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| Score ↓ | Exp/Site/Hole | Year | Author/Title | Full text |
|---|
| 100% | 307
307-U1316
307-U1317
307-U1318 | 2008 | Williams, Trevor; Kano, Akihiro et al.: Modern carbonate mounds; Porcupine drilling on IODP Expedition 307 | |
| 100% | | 1983 | Moorby, S. Anthony: The geochemistry of transitional sediments recovered from the Galapagos Hydrothermal Mounds Field during DSDP Leg 70; implications for mounds formation | |
| 99% | 182 | 1999 | Feary, David A.; James, Noel P.: Quaternary bryozoan reef-mounds in cool-water, upper slope environments; Great Australian Bight | |
| 90% | 307 | 2006 | Gregg, Jay M.; Somerville, Ian D. et al.: Neogene deepwater carbonate mud-mounds and their Paleozoic counterparts; comparisons of geometry, sedimentology, and petrology | |
| 87% | 307 | 2008 | Thierens, Mieke; Stuut, J. B. et al.: Drilling a NE Atlantic continental margin cold-water coral carbonate mound; evaluating the hydrodynamic and environmental conditions during Challenger Mound development (IODP Exp. 307) | |
| 80% | 307 | 2008 | Wheeler, A. J.; Freiwald, A. et al.: The CARBONATE project; mid-latitude carbonate systems; complete sequences from cold-water coral carbonate mounds in the Northeast Atlantic | |
| 80% | 307
307-U1316
307-U1318 | 2008 | Titschack, Juergen; Thierens, M. et al.: Carbonate budget and growth of cold-water coral mounds; implications from Challenger Mound (IODP Exp. 307, modern carbonate mounds; Porcupine Drilling) | |
| 79% | 70
70-506
70-507
70-509 | 1983 | Borella, Peter E.: Sediment lithostratigraphy of the Galapagos hydrothermal mounds | download |
| 78% | 307 | 2006 | Andres, Miriam; Eberli, Gregor P. et al.: Modern deepwater mounds in the Atlantic; the Porcupine Seabight and the Straits of Florida | |
| 78% | | 2002 | Rebesco, M.; Pudsey, Carol J. et al.: Sediment drifts and deep-sea channel systems, Antarctic Peninsula Pacific margin | |
| 73% | 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% | 70 | 1981 | Barrett, T. J.; Fleet, A. J. et al.: Major element, rare earth element, and O- and H-isotopic composition of metalliferous and pelagic sediments from the Galapagos mounds area, Leg 70 | |
| 71% | 54
54-424 | 1981 | Varnavas, S. P.; Cronan, D. S.: Partition geochemistry of sediments from DSDP 424 in the Galapagos Hydrothermal Mounds Field | |
| 71% | 70 | 1981 | Becker, Keir; Von Herzen, R. P.: Rates of hydrothermal convection at the Galapagos mounds area deduced from temperature measurements | |
| 71% | 70 | 1982 | Moorby, S. A.; Barrett, T. J.: The Galapagos Mounds | |
| 71% | 54
54-424 | 1980 | Lalou, C.; Brichet, E.: Anomalously high uranium contents in the sediment under Galapagos hydrothermal mounds | |
| 71% | 64
64-477 | 1980 | Lonsdale, Peter: Hydrothermal plumes and baritic sulfide mounds at a Gulf of California spreading center | |
| 71% | 70 | 1981 | Barrett, T. J.; Friedrichsen, H.: Isotopic composition of metalliferous sediments from the Galapagos mounds area, DSDP Leg 70 | |
| 71% | 54
70 | 1981 | Lalou, C.; Brichet, E. et al.: Tentative chronology of Galapagos hydrothermal mounds | |
| 71% | 307 | 2005 | Williams, T.; Kano, A. et al.: Preliminary results from IODP Expedition 307, Porcupine Basin carbonate mounds | |
| 71% | 307 | 2005 | Henriet, J. P.; Ferdelman, T. et al.: Atlantic carbonate mound drilling; challenges ahead | |
