Engrand C., Gounelle M., Zolensky M.E. & Duprat J. (2003). About Tagish Lake as a potential parent body for polar micrometeorites ; clues from their hydrogen isotopic compositions. Lunar and planetary science, 34, 1688.
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Gerday C.h. (2002). About the description and the origin ob biological differences. Cell, 111, 461–463.
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Masson-Delmotte V, Stenni B, Blunier T, Cattani O, Chappellaz J, Cheng H, Dreyfus G, Edwards R L, Falourd S, Govin A, Kawamura K, Johnsen S J, Jouzel J, Landais A, Lemieux-Dudon B, Lourantou A, Marshall G, Minster B, Mudelsee M, Pol K, Röthlisberger R, Selmo E, Waelbroeck C, . (2010). Abrupt change of Antarctic moisture origin at the end of Termination II
. Proc. Natl. Acad. Sci. U.S.A., 107(27), 12091–12094.
Abstract: The deuterium excess of polar ice cores documents past changes in evaporation conditions and moisture origin. New data obtained from the European Project for Ice Coring in Antarctica Dome C East Antarctic ice core provide new insights on the sequence of events involved in Termination II, the transition between the penultimate glacial and interglacial periods. This termination is marked by a northsouth seesaw behavior, with first a slow methane concentration rise associated with a strong Antarctic temperature warming and a slow deuterium excess rise. This first step is followed by an abrupt north Atlantic warming, an abrupt resumption of the East Asian summer monsoon, a sharp methane rise, and a CO2 overshoot, which coincide within dating uncertainties with the end of Antarctic optimum. Here, we show that this second phase is marked by a very sharp Dome C centennial deuterium excess rise, revealing abrupt reorganization of atmospheric circulation in the southern Indian Ocean sector.
Programme: 458
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Massé G., Rowland S.J., Sicre M-A., Jacob J., Jansen E. & Belt, S.T. (2008). Abrupt climate changes for Iceland during the last millennium: evidence from high resolution sea ice reconstructions. Earth Planet. Sci. Lett., 269(3-4), 565–569.
Abstract: A high resolution account of Icelandic sea ice over the last millennium has been constructed using a novel proxy based on the presence in sediments of a biomarker (IP25) produced by sea ice algae. Comparison with historical sea ice records demonstrates a strong correlation between documented sea ice occurrences and the IP25 proxy. An excellent agreement is also observed between the IP25 record and a diatom-based sea surface temperature reconstruction obtained from the same core and the Crowley and Lowery Northern Hemisphere temperature reconstruction. Using this approach, we provide new historical sea ice data for periods where records are scarce or absent and evidence for abrupt changes to sea ice and/or climate conditions around Iceland during the Little Ice Age.
Programme: 452
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Jouzel J., Hammer C., Lorius C., Johnsen S., Grootes P., Stievenard M. & White J. (1996). Abrupt climatic changes: A global perspective from ice cores. (Vol. 35).
Abstract: NATO ASI Series
Programme: 322
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Van Roozendael M., Peeters P., Simon P.C., Roscoe H.K., Jones A., Bartlett L., Vaughan G. & Goutail Pommereau Kyro Walhstrom Braaathen. (1996). Absolute calibration of SAOZ measurements of ozone by comparison with Dodson and Brewer instruments. Bachelor's thesis, , .
Abstract: Proc. Third European Symp. on Polar Ozone
Programme: 209
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Mäkinen J., Amalvict M., Shibuya K. & Fukuda Y. (2007). Absolute Gravimetry in Antarctica: State-of-the-Art and Prospective. Journal of geodynamics, 43, 339–357.
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Rogister Y., Amalvict M., Hinderer J., Luck B. et Memin A. (2007). Absolute gravity measurements in Antarctica during the International Polar Year.
Abstract: 10th International Symposium on Antarctic Earth Sciences, Santa Barbara, California, USA
Programme: 337
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Amalvict, M., Rogister, Y., McQueen, H., Hinderer, J., & Luck, B. (2006). Absolute gravity experiments in Terre Adélie (Antarctica) and at Canberra & Tidbinbilla (Australia),.
Abstract: 1st Int. Gravity Field Service, Istanbul, Turkey.
Programme: 337
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Amalvict, M., Rogister, Y , Luck B. & Hinderer J. (2007). Absolute gravity in the Southern Indian Ocean. IAG Symposia, 130, 433–437.
Abstract: in IAG Symposia 'Dynamic Planet: Monitoring and understanding a dynamic planet with geodetic and oceanographic tools
Programme: 337
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