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| Score ↓ | Exp/Site/Hole | Year | Author/Title | Full text |
|---|
| 100% | | 1999 | Pearson, Paul N.; Palmer, Martin R.: Middle Eocene seawater pH and atmospheric carbon dioxide concentrations | |
| 94% | | 1971 | Presley, Bob J.; Claypool, George E.: Appendix; Techniques for analyzing interstitial water samples; Part II, Determination of total dissolved carbonate and carbon isotope ratios | download |
| 83% | | 1983 | Shackleton, N. J.; Hall, M. A. et al.: Carbon isotope data in core V19-30 confirm reduced carbon dioxide concentration in the ice age atmosphere | |
| 83% | | 2003 | Jarrard, Richard D.: Subduction fluxes of water, carbon dioxide, chlorine, and potassium | download |
| 82% | | 1974 | Lyon, Graeme L.: Isotopic analysis of gas from the Cariaco Trench sediments | |
| 82% | | 2005 | Pagani, Mark; Zachos, James C. et al.: Marked decline in atmospheric carbon dioxide concentrations during the Paleogene | download |
| 71% | 301
301-U1301 | 2008 | Goldberg, David S.; Takahashi, Taro et al.: Carbon dioxide sequestration in deep-sea basalt | |
| 71% | 199 | 2005 | Tripati, Aradhna; Backman, Jan et al.: Eocene bipolar glaciation associated with global carbon cycle changes | |
| 71% | | 1990 | Hyndman, R. D.; Davis, E. E.: Hydrate bottom simulating reflectors, distributed fluid expulsion from accretionary prisms, and ODP geochemistry | |
| 71% | | 1974 | Hammond, Douglas E.: Dissolved gases on Cariaco Trench sediments; anaerobic diagenesis | |
| 71% | | 1982 | Hubberten, Hans W.: The isotopic composition of carbonate carbon from deep-sea basalts | |
| 71% | | 2000 | Pearson, Paul N.; Palmer, Martin R.: Estimating Paleogene atmospheric pCO (sub 2) using boron isotope analysis of Foraminifera | |
| 71% | | 2003 | Lear, Carrie; Elderfield, Harry et al.: Fossil thermometers for Earth's climate | |
| 71% | | 2010 | Fox, Douglas: Could East Antarctica be headed for big melt? | |
| 71% | 184
184-1146
202
202-1237 | 2005 | Holbourn, Ann; Kuhnt, Wolfgang et al.: Impacts of orbital forcing and atmospheric carbon dioxide on Miocene ice-sheet expansion | |
| 71% | | 1983 | Worsley, Thomas R.: The terminal Cretaceous event | |
| 71% | | 1999 | Flower, Benjamin P.: Warming without high CO (sub 2) ? | |
| 71% | | 1984 | Shackleton, N. J.: The Plio-Pleistocene oceans | |
| 71% | | 2007 | Liu, Zhonghui; Pagani, Mark et al.: Pliocene-Pleistocene pCO2 changes based on alkenone carbon isotopes | |
| 71% | | 2002 | Otto-Bliesner, Bette L.; Brady, Esther C. et al.: Late Cretaceous ocean; coupled simulations with the National Center for Atmospheric Research climate system | |
| 71% | | 2008 | Ravelo, A. C.: Lessons from the Pliocene Warm Period and the onset of Northern Hemisphere glaciation | |
| 71% | | 2011 | Welsh, Kevin: From greenhouse to icehouse | |
| 67% | 22
22-216 | 1985 | Vincent, Edith; Berger, Wolfgang H.: Carbon dioxide and polar cooling in the Miocene; the Monterey Hypothesis | |
| 67% | 72
72-516
90
90-588
94
94-608
117
117-730 | 1998 | Pagani, Mark: Miocene atmospheric carbon dioxide concentrations and paleoceanography; constraints from compound-specific carbon-isotope compositions | |
| 67% | 138
138-849 | 2003 | Hargreaves, Julia C.; Abe-Ouchi, Ayako: Timing of ice-age terminations determined by wavelet methods | download |
| 67% | 21
21-207 | 2005 | Bice, K. L.; Birgel, D. et al.: A multiple proxy and modeling study of Cretaceous upper ocean temperatures and atmospheric carbon dioxide concentrations from tropical Atlantic sediments | |
| 67% | 143
143-865
144
