Toward a radiometric ice clock: uranium ages of the Dome C ice core

[1]  V. Lee Uranium-series comminution ages of continental sediments: Case study of a Pleistocene alluvial fan , 2010 .

[2]  T. Stocker,et al.  Isotopic tracing (Sr, Nd, U and Hf) of continental and marine aerosols in an 18th century section of the Dye-3 ice core (Greenland) , 2010 .

[3]  R. Röthlisberger,et al.  Atmospheric decadal variability from high-resolution Dome C ice core records of aerosol constituents beyond the Last Interglacial , 2010 .

[4]  R. Röthlisberger,et al.  Changes in environment over the last 800,000 years from chemical analysis of the EPICA Dome C ice core , 2010 .

[5]  S. Aciego,et al.  A new procedure for separating and measuring radiogenic isotopes (U, Th, Pa, Ra, Sr, Nd, Hf) in ice cores , 2009 .

[6]  R. Gilkes,et al.  Intercalation of reference and soil kaolins in relation to physico-chemical and structural properties , 2009 .

[7]  E. Pili,et al.  Weathering rates from top to bottom in a carbonate environment , 2009 .

[8]  P. Gabrielli,et al.  Climate-related variations in crustal trace elements in Dome C (East Antarctica) ice during the past 672 kyr , 2009 .

[9]  Kenji Kawamura,et al.  The EDC3 chronology for the EPICA Dome C ice core , 2007 .

[10]  A. Schilt,et al.  Orbital and Millennial Antarctic Climate Variability over the Past 800,000 Years , 2007, Science.

[11]  J. Jouzel,et al.  Anomalous flow below 2700 m in the EPICA Dome C ice core detected using δ 18 O of atmospheric oxygen measurements , 2007 .

[12]  S. Popov,et al.  Forty-seven new subglacial lakes in the 0–110° E sector of East Antarctica , 2007, Journal of Glaciology.

[13]  J. Jouzel,et al.  10Be evidence for the Matuyama–Brunhes geomagnetic reversal in the EPICA Dome C ice core , 2006, Nature.

[14]  M. Tiepolo,et al.  A volcanic marker (92 ka) for dating deep east Antarctic ice cores , 2006 .

[15]  R. Uncles,et al.  Properties of suspended sediment in the estuarine turbidity maximum of the highly turbid Humber Estuary system, UK , 2006 .

[16]  C. Barbante,et al.  Southern Ocean sea-ice extent, productivity and iron flux over the past eight glacial cycles , 2006, Nature.

[17]  G. Henderson,et al.  Control on (234U / 238U) in lake water: A study in the Dry Valleys of Antarctica , 2006 .

[18]  T. Stocker,et al.  Atmospheric Methane and Nitrous Oxide of the Late Pleistocene from Antarctic Ice Cores , 2005, Science.

[19]  Ralf Greve,et al.  Relation of measured basal temperatures and the spatial distribution of the geothermal heat flux for the Greenland ice sheet , 2005, Annals of Glaciology.

[20]  V. Lipenkov,et al.  Trace elements in Vostok Antarctic ice during the last four climatic cycles [rapid communication] , 2005 .

[21]  S. Marshall,et al.  Tracer transport in the Greenland ice sheet: three-dimensional isotopic stratigraphy , 2005 .

[22]  G. Faure,et al.  Isotopes: Principles and Applications , 2004 .

[23]  Carlo Barbante,et al.  Eight glacial cycles from an Antarctic ice core , 2004, Nature.

[24]  F. Grousset,et al.  Comparing the Epica and Vostok dust records during the last 220,000 years: stratigraphical correlation and provenance in glacial periods , 2004 .

[25]  R. Mikula,et al.  High surface areas caused by smectitic interstratification of kaolinite and illite in Athabasca oil sands , 2004 .

[26]  K. Nishiizumi,et al.  Uranium-series chronology and cosmogenic 10Be–36Cl record of Antarctic ice , 2004 .

