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| Score ↓ | Exp/Site/Hole | Year | Author/Title | Full text |
|---|
| 100% | 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 | |
| 98% | 53 | 1981 | Gitlin, Ellen C.: Remobilization of sulfides and low temperature alteration of submarine basaltic rocks from Leg 53 of the Deep Sea Drilling Project | |
| 98% | 37 | 1976 | MacLean, W. H.: Sulfides in drill core from Leg 37 - Joides | |
| 98% | | 2004 | Hollamby, Jennifer; Musgrave, Robert: A rock-magnetic investigation of bacterially mediated iron sulfide diagenesis associated with gas hydrate-bearing deep marine sediments | |
| 92% | 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 | |
| 82% | 53 | 1978 | Mathez, E. A.: Primary sulfides of crystalline submarine basalts | |
| 82% | | 1996 | Halbach, Peter; Blum, N. et al.: The Indian Ocean; future area for drilling activities? The only -- up to now -- massive sulfides in the Indian Ocean (Meso mineral zone, CIR) | |
| 82% | 37
37-332 | 1977 | MacRae, N. D.; Fleet, M. E. et al.: An occurrence of secondary sulfides from Leg 37 basalts | |
| 82% | 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 | |
| 82% | | 2003 | Hollamby, J. A.; Musgrave, R. J.: A rock-magnetic study of bacterially mediated iron sulfide diagenesis associated with gas hydrate-bearing sediments | |
| 82% | | 1992 | Duan, W.; Raiswell, R. et al.: Geochemical characteristic of organic C, pyrite S and reactive Fe and environmental control on sediment in North Japan Sea basin | |
| 82% | 139 | 1992 | Franklin, J. M.: Hot rocks, hot water and cold sulfides; preliminary results, ODP Leg 139 drilling the Juan de Fuca Ridge | |
| 82% | 160 | 1999 | Roberts, Andrew P.; Stoner, Joseph S. et al.: Diagenetic magnetic enhancement of sapropels from the eastern Mediterranean Sea | |
| 69% | 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) | |
| 69% | | 1992 | Franklin, James M.: Advances in understanding volcanogenic massive sulphide deposits; lessons from the modern environment | |
| 69% | | 1979 | Giovanoli, Federico: Die remanente magnetisierung von seesedimenten Remanent magnetization of lake sediments | |
| 69% | | 1990 | Perfit, M. R.: Magmatism, hydrothermal alteration and sulphide mineralization on the Galapagos Ridge: a potential ODP site to study massive sulphide genesis | |
| 69% | | 1983 | Book, Patricia O'Donnell: A study of vein minerals in Deep Sea Drilling Project Hole 462A | |
| 69% | | 2003 | Goodfellow, Wayne David: Massive sulfide deposits at modern sedimented oceanic rifts; geological setting and genetic processes | |
| 69% | | 2000 | Moran, Kate: The future of scientific ocean drilling; new opportunities in science and industry | |
| 69% | | 1995 | Housen, Bernard A.; Moskowitz, Bruce M.: Low temperature behavior of pyrrhotite in marine sediments | |
| 69% | 23
23-225
23-227
23-228 | 1974 | Shanks, W. C.; Bischoff, J. L. et al.: Sulfur isotope studies of evaporites and shales from sites 225, 227, and 228 in the Red Sea | download |
| 68% | 139
139-856
139-857
139-858
146
169
169-856
169-857
169-858
169-1035
169-1036
169-1037
169-1038 | 2000 | Zierenberg, Robert A.; Fouquet, Yves et al.: Proceedings of the Ocean Drilling Program, scientific results, sedimented ridges II; covering Leg 169 of the cruises of the drilling vessel JOIDES Resolution, Victoria, British Columbia, to San Diego, California; sites 856-858 and 1035-1038, 21 August-16 October 1996 | download |
| 66% | 37 | 1977 | Hall, James M.; Fischer, Joseph F.: Opaque mineralogy of basement rocks, Leg 37 | download |
| 65% | 34
34-319
34-320 | 1974 | Mathez, E. A.; Yeats, R. S.: Magmatic sulfides in basalt glass from the Nazca Plate, DSDP LEG 34 | |