144-871
144-872 | 2000 | Pearson, Paul N.; Palmer, Martin R.: Atmospheric carbon dioxide concentrations over the past 60 million years | |
| 67% | 72
72-516 | 2007 | Henderiks, Jorijntje; Pagani, Mark: Refining ancient carbon dioxide estimates; significance of coccolithophore cell size for alkenone-based pCO (sub 2) records | download |
| 67% | 145
145-882 | 2007 | Galbraith, Eric D.; Jaccard, Samuel L. et al.: Carbon dioxide release from the North Pacific abyss during the last deglaciation | |
| 67% | 90
90-588 | 1996 | Pagani, Mark; Arthur, Michael A. et al.: Transitional climate of the middle Miocene and the role of carbon dioxide; evidence from compound-specific carbon isotope records | |
| 67% | 184
184-1146
202
202-1237 | 2005 | Holbourn, A. E.; Kuhnt, W. et al.: Stepping into the "icehouse"; impacts of orbital forcing and atmospheric carbon dioxide on middle Miocene ice-sheet expansion | |
| 67% | 130
130-806
198
198-1208
202
202-1241 | 2012 | LaRiviere, Jonathan P.; Ravelo, A. Christina et al.: Late Miocene decoupling of oceanic warmth and atmospheric carbon dioxide forcing | |
| 61% | 15
15-147 | 1973 | Lyon, Graeme L.: Interstitial water studies, Leg 15, chemical and isotopic composition of gases from Cariaco Trench sediments | download |
| 61% | | 2005 | Tipple, Brett J.; Pagani, Mark: A biomarker record of the Paleogene evolution and expansion of C4 plants | |
| 61% | 190
190-1173
190-1174
190-1177
196
196-1173 | 2009 | Yoshioka, Hideyoshi; Sakata, Susumu et al.: Microbial methane production rates in gas hydrate-bearing sediments from the eastern Nankai Trough, off central Japan | |
| 59% | | 1981 | Degens, Egon T.: Rate of denudation in Black Sea source area | |
| 59% | 84 | 1985 | Galimov, E. M.; Shabayeva, I. Yu.: Carbon isotope composition of CH (sub 4) and CO (sub 2) in sediments of the Guatemala Trench (DSDP Leg 84) | |
| 59% | | 1988 | Kvenvolden, Keith A.: Methane hydrates and global climate | download |
| 59% | 92 | 1985 | Owen, Robert M.; Rea, David K.: Sea-floor hydrothermal activity links climate to tectonics; the Eocene carbon dioxide greenhouse | |
| 59% | 129 | 2000 | Foellmi, Karl B.: Phosphogenesis, the phosphorus cycle, and environmental change | |
| 59% | 74 | 1987 | Shackleton, N. J.: The carbon isotope record of the Cenozoic; history of organic carbon burial and of oxygen in the ocean and atmosphere | |
| 59% | 124
126 | 1999 | Marine geology activities of the Geological Survey of Japan, 1998 | |
| 59% | 112
112-681 | 1992 | Schrader, Hans: Coastal upwelling and atmospheric CO (sub 2) changes over the last 400,000 years; Peru | |
| 59% | | 1996 | Raymo, M. E.; Grant, B. et al.: Mid-Pliocene warmth; stronger greenhouse and stronger conveyor | |
| 59% | | 1991 | Alvarez-Borrego, Saul; Lara-Lara, Jose Ruben: The physical environment and primary productivity of the Gulf of California | |
| 59% | | 2002 | Dittert, Nicolas; Corrin, Lydie et al.: Management of (pale-)oceanographic data sets using the PANGAEA information system; the SINOPS example | |
| 59% | | 1993 | D'Hondt, Steven; Zachos, James C.: On stable isotopic variation and earliest Paleocene planktonic foraminifera | download |
| 59% | | 1995 | Kvenvolden, Keith A.: A review of the geochemistry of methane in natural gas hydrate | |
| 59% | 120
120-748 | 1993 | Liu, Xinlan; Wei, Wuchang: Cooling event in the earliest Oligocene | |
| 59% | 104
104-642
104-643 | 1993 | Eldholm, Olav; Thomas, Ellen: Environmental impact of volcanic margin formation | |
| 59% | 130
