | Fujioka, Kantaro; Chiba, Hitoshi et al.: Large change of architecture and fluid passway at the TAG hydrothermal mound, Mid-Atlantic Ridge | |
| 75% | 158 | 1996 | Zhao, X.; Housen, B. et al.: Magnetic property variations in Leg 158 cores and their relation to alteration of the TAG mound | |
| 75% | 106
139 | 1996 | Duckworth, R. C.: Hydrothermal processes, sulphide deposits and the Ocean Drilling Program | |
| 75% | 54
54-424 | 1980 | Lalou, C.; Brichet, E.: Anomalously high uranium contents in the sediment under Galapagos hydrothermal mounds | |
| 75% | | 1995 | Schultz, A.; Dickson, P. et al.: Physical and chemical response of the TAG hydrothermal system to tidal forcing and ODP drilling-induced permeability changes | |
| 75% | | 1995 | Mills, R. A.; Tivey, M. K.: Fluid circulation within the TAG mound | |
| 75% | 193
193-1188 | 2003 | McConachy, Tim F.; Binns, Ray A.: Modern seafloor hydrothermal systems and ore forming processes | |
| 75% | 158
158-957 | 1995 | Humphris, Susan E.; Herzig, Peter M. et al.: TAG hydrothermal field | |
| 75% | 158 | 1994 | Humphris, S. E.; Kleinrock, M. C.: Detailed morphology and the distribution of venting of the active TAG Hydrothermal Mound, 26 degrees N, Mid-Atlantic Ridge | |
| 75% | 158 | 1998 | You, C. F.; Bickle, M. J.: Evolution of an active sea-floor massive sulphide deposit | |
| 75% | 158 | 2001 | Al-Hanbali, Hakam S.; Sowerby, Stephen J. et al.: Biogenicity of silicified microbes from a hydrothermal system; relevance to the search for evidence of life on Earth and other planets | |
| 75% | | 2000 | Petersen, Sven: The geochemical and mineralogical evolution of the TAG hydrothermal field, Mid-Atlantic Ridge, 26 degrees N | |
| 75% | | 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 | |
| 75% | | 2010 | Craddock, Paul R.; Bach, Wolfgang: Insights to magmatic-hydrothermal processes in the Manus back-arc basin as recorded by anhydrite | |
| 75% | 158 | 2002 | Al-Hanbali, Hakam S.; Holm, Nils G.: Evidence for fossilized subsurface microbial communities at the TAG hydrothermal mound | |
| 75% | 158 | 1994 | Humphris, Susan E.: Drilling will TAG active hydrothermal system on the MAR | |
| 75% | | 1983 | Moorby, S. Anthony: The geochemistry of transitional sediments recovered from the Galapagos Hydrothermal Mounds Field during DSDP Leg 70; implications for mounds formation | |
| 75% | 158 | 1995 | Herzig, Peter M.; Humphris, Susan E.: Ocean Drilling Program reveals the subsurface nature of the TAG hydrothermal mound | |
| 74% | 193 | 2006 | Paulick, Holger; Bach, W.: Phyllosilicate alteration mineral assemblages in the active subsea-floor PACMANUS hydrothermal system, Papua New Guinea, ODP Leg 193 | |
| 74% | 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 | |
| 74% | 168 | 2009 | Ishibashi, Jun-ichiro: Geochemical fluxes of hydrothermal fluid circulation within oceanic crust | |
| 74% | 118 | 1991 | Hebert, R.; Constantin, M.: Petrology of hydrothermal metamorphism of oceanic layer 3; implications for sulfide parageneses and redistribution | |
| 74% | 116
116-717
116-718
116-719 | 2005 | Iyer, Sridhar D: Evidences for incipient hydrothermal event(s) in the Central Indian Basin; a review | |
| 73% | 158 | 1996 | Humphris, Susan E.; Alt, Jeffrey C. et al.: Geochemical changes during hydrothermal alteration of basement in the stockwork beneath the TAG active hydrothermal mound, ODP Leg 158 | |
| 73% | 158 | 1998 | Masuda, H.; Nakamura, M. et al.: Hydrothermal basalt alteration at the surface of the TAG active mound, MAR26 degrees N | |
| 73% | 158 | 1996 | Schultz, A.; Dickson, P. et al.: Temporal variations in diffuse hydrothermal flow at TAG | download |
| 73% | 158 | 1996 | 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 | |
| 73% | 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) | |
| 71% | 54
54-424 | 1980 | Schrader, Edward L.; Rosendahl, Bruce R. et al.: Mineralogy and geochemistry of hydrothermal and pelagic sediments from the Mounds hydrothermal field, Galapagos spreading center; DSDP Leg 54 | |
| 71% | 158
158-957 | 2003 | Petersen, Sven; Herzig, Peter M. et al.: Diversity of seafloor hydrothermal systems on sediment-free mid-ocean ridges | |
| 70% | 69
69-504
70
70-504
83
83-504