| 65% | 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 | |
| 65% | 160 | 1996 | Frankel, E.: ODP Leg 160; Eastern Mediterranean Sea | |
| 65% | 107
107-653 | 1990 | Channell, James E. T.; Hawthorne, T.: Progressive dissolution of titanomagnetites at ODP Site 653 (Tyrrhenian Sea) | |
| 65% | 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 | |
| 65% | 193 | 2007 | Barriga, F. D.; Binns, R. A. et al.: Trekhmernaya vulkanogennaya gidrotermal'naya medno-kolchedannaya sistema v zadugovom basseyne Manus (Papua-Novaya Gvineya) Three-dimensional hydrothermal copper-sulfide volcanic system in the Manus back-arc basin (Papua-New Guinea) | |
| 65% | 37
37-332
37-333
37-334 | 1977 | MacLean, W. H.: Sulfides in Leg 37 drill core from the Mid-Atlantic Ridge | |
| 65% | 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) | |
| 65% | 186
186-1150
186-1151 | 2003 | Kanamatsu, Toshiya; Niitsuma, Nobuaki: Rock magnetic stratigraphy of sediments from the Japan Trench, ODP Leg 186 | |
| 65% | 178
178-1096 | 2007 | Dulgar, S. E.; Brachfeld, S. et al.: Deposition, diagenetic, or bacterial origin of magnetite in sediment drifts from the western Antarctic Peninsula | |
| 65% | 118
118-735
118-735B
176
176-735
176-735B | 1991 | Alt, Jeffrey C.; Anderson, Thomas F.: Mineralogy and isotopic composition of sulfur in Layer 3 gabbros from the Indian Ocean, Hole 735B | download |
| 65% | 52
52-418
53
53-418
102
102-418 | 1980 | Mathez, E. A.: Sulfide relations in Hole 418A flows and sulfur contents of glasses | download |
| 65% | 139
169 | 2000 | Scholten, J. C.; Lackschewitz, Klas S. et al.: (super 230) Th/ (super 234) U and (super 231) Pa/ (super 235) U disequilibria in massive sulfides from the Bent Hill area (legs 139 and 169) | download |
| 60% | 158 | 1998 | Andrieu, A. S.; Honnorez, Jose J. et al.: Lead isotope compositions of the TAG mineralization, Mid-Atlantic Ridge, 26 degrees 08'N | download |
| 60% | 34 | 1976 | Field, C. W.; Dymond, J. et al.: Sulfur isotope reconnaissance of epigenetic pyrite in ocean-floor basalts, Leg 34 and elsewhere | download |
| 59% | 106
106-649
106-649B | 1990 | Honnorez, Jose; Mevel, Catherine et al.: Mineralogy and chemistry of sulfide deposits drilled from hydrothermal mound of the Snake Pit active field, MAR | download |
| 59% | 118
118-735
176
176-735 | 2002 | Miller, D. Jay; Cervantes, Pablo: Sulfide mineral chemistry and petrography and platinum group element composition in gabbroic rocks from the Southwest Indian Ridge | download |
| 58% | 69
69-504
69-504B
69-505
69-505B
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 | Distler, V. V.; Pertsev, Nikolai N. et al.: Sulfide petrology of basalts from Deep Sea Drilling Project holes 504B and 505B | download |
| 58% | 42
42-380 | 1981 | Hsu, Kenneth J.; Traverse, Alfred et al.: Late Neogene climatic changes of the Black Sea region | |
| 58% | | 1985 | Francis, T. J. G.: Resistivity measurements of an ocean floor sulphide mineral deposit from the submersible Cyana | |
| 58% | | 1987 | Canfield, Donald E.: Worldwide sulfate reduction and sedimentary pyrite formation | |
| 58% | 64 | 1982 | Stout, Paul M.: Hydrothermal alteration of sediments, Guaymas Basin, Gulf of California | |
| 58% | 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 | |
| 58% | 43
43-386 | 1985 | Bonnell, Linda M.; Anderson, Thomas F.: Sulfur isotopic analyses of disseminated pyrite in Cretaceous black and green mudstones | |
| 58% | 64
64-477
64-478 | 1982 | Shanks, W. C., III; Niemitz, Jeffrey: Sulfur isotope studies of hydrothermal anhydrite and pyrite, Deep Sea Drilling Project Leg 64, Guaymas Basin, Gulf of California | download |
| 58% | | 2000 | Zhirnov, E. A.; Cherkashev, G. A. et al.: Inner structure of the TAG active hydrothermal mound (by ODP materials) | |