130-803 | 1993 | Spivack, Arthur J.; You, Chen-Feng et al.: Foraminiferal boron isotope ratios as a proxy for surface ocean pH over the past 21 Myr | |
| 59% | | 1998 | Freeman, Katherine H.; Pancost, Richard D. et al.: Organic molecular records and carbon-isotope excursions; can we decipher Paleozoic CO2 events? | |
| 59% | 42
42-379 | 1977 | Geodekyan, A. A.; Chernova, T. G. et al.: Bitumoids in the organic matter of Black Sea sediments (based on Deep-Sea Drilling data) | |
| 59% | | 1992 | Raymo, M. E.; Ruddiman, W. F.: Tectonic forcing of late Cenozoic climate | |
| 59% | 113
113-690 | 1997 | Dickens, G. R.: Catastrophic dissociation of gas hydrate and deep sea methane oxidation at the Paleocene-Eocene boundary | |
| 59% | 164
164-995 | 1998 | Borowski, Walter Steven: Pore-water sulfate concentration gradients, isotopic compositions, and diagenetic processes overlying continental margin, methane-rich sediments associated with gas hydrates | |
| 59% | | 2003 | Kurtz, A. C.; Kump, L. R. et al.: Early Cenozoic decoupling of the global carbon and sulfur cycles | download |
| 59% | 29 | 1977 | Kroopnick, P. M.; Margolis, S. V. et al.: delta >13) C variations in marine carbonate sediments as indicators of the CO<2) balance between the atmosphere and oceans | |
| 59% | | 1995 | Farrell, J. W.; Pedersen, T. F. et al.: Glacial-interglacial changes in nutrient utilization in the Equatorial Pacific Ocean | |
| 59% | | 1988 | Berger, W. H.; Spitzy, A.: History of atmospheric CO (sub 2) ; constraints from the deep-sea record | download |
| 59% | 64 | 1982 | Galimov, E. M.: Variation in CH (sub 4) and CO (sub 2) carbon-isotope composition in the sedimentary section in the Guaymas Basin, Gulf of California | |
| 59% | | 1982 | Flohn, H.: Vereiste Antarktis-eisfreie Arktis; Vergangenheit und Zukunft Frozen Antarctica--ice-free Arctic; past and future | |
| 59% | | 2004 | White, James W. C.: Do I hear a million? | |
| 59% | | 2003 | Muehlenbachs, Karlis; Furnes, Harald et al.: Controls on sub-seafloor bioalteration of mid-ocean ridge basalt glass | |
| 59% | 108
108-668 | 2008 | Benthien, A.; Balestra, B. et al.: Reconstruction of late Pleistocene surface water pCO2 in the eastern Equatorial Atlantic based on alkenone and boron isotopes | |
| 59% | | 2008 | Pekar, Stephen F.; Christie-Blick, Nicholas: Resolving apparent conflicts between oceanographic and Antarctic climate records and evidence for a decrease in pCO (sub 2) during the Oligocene through early Miocene (34-16 Ma) | |
| 59% | 162
162-982 | 2004 | Barker, S.; Elderfield, H. et al.: MIS 11 and the Mid-Brunhes dissolution interval | |
| 59% | 302 | 2008 | St. John, Kristen: Cenozoic ice-rafting history of the central Arctic Ocean; terrigenous sands on the Lomonosov Ridge | download |
| 59% | 161
161-977 | 2008 | Gonzalez-Mora, B.; Sierro, F. J. et al.: Controls of shell calcification in planktonic foraminifers | |
| 59% | 138
138-846 | 2000 | Loubere, Paul: Marine control of biological production in the eastern Equatorial Pacific Ocean | |
| 59% | | 2010 | Herbert, Timothy; Lawrence, K. T. et al.: Coherent tropical ocean response to Plio-Pleistocene ice age cycles | |
| 59% | 111
111-677 | 2005 | Loutre, Marie-France; Berger, Andre: Insolation, CO (sub 2) et precipitations en periode interglaciaire Insolation, CO (sub 2) , and precipitation during interglacials | |
| 59% | | 2001 | Kuijpers, Marcel Martinus Maria: Mechanisms and biogeochemical implications of the Mid-Cretaceous global organic carbon burial events | |
| 59% | | 1987 | Pisias, Nicklas G.; Imbrie, John: Orbital geometry, CO (sub 2) , and Pleistocene climate | |
