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| Score | Exp/Site/Hole ↓ | Year | Author/Title | Full text |
|---|
| 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 | |
| 100% | | 1980 | Rouchy, J. M.: La genese des evaporites messiniennes de Mediterranee; un bilan Genesis of Mediterranean Messinian evaporites; an evaluation | |
| 100% | | 1984 | Bazilevskaya, Ye. S.: Metallogeniy okeanskogo lozha po dannym glubokovodnogo bureniya Metallogeny of the ocean floor, based on deep-sea drilling data | |
| 100% | | 1984 | Field, Cyrus W.; Sakai, H. et al.: Isotopic constraints on the origin of sulfur in oceanic igneous rocks | |
| 100% | | 2000 | Moran, Kate: The future of scientific ocean drilling; new opportunities in science and industry | |
| 100% | | 1993 | Seibold, Eugen: Warum in der Tiefsee bohren? Why drill in the deep sea? | |
| 83% | | 2000 | Zhirnov, E. A.; Cherkashev, G. A. et al.: Inner structure of the TAG active hydrothermal mound (by ODP materials) | |
| 83% | | 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 | |
| 83% | | 1991 | Yim, W. W. S.: Tin placer genesis in northeastern Tasmania | |
| 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% | | 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) | |
| 83% | | 1995 | Mills, Rachel A.; Elderfield, Harry: Hydrothermal activity and the geochemistry of metalliferous sediment | |
| 83% | | 1977 | Ross, D. A.: Results of recent expeditions to the Red Sea; Chain, Glomar Challenger, and Valdivia expeditions | |
| 83% | | 2009 | Ludden, John: Subduction fluxes through geologic time | |
| 83% | | 2008 | Skott, S. D.: Kolchedannyye mestorozhdeniya; opyt kontinental'noy i morskoy geologii Massive sulfide deposits; aspects of continental and marine geology | |
| 83% | | 1994 | Il'in, A. V.: 150 let geologii fosforitov i ikh prakticheskogo ispol'zovaniya 150 years of phosphate geology and practical utilization of phosphorites | |
| 67% | | 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 | |
| 67% | | 1993 | Bougault, H.; Charlou, J. L. et al.: L'Hydrothermalisme oceanique Oceanic hydrothermalism | |
| 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% | | 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% | | 2000 | Petersen, S.; Herzig, P. M. et al.: Third dimension of a presently forming VMS deposit; TAG hydrothermal mound, Mid-Atlantic Ridge, 26N | |
| 67% | | 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 | |
| 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 | |
| 50% | | 2003 | Goodfellow, Wayne David: Massive sulfide deposits at modern sedimented oceanic rifts; geological setting and genetic processes | |
| 42% | | 2000 | Jewell, Paul W.: Bedded barite in the geologic record | |
| 42% | | 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 | |
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