| 58% | 158 | 1996 | Zhao, X.; Housen, B. et al.: Magnetic property variations in Leg 158 cores and their relation to alteration of the TAG mound | |
| 58% | 169 | 1996 | Duckworth, Rowena C.: High grade sediment-hosted sulphide deposits on the seafloor; preliminary results from ODP Leg 169 drilling, Middle Valley, Juan de Fuca Ridge | |
| 58% | 106
139 | 1996 | Duckworth, R. C.: Hydrothermal processes, sulphide deposits and the Ocean Drilling Program | |
| 58% | 168
169 | 1995 | Duckworth, Rowena C.: Australian participation in the Ocean Drilling Program; an economic geology perspective | |
| 58% | | 1983 | Fisher, Julie C.; Davis, Andrew N. et al.: Qualitative and semi-quantitative SEM/EDS analysis of very fine-grained sediments | |
| 58% | | 1991 | Peter, Jan M.; Scott, Steven D.: Hydrothermal mineralization in the Guaymas Basin, Gulf of California | |
| 58% | | 1991 | Kohnen, Math E. L.; Sinninghe Damste, Jaap S. et al.: Identification and geochemical significance of cyclic di- and trisulphides with linear and acyclic isoprenoid carbon skeletons in immature sediments | |
| 58% | 34 | 1974 | Swanson, S. B.; Scott, R. B.: Hydrothermal products of Leg 34 basalts; Deep Sea Drilling Project | |
| 58% | 37 | 1979 | Andrews, A. J.: On the effect of low temperature seawater-basalt interaction on the distribution of sulfur in oceanic crust, layer 2 | |
| 58% | 37 | 1979 | Andrews, A. J.: On the effect of low-temperature seawater-basalt interaction on the distribution of sulfur in oceanic crust, Layer 2 | |
| 58% | | 1993 | Suits, Neil S.; Arthur, Michael A. et al.: C-S-Fe systematics in Peru margin muds | |
| 58% | 139 | 1991 | Davis, Earl E.; Mottl, Michael et al.: Ocean Drilling Program; Leg 139 scientific prospectus; Sedimented ridges; I | |
| 58% | 158 | 1996 | Gemmell, J. Bruce: Subsurface architecture of the TAG hydrothermal mound, Mid-Atlantic Ridge; results of Ocean Drilling Program Leg 158 | |
| 58% | | 1995 | Mills, Rachel A.; Elderfield, Harry: Hydrothermal activity and the geochemistry of metalliferous sediment | |
| 58% | 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 | |
| 58% | | 2003 | Kurtz, A. C.; Kump, L. R. et al.: Early Cenozoic decoupling of the global carbon and sulfur cycles | download |
| 58% | | 1989 | Kohnen, M. E. L.; Sinninghe Damste, Jaap S. et al.: Early incorporation of polysulphides in sedimentary organic matter | |
| 58% | 64
64-477 | 1980 | Lonsdale, Peter: Hydrothermal plumes and baritic sulfide mounds at a Gulf of California spreading center | |
| 58% | 52
52-418
53
53-418
102
102-418 | 1980 | Puchelt, H.; Hubberten, H. W.: Preliminary results of sulfur isotope investigations on Deep Sea Drilling Project cores from legs 52 and 53 | download |
| 58% | 106 | 1986 | Sulanowska, Margaret; Humphris, Susan E. et al.: Hydrothermal mineralization in the MARK area, Mid-Atlantic Ridge 23 degrees N | |
| 58% | 71
71-511 | 1986 | Bonnell, Linda M.; Anderson, Thomas F.: Isotopic analyses of reduced sulfur in Cretaceous shales; DSDP Site 511 | |
| 58% | 193
193-1189 | 2003 | Barriga, Fernando; Binns, Ray et al.: Treasure in the making under the sea floor | |
| 58% | 158
158-957 | 1995 | Humphris, Susan E.; Herzig, Peter M. et al.: TAG hydrothermal field | |
| 58% | 112 | 1988 | Aplin, A. C.; Curtis, C. D. et al.: Distribution of Fe and S species in organic-rich sediments from the Peru-Chile margin | |
| 58% | 193 | 2001 | Roberts, Stephen; Benning, Liane G.: Leg 193; Manus Basin | |
| 58% | 75
75-530 | 1984 | Bonnell, Linda M.; Anderson, Thomas F.: Sulfur isotopic variations in Cretaceous black and green shales | |
| 58% | 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 |