| 71% | 307 | 2005 | Henriet, J. P.; Foubert, A. et al.: Atlantic carbonate mound drilling; challenges ahead, from Porcupine to the Morocco margin | |
| 71% | 182 | 2002 | Bone, Yvonne; James, Noel P.: Bryozoans from Pleistocene high-energy, cool-water, continental-slope mounds, Great Australian Bight, southern Australia | |
| 71% | 307
307-U1317 | 2009 | Rueggeberg, A.; Liebetrau, V. et al.: Environmental control on cold-water carbonate mounds development | |
| 69% | 307 | 2003 | Henriet, Jean-Pierre; Guidard, S. et al.: Carbonate mounds as a possible example for microbial activity in geological processes | |
| 69% | 307
307-U1316
307-U1317 | 2005 | Huvenne, Veerle Ann Ida; Cragg, Barry A.: Drilling recent deep-water coral banks; Expedition 307, Porcupine Basin carbonate mounds | |
| 69% | 307 | 2010 | Hebbeln, Dierk; Dorschel, Boris et al.: Growth and erosion; the long-term history of recent carbonate mounds from the Irish margin | |
| 69% | 307 | 2006 | Titschack, Juergen; Foubert, A. et al.: IODP; X-ray computer tomography and image analyses as tool for coral quantification and identification in cold-water coral mounds (Challenger Mound, Porcupine Seabight, IODP Expedition 307) | |
| 67% | 70
70-506
70-507
70-508
70-509 | 1983 | Bender, Michael L.: Pore water chemistry of the Mounds Hydrothermal Field, Galapagos spreading center; results from Glomar Challenger piston coring | download |
| 67% | 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 |
| 67% | 70
70-506
70-507
70-508
70-509 | 1983 | Moorby, S. Anthony; Cronan, D. S.: Chemical composition of sediments from sites 506, 507, 508, and 509, Leg 70, Deep Sea Drilling Project | download |
| 66% | 54
54-424 | 1980 | Dymond, Jack; Corliss, John B. et al.: Composition and origin of sediments recovered by deep drilling of sediment mounds, Galapagos spreading center | download |
| 66% | 70
70-506
70-507
70-508
70-509
70-510 | 1983 | Borella, Peter E.; Myers, Richard et al.: Sediment petrology of the hydrothermal mounds | download |
| 65% | 54
54-424
54-425
70
70-506
70-507
70-508
70-509
70-510 | 1983 | Honnorez, Jose; Von Herzen, Richard P. et al.: Hydrothermal mounds and young ocean crust of the Galapagos; preliminary deep sea drilling results | download |
| 62% | 70
70-506
70-507
70-509 | 1983 | Bender, Michael L.: Pore-water chemistry, sites 506-509, Deep Sea Drilling Project | download |
| 61% | 12
12-111
210
210-1276
210-1277 | 2004 | Enachescu, Michael E.: Conspicuous deepwater submarine mounds in the northeastern Orphan Basin and on the Orphan Knoll, offshore Newfoundland | |
| 60% | 70 | 1983 | Migdisov, Areg A.; Gradusov, B. P. et al.: Major and minor elements in hydrothermal and pelagic sediments of the Galapagos mounds area, Leg 70, Deep Sea Drilling Project | download |
| 60% | 182 | 2004 | James, Noel P.; Feary, David A. et al.: Origin of late Pleistocene bryozoan reef mounds; Great Australian Bight | |
| 58% | 70
70-506
70-507
70-508
70-509
70-510 | 1983 | Honnorez, Jose; Von Herzen, Richard P. et al.: Initial reports of the Deep Sea Drilling Project covering Leg 70 of the cruises of the drilling vessel Glomar Challenger; Balboa, Panama to Callao, Peru, November-December, 1979 | download |
| 58% | 70
70-506
70-507
70-508
70-509
70-510 | 1983 | Honnorez, Jose; Von Herzen, Richard P. et al.: Introduction, principal results, and explanatory notes, Deep Sea Drilling Project Leg 70 | download |