92
92-504
111
111-504
137
137-504
140
140-504
148
148-504 | 2012 | Nakamura, Kentaro: Geochemistry of water-rock interactions in seafloor hydrothermal systems | |
| 69% | | 1996 | MacLeod, C. J.; Manning, C. E.: Influence of axial segmentation on hydrothermal circulation at fast-spreading ridges; insights from Hess Deep | |
| 69% | 193 | 2002 | Paul, Heather: Petrology and lithogeochemistry of volcanic rocks hosting seafloor hot springs systems in the Manus Basin, southwestern Pacific Ocean | |
| 69% | 193 | 2007 | Monecke, T.; Giorgetti, G. et al.: Textural and mineralogical changes associated with the incipient hydrothermal alteration of glassy dacite at the submarine PACMANUS hydrothermal system, eastern Manus Basin | download |
| 67% | 106
106-649 | 1990 | Gillis, Kathryn M.; Smith, Alan D. et al.: Trace element and Sr-isotopic contents of hydrothermal clays and sulfides from the Snake Pit hydrothermal field; ODP Site 649 | download |
| 67% | 54
54-424 | 1982 | Malahoff, Alexander; Mcmurtry, Gary M. et al.: Geology and chemistry of hydrothermal deposits from active submarine volcano Loihi, Hawaii | |
| 67% | 9
9-83
138 | 1998 | Gurvich, E. G.: History of hydrothermal activity at the East Pacific Rise between 5 degrees S and 12 degrees N for the past 18 My | |
| 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 | |
| 67% | | 1986 | Detrick, R. S.; Honnorez, J. et al.: Drilling the Snake Pit hydrothermal sulfide deposit on the Mid-Atlantic Ridge, 23 degrees 22'N | |
| 67% | 158 | 1996 | Kinoshita, M.; Matsubayashi, O. et al.: Sub-bottom temperature anomalies detected by long-term temperature monitoring at the TAG hydrothermal mound | download |
| 67% | 106
106-649 | 1989 | Karson, Jeffrey A.; Brown, Jennifer R.: Geologic setting of the Snake Pit hydrothermal site; an active vent field on the Mid-Atlantic Ridge | |
| 67% | 158 | 1996 | Edmonds, H. N.; German, C. R. et al.: Continuation of the hydrothermal fluid chemistry time series at TAG, and the effects of ODP drilling | download |
| 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% | 158 | 1998 | Teagle, Damon A. H.; Alt, Jeffrey C. et al.: Strontium and oxygen isotopic constraints on fluid mixing, alteration and mineralization in the TAG hydrothermal deposit | |
| 67% | 158 | 2011 | Ludwig, Kristin A.; Shen, Chuan-Chou et al.: U/Th systematics and (super 230) Th ages of carbonate chimneys at the Lost City hydrothermal field | |
| 67% | 158 | 1996 | Ludwig, Rainer J.; Fryer, Gerard J. et al.: The relationship between seismic velocity and porosity of sulfide, sulfate, and basalt samples from the TAG hydrothermal mound | |
| 65% | 118 | 1990 | Hebert, Rejean; Constantin, Marc et al.: Hydrothermal circulation in the oceanic layer 3; evidences from Leg 118 gabbroic rocks | |
| 65% | 139 | 1990 | Johnson, H. Paul; Franklin, James M.: Hydrothermal pattern exposed by SeaMARC 1A survey | |
| 65% | 64 | 1981 | Kastner, M.; Gieskes, J. M.: Hydrothermal activity in the Guaymas Basin, Gulf of California | |
| 65% | 54
54-424 | 1982 | Barnaba, S. P.: Chemistry of minerals of the hydrothermal deposits at the Galapagos spreading center, East Pacific | |
| 65% | 139 | 1992 | Marumo, Katsumi: Clay mineralogy of hydrothermally altered sediment of Middle Valley seafloor hydrothermal system | |
| 65% | | 1996 | Goodfellow, Wayne D.; Zierenberg, R. A. et al.: Hydrothermal alteration associated with modern sediment-covered rifts; application to the exploration for ancient sulphide deposits | |
| 65% | 54 | 1979 | Schrader, E. L.; Furbish, W. J.: Geochemical characteristics of oceanic hydrothermal and diagenetic Mn deposits; possible economic applications | |
| 65% | | 1991 | Peter, Jan M.; Scott, Steven D.: Hydrothermal mineralization in the Guaymas Basin, Gulf of California | |
| 65% | 34 | 1974 | Swanson, S. B.; Scott, R. B.: Hydrothermal products of Leg 34 basalts; Deep Sea Drilling Project | |
| 65% | 54
54-424 | 1981 | Bonnot-Courtois, Chantal: Distribution des terres rares dans les depots hydrothermaux de la zone FAMOUS et des Galapagos; comparaison avec les sediments metalliferes Distribution of rare earths in hydrothermal deposits from the FAMOUS and Galapagos areas; comparison with metalliferous sediments | |