| 59% | | 2009 | Kelemen, Peter B.; Matter, Jurg et al.: In situ mineral carbonation in peridotite and basalt for CO (sub 2) capture and storage | |
| 59% | | 1998 | Thiry, Medard; Sinha, Ashish et al.: Chemostratigraphy | |
| 59% | | 1997 | Ruddiman, William F.; Raymo, Maureen E. et al.: The uplift-climate connection; a synthesis | |
| 59% | 108
108-668 | 1998 | Bird, M. I.; Cali, J. A.: A million-year record of fire in sub-Saharan Africa | |
| 59% | | 2011 | Gillis, K. M.; Coogan, L. A.: Secular variation in carbon uptake into the ocean crust | |
| 59% | | 2006 | Takashima, Reishi; Nishi, Hiroshi et al.: Greenhouse world and the Mesozoic ocean | |
| 59% | 175
175-1077 | 2003 | Schefuss, Enno; Schouten, Stefan et al.: African vegetation controlled by tropical sea surface temperatures in the mid-Pleistocene period | |
| 59% | | 2003 | Tamburini, Federica; Foellmi, Karl B.: Changes on a glacial-interglacial timescale in the oceanic inventory of phosphorus and its relation to climate change | |
| 59% | 197
197-1205 | 2003 | Cottrell, Rory D.; Tarduno, John A.: CO (sub 2) step-heating of feldspar crystals; a new technique to derive paleomagnetic directional and paleointensity data | |
| 59% | | 1992 | Brumsack, H. J.: Geochemistry of Cretaceous black shale from the Cenomanian/Turonian boundary event; paleoenvironment of deposition and time limitations | |
| 59% | | 1992 | Raymo, Maureen E.: Late Cenozoic evolution of global climate | |
| 59% | | 2006 | Filippelli, Gabriel M.; Souch, Catherine: Rapid climate change and climate surprises; a look back and ahead | |
| 59% | | 1998 | Maslin, M. A.; Li, X. S. et al.: The contribution of orbital forcing to the progressive intensification of Northern Hemisphere glaciation | |
| 59% | | 2002 | Barrett, Peter J.: Antarctic climate evolution; the next step | |
| 59% | 113
119 | 1989 | Oglesby, R. J.: A GCM study of Antarctic glaciation | |
| 59% | 199
208 | 2005 | Tripati, A.; Backman, J. et al.: New results from ODP and IODP on the greenhouse-icehouse transition; evidence for early (Eocene) bipolar glaciation associated with global carbon cycle changes | |
| 59% | 175 | 1998 | Berger, Wolfgang H.; Wefer, Gerold et al.: Benguela current and Angola-Benguela upwelling systems; preliminary results from Leg 175 | |
| 59% | 116 | 1997 | France-Lanord, Christian; Derry, Louis A.: Organic carbon burial forcing of the carbon cycle from Himalayan erosion | |
| 59% | 14 | 1972 | Presley, B. J.; Petrowski, Chari et al.: Interstitial water chemistry; Deep Sea Drilling Project, Leg 14 | download |
| 59% | | 2008 | Boehm, Florian; Rausch, Svenja et al.: Low temperature alteration carbonates in the ocean crust and their importance for CO (sub 2) uptake and the global Ca cycle | |
| 59% | 208 | 2007 | Ridgwell, Andy: Interpreting transient carbonate compensation depth changes by marine sediment core modeling | download |
| 59% | 146 | 1995 | Whiticar, Michael J.; Hovland, Martin: Relationship of hydrocarbon gases to hydrates in the Cascadia and Oregon accretionary margins | |
| 59% | 165
165-1001 | 1998 | Bralower, Timothy J.: From the Paleocene to today's El Nino and beyond; selling ancient warming in the 21st century | |
| 59% | | 2006 | Thomas, Ellen; Brinkhuis, Henk et al.: An ocean view of the early Cenozoic greenhouse world | |
| 59% | 198
199 | 2002 | Kronborg, Mai-Britt; Huber, Matthew: Climate of the early Paleogene tropics; the "forecast" from a coupled climate model | |
| 59% | 119 | 2003 | Barrett, Peter: Paleoclimatology; cooling a continent | |
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