| 57% | 70
70-506
70-507
70-509 | 1982 | Barrett, T. J.; Friedrichsen, H.: Elemental and isotopic compositions of some metalliferous and pelagic sediments from the Galapagos mounds area, DSDP Leg 70 | |
| 57% | 54
54-424 | 1979 | Natland, J. H.; Rosendahl, B. et al.: Galapagos hydrothermal mounds; stratigraphy and chemistry revealed by deep-sea drilling | |
| 57% | 70
70-509 | 1983 | Lalou, Claude; Brichet, Evelyne et al.: Hydrothermal manganese oxide deposits from Galapagos mounds, DSDP Leg 70, Hole 509B and "Alvin" dives 729 and 721 | |
| 57% | 185
185-1149 | 2007 | Foubert, Anneleen; van Rooij, David et al.: X-ray imagery and physical core logging as a proxy of the content of sediment cores in cold-water coral mound provinces; a case study from Porcupine Seabight, SW of Ireland | |
| 57% | | 2005 | Foubert, A.; Maignien, L. et al.: Carbonate mounds in a seep province on the Moroccan margin; a prime target for ocean drilling (IODP 673 pre-proposal) | |
| 57% | 182
182-1129
182-1131
182-1132 | 2002 | Holbourn, Ann; Kuhnt, Wolfgang et al.: Late Pleistocene bryozoan reef mounds of the Great Australian Bight; isotope stratigraphy and benthic foraminiferal record | download |
| 57% | 307 | 2006 | Mangelsdorf, Kai; Zink, Klaus G. et al.: IODP; indication for deep microbial populations in sediments below the Challenger carbonate mound in the Porcupine Basin, offshore Ireland (IODP Leg 307) | |
| 57% | | 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 | |
| 57% | 307 | 2009 | Thierens, Mieke M.; Pirlet, Hans et al.: The 2.6 Ma depositional sequence from the Challenger cold-water coral carbonate mound (IODP Exp. 307); a unique palaeo-record of Plio-Pleistocene NE Atlantic climate variability | |
| 52% | 70 | 1983 | Kurnosov, V. B.; Chudaev, O. V. et al.: Mineralogy and geochemistry of sediments from Galapagos hydrothermal mounds, Leg 70, Deep Sea Drilling Project | download |
| 51% | 307
307-U1316
307-U1317
307-U1318 | 2005 | Ferdelman, Timothy; Kano, Akihiro et al.: Integrated Ocean Drilling Program Expedition 307 preliminary report; Modern carbonate mounds; Porcupine drilling; 25 April-30 May 2005 | download |
| 50% | 70 | 1981 | Barrett, T. J.: Lead and strontium isotopic composition of metalliferous and pelagic sediments and basalts from the Galapagos area, Leg 70 | |
| 50% | 158 | 1996 | Petersen, S.; Herzig, P. M. et al.: Fluid temperature history of the TAG hydrothermal mound, Mid-Atlantic Ridge, 26 degrees N | |
| 50% | 64
64-477 | 1982 | Simoneit, Bernd R. T.; Lonsdale, Peter F.: Hydrothermal petroleum in mineralized mounds at the seabed of Guaymas Basin | |
| 50% | 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 | |
| 50% | 158 | 1996 | Zhao, X.; Housen, B. et al.: Magnetic property variations in Leg 158 cores and their relation to alteration of the TAG mound | |
| 50% | | 1996 | Rebesco, Michele; Larter, Robert D. et al.: Giant sediment drifts on the continental rise west of the Antarctic Peninsula | |
| 50% | 54 | 1979 | Schrader, E. L.; Furbish, W. J.: Geochemical characteristics of oceanic hydrothermal and diagenetic Mn deposits; possible economic applications | |
| 50% | 158 | 1996 | Honnorez, Jose J.; Alt, Jeffrey C. et al.: Active and fossil hydrothermal alterations of basalt beneath and within the TAG hydrothermal mound | |