[27]  Achille Zirizzotti,et al.  New bedrock map of Dome C, Antarctica, and morphostructural interpretation of the area , 2004, Annals of Glaciology.

[28]  CLAY MINERALS,et al.  Clay Minerals , 2004 .

[29]  R. Fleischer Etching of recoil tracks in solids , 2003 .

[30]  F. Brandt,et al.  Chlorite dissolution in the acid ph-range: a combined microscopic and macroscopic approach , 2003 .

[31]  Seelye Martin,et al.  Frost flowers: Implications for tropospheric chemistry and ice core interpretation , 2002 .

[32]  G. Henderson Seawater ( 234 U/ 238 U) during the last 800 thousand years , 2002 .

[33]  B. Delmonte,et al.  Glacial to Holocene implications of the new 27000-year dust record from the EPICA Dome C (East Antarctica) ice core , 2002 .

[34]  J. M. Tura,et al.  Talc preparations used for pleurodesis vary markedly from one preparation to another. , 2001, Chest.

[35]  E. Oelkers,et al.  Are quartz dissolution rates proportional to B.E.T. surface areas , 2001 .

[36]  A. Sawvel,et al.  Determination of Reactive Surface Area of Melt Glass , 2000 .

[37]  Hai Cheng,et al.  The half-lives of uranium-234 and thorium-230 , 2000 .

[38]  M. Murtagh,et al.  AN XRD MORPHOLOGY INDEX FOR TALCS: THE EFFECT OF PARTICLE SIZE AND MORPHOLOGY ON THE SPECIFIC SURFACE AREA , 2000 .

[39]  J. Jouzel,et al.  More than 200 meters of lake ice above subglacial Lake Vostok, Antarctica. , 1999, Science.

[40]  J. Jouzel,et al.  Climate and atmospheric history of the past 420,000 years from the Vostok ice core, Antarctica , 1999, Nature.

[41]  C. Henderson Radiogenic Isotope Geology , 1997 .

[42]  D. Stonestrom,et al.  Chemical weathering rates of a soil chronosequence on granitic alluvium: I , 1996 .

[43]  J. Jouzel,et al.  The two-step shape and timing of the last deglaciation in Antarctica , 1995 .

[44]  Sungmin Hong,et al.  An improved method for decontaminating polar snow or ice cores for heavy metal analysis , 1994 .

[45]  E. Voudrias,et al.  Sorption of uranium by brine-saturated halite, mudstone and carbonate minerals , 1993 .

[46]  R. F. Nolting,et al.  Dissolved aluminium in the Weddell-Scotia Confluence and effect of Al on the dissolution kinetics of biogenic silica , 1991 .

[47]  Semków Fractal model of radon emanation from solids. , 1991, Physical review letters.

[48]  A. Gaudichet,et al.  Mineralogy of insoluble particles in the Vostok Antarctic ice core over the last climatic cycle (150 kyr) , 1988 .

[49]  A. Gaudichet,et al.  An investigation by analytical transmission electron microscopy of individual insoluble microparticles from Antarctic (Dome C) ice core samples , 1986 .

[50]  E. L. Fireman Uranium series dating of Allan Hills ice , 1986 .

[51]  T. Hashimoto,et al.  Range calculation of alpha-recoil atoms in some minerals using LSS-theory , 1985 .

[52]  A. Halasz,et al.  Determination of Reactive Lysine by Dye-Binding , 1985 .

[53]  K. Wada,et al.  Density and structure of allophane , 1977, Clay Minerals.

[54]  A. Banin,et al.  The specific surface area of clays in lake sediments‐measurement and analysis of contributors in Lake Kinneret, Israel1 , 1975 .

[55]  S. J. Gregg,et al.  Adsorption Surface Area and Porosity , 1967 .

[56]  M. M. Mortland,et al.  External specific surface area of vermiculite , 1966 .

[57]  R. Howie,et al.  An Introduction to the Rock-Forming Minerals , 1966 .

[58]  W. Ormsby,et al.  Surface Area and Exchange Capacity Relation in a Florida Kaolinite , 1960 .