| 65% | 158 | 1996 | Rona, Peter A.; Von Herzen, Richard P.: Special section on Measurements and monitoring at the TAG hydrothermal field, Mid-Atlantic Ridge 26 degrees N, 45 degrees W | |
| 65% | | 1979 | Donnelly, T. W.; Thompson, G. et al.: Very-low-temperature hydrothermal alteration of the oceanic crust and the problem of fluxes of potassium and magnesium | |
| 65% | | 1995 | Mills, Rachel A.; Elderfield, Harry: Hydrothermal activity and the geochemistry of metalliferous sediment | |
| 65% | 64 | 1980 | Gieskes, J.: Intrusion of basaltic sills into highly porous sediments; resulting hydrothermal activity; Guaymas Basin--Gulf of California | |
| 65% | 70 | 1980 | Honnorez, J.; Von Herzen, R. P.: IPOD Leg 70; comparison between open and closed hydrothermal regimes in young and not so young oceanic crust | |
| 65% | 58
58-442 | 1987 | Sugitani, Kenichiro: A geochemical study of hydrothermal manganese micronodules from marine sediments and sedimentary rocks on land | |
| 65% | | 1979 | Corliss, J.; Gordon, L. I. et al.: Some implications of heat/mass ratios in Galapagos Rift hydrothermal fluids for models of sea water-rock interaction and the formation of oceanic crust | |
| 65% | 54
54-424 | 1987 | Varnavas, S. P.: Marine barite in sediments from Deep Sea Drilling Project sites 424 and 424A (Galapagos hydrothermal mounds field) | |
| 65% | 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 | |
| 65% | 139 | 1992 | Franklin, J. M.: Hot rocks, hot water and cold sulfides; preliminary results, ODP Leg 139 drilling the Juan de Fuca Ridge | |
| 65% | 169 | 1997 | James, R. H.; Palmer, M. R.: Evidence for the transport of phase-separated hydrothermal fluids through sediment at the Escanaba Trough | |
| 65% | | 2006 | Schwarz-Schampera, Ulrich; Stoffers, Peter et al.: IODP; high-temperature hydrothermal venting at submarine volcanoes on the Tonga Arc, SW Pacific | |
| 65% | 193 | 2003 | Lee, Sang-Mook: Rock magnetic investigation of felsic hydrothermal vent system; results from ODP Leg 193 to eastern Manus Basin, Papua New Guinea | |
| 65% | 158 | 1995 | Kinoshita, M.; Goto, S. et al.: Correlation between transient changes observed by long-term heat flow monitoring system and ODP Leg 158 drillings at TAG hydrothermal mound | |
| 65% | 70 | 1983 | Moorby, S. A.; Cronan, D. S.: The geochemistry of hydrothermal and pelagic sediments from the Galapagos hydrothermal mounds field, D.S.D.P. Leg 70 | |
| 65% | 193 | 2002 | Iturrino, Gerardo J.; Bartetzko, Anne: Subsurface fracture patterns in the PACMANUS hydrothermal system identified from downhole measurements and their potential implications for fluid circulation | |
| 65% | 169 | 2005 | Peter, J. M.; Scott, S. D. et al.: Hydrothermal petroleum in modern sediment-hosted seafloor massive sulphide deposits at Guaymas Basin and Escanaba Trough | |
| 65% | 331 | 2011 | Masaki, Yuka; Takai, K. et al.: Hydrothermal regime of the Iheya-North hydrothermal field inferred from surface heat flow data and, IODP Expedition 331 drilling results | |
| 64% | 17
17-168 | 1998 | Hunter, A. G.: Petrological investigations of low temperature hydrothermal alteration of the upper crust, Juan de Fuca Ridge, ODP Leg 168 | |
| 64% | 69
69-504
70
70-504
83
83-504
92
92-504
111
111-504
137
137-504
140
140-504
148
148-504 | 2003 | Honnorez, Jose: Hydrothermal alteration vs. ocean-floor metamorphism; a comparison between two case histories, the TAG hydrothermal mound (Mid-Atlantic Ridge) vs. DSDP/ODP Hole 504B (Equatorial East Pacific) | |
| 64% | 304
304-U1309
305
305-U1309 | 2010 | McCaig, Andrew M.; Delacour, Adelie et al.: Detachment fault control on hydrothermal circulation systems; interpreting the subsurface beneath the TAG hydrothermal field using the isotopic and geological evolution of oceanic core complexes in the Atlantic | |
| 64% | 158 | 2005 | Humphris, Susan E.; Bach, Wolfgang: On the Sr isotope and REE compositions of anhydrites from the TAG seafloor hydrothermal system | download |
| 63% | 135 | 1994 | Hodkinson, R. A.; Cronan, D. S.: Variability in the hydrothermal component of the sedimentary sequence in the Lau backarc basin (sites 834-839) | download |
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