| 50% | | 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 | |
| 50% | 158 | 1996 | Alt, Jeffrey C.; Teagle, Damon A. H.: Probing the TAG hydrothermal mound and stockwork; oxygen isotopic profiles from deep ocean drilling | |
| 50% | | 2005 | Depreiter, D.; Henriet, J. P.: Gas hydrate stability and focussed fluid seepage in mud volcano settings; IODP 673 Pre-proposal | |
| 50% | 307 | 2005 | Henriet, Jean-Pierre; Kano, Akihiro et al.: Integrated Ocean Drilling Program, Expedition 307 scientific prospectus; modern carbonate mounds; Porcupine drilling | download |
| 50% | 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 | |
| 50% | 54
54-424 | 1987 | Varnavas, S. P.: Marine barite in sediments from Deep Sea Drilling Project sites 424 and 424A (Galapagos hydrothermal mounds field) | |
| 50% | 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% | | 1984 | Lalou, C.; Brichet, E. et al.: The Galapagos hydrothermal mounds; history from about 600,000 years to present | |
| 50% | 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 | |
| 50% | | 2000 | Pudsey, C. J.: Sedimentation on the continental rise west of the Antarctic Peninsula over the last three glacial cycles | |
| 50% | 307 | 2008 | Kano, Akihiro: Early evolution of coral reefs inferred from the results of drilling study of a deep-sea carbonate mound | |
| 50% | 307 | 2008 | Thierens, Mieke; Titschack, J. et al.: Unraveling depositional signals throughout a cold-water coral carbonate mound; implications for the environmental controls on Challenger Mound development (IODP Exp. 307) | |
| 50% | 307 | 2009 | Raddatz, J.; Rueggeberg, A. et al.: Paleoenvironmental reconstruction of deep-water carbonate mound initiation in the Porcupine Seabight, NE Atlantic | |
| 50% | 307 | 2009 | Henriet, Jean Pierre: The giant cold-water coral mound as a nested microbial/metazoan system; physical, chemical, biological and geological picture (ESF EuroDiversity MiCROSYSTEMS) | |
| 50% | | 2010 | Planert, L.; Klaeschen, D. et al.: Fluid flow systems offshore Costa Rica revealed by 2-D seismic MCS data (IODP Proposal 633) | |
| 49% | 70
70-509
139
139-858
169
169-858 | 1995 | Buatier, Martine D.; Karpoff, Anne-Marie: Authigenese et evolution d'argiles hydrothermales oceaniques; exemples des monts de la ride des Galapagos et des sediments de la ride de Juan de Fuca Formation and evolution of oceanic hydrothermal clay minerals; mounds from the Galapagos spreading center and sediments of the Juan de Fuca Ridge | |
| 49% | 307 | 2005 | Ferdelman, Timothy G.; Kano, Akihiro et al.: Expedition 307 summary | download |
| 48% | 70
70-506
70-507
70-509 | 1983 | Migdisov, Areg A.; Belyi, V. M. et al.: The concentration and isotope composition of sulfur from the Galapagos mounds area sediments, Leg 70, Deep Sea Drilling Project | download |
| 47% | 70
70-506 | 1983 | Honnorez, Jose; Von Herzen, Richard P. et al.: Site 506 | download |
| 46% | 70 | 1983 | Barrett, Timothy J.; Friedrichsen, H. et al.: Elemental and stable isotopic composition of some metalliferous and pelagic sediments from the Galapagos mounds area, Deep Sea Drilling Project Leg 70 | download |
| 45% | 54 | 1980 | Hekinian, Roger; Rosendahl, Bruce R. et al.: Ocean crust geothermal processes; a perspective from the vantage of Leg 54 drilling | download |
| 45% | 70
70-506