| 58% | 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 | |
| 58% | 139 | 1997 | Cousens, Brian; Blenkinsop, John et al.: Sources of Pb in sulphide minerals from Middle Valley, northern Juan de Fuca Ridge; a Pb isotopic study | |
| 58% | 209 | 2005 | Harvey, J.; Gannoun, A. et al.: Ancient melt extraction from the oceanic upper mantle revealed by 187Re-187Os isotopes in abyssal peridotites | |
| 58% | 8 | 1998 | Sato, Hiroshi; Ishii, Teruaki et al.: Sulfide minerals as a petrogenetic and alteration indicator of ultramafic rocks in ocean floor | |
| 58% | | 1998 | Passier, Hilde Francoise: Sulphur geochemistry and sapropel formation; syngenetic and diagenetic signals in eastern Mediterranean sediments | |
| 58% | 169 | 1997 | James, R. H.; Palmer, M. R.: Evidence for the transport of phase-separated hydrothermal fluids through sediment at the Escanaba Trough | |
| 58% | 201
201-1226 | 2002 | Wang, Guizhi; Rutherford, Scott et al.: Distribution of metabolic activity within a deep-sea sediment column | |
| 58% | 169 | 1997 | Goodfellow, Wayne D.; Peter, Jan M.: Intersection of major massive sulphide deposits, sulfide feeder zones and a deep copper zone during ODP Leg 169 drilling in the Bent Hill area, Middle Valley, northern Juan de Fuca Ridge | |
| 58% | 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% | | 2000 | Petersen, Sven: The geochemical and mineralogical evolution of the TAG hydrothermal field, Mid-Atlantic Ridge, 26 degrees N | |
| 58% | | 1996 | Musgrave, Robert J.; Housen, Bernard A.: Rock-magnetic signature of methane migration and hydrate formation in marine sediments | |
| 58% | 158 | 1995 | Herzig, P.; Humphris, S.: Drilling the TAG hydrothermal mound, MAR 26 degrees N | |
| 58% | 169 | 1997 | Duckworth, Rowena C.: Anatomy of sediment hosted seafloor massive sulfide deposits; preliminary results from ODP Leg 169 drilling in Middle Valley and Escanaba Trough | |
| 58% | | 2008 | Skott, S. D.: Kolchedannyye mestorozhdeniya; opyt kontinental'noy i morskoy geologii Massive sulfide deposits; aspects of continental and marine geology | |
| 58% | | 2005 | Nakagawa, S.; Inagaki, F. et al.: Unique thermophiles supported by the ocean crustal fluids exiting from a borehole in the eastern flank of Juan de Fuca Ridge | |
| 58% | 302 | 2006 | Stein, Ruediger; Boucsein, Bettina et al.: Anoxia and high primary production in the Paleogene central Arctic Ocean; first detailed records from Lomonosov Ridge | download |
| 58% | 193 | 2002 | Bennett, A. J.; Benning, L. G. et al.: Concentration and distribution of gold in pyrite grains from the Pacmanus hydrothermal system, Papua New Guinea (ODP Leg 193, initial reports) | |
| 58% | 158 | 1995 | Herzig, Peter M.; Humphris, Susan E.: Ocean Drilling Program reveals the subsurface nature of the TAG hydrothermal mound | |
| 58% | 169 | 2000 | Bjerkgard, T.; Cousens, B. L. et al.: The Middle Valley sulfide deposits, northern Juan de Fuca Ridge; radiogenic isotope systematics | |
| 58% | 207
207-1258 | 2010 | Adams, Derek D.; Hurtgen, Matthew T. et al.: Volcanic activation of biogeochemical cascade regulates Oceanic Anoxic Event 2 | |
| 57% | 177
177-1089
177-1090
177-1091
177-1092
177-1093
177-1094 | 1999 | Stoner, Joseph S.; Channell, James E. T.: Magnetic stratigraphy of ODP Leg 177, sub-Antarctic South Atlantic (40-54S) | |
| 57% | 118 | 1991 | Hebert, R.; Constantin, M.: Petrology of hydrothermal metamorphism of oceanic layer 3; implications for sulfide parageneses and redistribution | |
| 57% | 141 | 1995 | Lindsley-Griffin, Nancy; Prior, David J. et al.: Textural and microstructural evidence for sediment diagenesis in the vicinity of the Chile triple junction | |
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