70-509 | 1983 | Varnavas, S. P.; Moorby, S. Anthony et al.: Partition geochemistry of sediments from holes 506 and 509B, Deep Sea Drilling Project Leg 70 | download |
| 43% | 70
70-506
70-507
70-509 | 1983 | Barrett, Timothy J.: Lead and strontium isotopic composition of some metalliferous and pelagic sediments and basalts from the Galapagos mounds area, Deep Sea Drilling Project Leg 70 | download |
| 42% | 70
70-506
70-507
70-509 | 1981 | Honnorez, Jose; Von Herzen, Richard P. et al.: Hydrothermal mounds and young ocean crust of the Galapagos; preliminary Deep Sea Drilling results, Leg 70 | |
| 42% | | 2003 | Goodfellow, Wayne David: Massive sulfide deposits at modern sedimented oceanic rifts; geological setting and genetic processes | |
| 42% | 146
146-889
146-890
311
311-U1327 | 2007 | He, T.; Spence, G. D. et al.: Fluid flow and origin of a carbonate mound offshore Vancouver Island; seismic and heat flow constraints | download |
| 42% | 307 | 2005 | Ferdelman, Timothy G.; Kano, Akihiro et al.: Proceedings of the Integrated Ocean Drilling Program; modern carbonate mounds; Porcupine drilling; Expedition 307 of the riserless drilling platform from Dublin, Ireland, to Mobile, Alabama; Sites U1316-U1318; 25 April-30 May 2005 | |
| 42% | 307
307-U1317 | 2006 | Williams, Trevor; Kano, Akihiro et al.: Cold-water coral mounds revealed | |
| 42% | 182 | 2004 | Feary, David A.; Hine, Albert C. et al.: Leg 182 synthesis; exposed secrets of the Great Australian Bight | download |
| 41% | 70
70-506
70-507
70-508
70-509
70-510 | 1983 | Becker, Keir; Von Herzen, Richard P. et al.: Geothermal measurements from drilling of sediments near the Galapagos spreading center, 86 degrees W, Deep Sea Drilling Project Leg 70 | download |
| 41% | 70
70-509 | 1983 | Honnorez, Jose; Von Herzen, Richard P. et al.: Site 509 | download |
| 40% | 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 | |
| 40% | 158 | 1998 | Masuda, H.; Nakamura, M. et al.: Hydrothermal basalt alteration at the surface of the TAG active mound, MAR26 degrees N | |
| 40% | 158 | 1996 | Sturz, Anne A.; Itoh, Mika J. T. et al.: Mineralogy and chemical composition of clay minerals, TAG sulfide deposit | |
| 40% | 307
307-U1317
307-U1318 | 2011 | Frank, Tracy D.; Titschack, Juergen et al.: Aragonite loss in a cold-water coral mound; mechanisms and implications | |
| 40% | 307
307-U1317
307-U1318 | 2011 | Mangelsdorf, Kai; Zink, Klaus G. et al.: Microbial lipid markers within and adjacent to Challenger Mound in the Belgica carbonate mound province, Porcupine Basin, offshore Ireland (IODP Expedition 307) | |
| 40% | 158 | 1998 | Sturz, A. A.; Itoh, M. J. T. et al.: Mineralogy and chemical composition of clay minerals, TAG hydrothermal mound | |
| 40% | 35
35-325
178 | 2003 | Hernandez-Molina, F. J.; Larter, R. D. et al.: Evidence of Miocene bottom water flow reversal from a fossil patch drift plastered on seamounts on the continental rise west of the Antarctic Peninsula | |
| 40% | 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 | |
| 40% | 178
178-1095 | 2004 | Uenzelmann-Neben, Gabriele; Hillenbrand, Claus-Dieter et al.: Depositional patterns observed at Drift 7, Antarctic Peninsula | |
| 40% | 307 | 2010 | Raddatz, Jacek; Rueggeberg, Andres et al.: Carbonate mounds as high resolution archives to decipher short-term variability of paleoenvironment in the late Pliocene | |
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