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Holocene Climate Variability in Antarctica Based on 11 Ice-Core Isotopic Records

Published online by Cambridge University Press:  20 January 2017

Valérie Masson
Affiliation:
Laboratoire des Sciences du Climat et de l'Environnement, UMR CEA/CNRS 1572, Bât. 709, L'Orme des Merisiers, CEA Saclay, 91 190, Gif-sur-Yvette, France
Françoise Vimeux
Affiliation:
Laboratoire des Sciences du Climat et de l'Environnement, UMR CEA/CNRS 1572, Bât. 709, L'Orme des Merisiers, CEA Saclay, 91 190, Gif-sur-Yvette, France
Jean Jouzel
Affiliation:
Laboratoire des Sciences du Climat et de l'Environnement, UMR CEA/CNRS 1572, Bât. 709, L'Orme des Merisiers, CEA Saclay, 91 190, Gif-sur-Yvette, France
Vin Morgan
Affiliation:
Antarctic CRC and Australian Antarctic Division, GPO Box 252-80, Hobart, 7001, Australia
Marc Delmotte
Affiliation:
Laboratoire des Sciences du Climat et de l'Environnement, UMR CEA/CNRS 1572, Bât. 709, L'Orme des Merisiers, CEA Saclay, 91 190, Gif-sur-Yvette, France
Philippe Ciais
Affiliation:
Laboratoire des Sciences du Climat et de l'Environnement, UMR CEA/CNRS 1572, Bât. 709, L'Orme des Merisiers, CEA Saclay, 91 190, Gif-sur-Yvette, France
Claus Hammer
Affiliation:
Niels Bohr Institute, Department of Geophysics, University of Copenhagen, Juliane Maries Vej 30, 2100 DK, Copenhagen, Denmark
Sigfus Johnsen
Affiliation:
Niels Bohr Institute, Department of Geophysics, University of Copenhagen, Juliane Maries Vej 30, 2100 DK, Copenhagen, Denmark
Vladimir Ya. Lipenkov
Affiliation:
Arctic and Antarctic Research Institute, 38 Bering Street, St. Petersburg, 199397, Russia
E. Mosley-Thompson
Affiliation:
Byrd Polar Research Center, Department of Geography, The Ohio State University, Columbus, Ohio, 43210
Jean-Robert Petit
Affiliation:
Laboratoire de Glaciologie et Géophysique de l'Environnement, 54 rue Molière, Domaine Universitaire, BP 96, 38402, Saint-Martin-d'Hères cédex, France
Eric J. Steig
Affiliation:
Department of Earth and Environmental Sciences, University of Pennsylvania, 251 Hayden Hall, 240 South 33rd Street, Philadelphia, Pennsylvania, 19104-6316
Michel Stievenard
Affiliation:
Laboratoire des Sciences du Climat et de l'Environnement, UMR CEA/CNRS 1572, Bât. 709, L'Orme des Merisiers, CEA Saclay, 91 190, Gif-sur-Yvette, France
Rein Vaikmae
Affiliation:
Institute of Geology, Tallinn Technical University, 7 Estonia Boulevard, 10143, Tallin, Estonia

Abstract

A comparison is made of the Holocene records obtained from water isotope measurements along 11 ice cores from coastal and central sites in east Antarctica (Vostok, Dome B, Plateau Remote, Komsomolskaia, Dome C, Taylor Dome, Dominion Range, D47, KM105, and Law Dome) and west Antarctica (Byrd), with temporal resolution from 20 to 50 yr. The long-term trends possibly reflect local ice sheet elevation fluctuations superimposed on common climatic fluctuations. All the records confirm the widespread Antarctic early Holocene optimum between 11,500 and 9000 yr; in the Ross Sea sector, a secondary optimum is identified between 7000 and 5000 yr, whereas all eastern Antarctic sites show a late optimum between 6000 and 3000 yr. Superimposed on the long time trend, all the records exhibit 9 aperiodic millennial-scale oscillations. Climatic optima show a reduced pacing between warm events (typically 800 yr), whereas cooler periods are associated with less-frequent warm events (pacing >1200 yr).

Type
Research Article
Copyright
University of Washington

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References

Barber, D.C., Dyke, A., Hillaire-Marcel, C., Jennings, A.E., Andrews, J.T., Kerwin, M.W., Bilodeau, G., McNeely, R., Southon, J., Morehead, M.D., Gagnon, J.-M. (1999). Forcing of the cold event 8200 years ago by catastrophic drainage of Laurentide lakes. Nature, 400, 344348.CrossRefGoogle Scholar
Baroni, C., Orombelli, G. (1994). Abandoned penguin rookeries as Holocene paleoclimatic indicators in Antarctica. Geology, 22, 2326.Google Scholar
Bianchi, G.G., McCave, I.N. (1999). Holocene periodicity in North Atlantic climate and deep-ocean flow south of Iceland. Nature, 397, 515517.Google Scholar
Blunier, T., Schwander, J., Stauffer, B., Stocker, T., Dällenbach, A., Indermühle, A., Tschumi, T., Chappellaz, J., Raynaud, D., Barnola, J.-M.. Timing of the Antarctic Cold Reversal and the atmospheric CO2 increase with respect to the Younger Dryas event. Geophysical Research Letters, 24, (1997). 26832690.CrossRefGoogle Scholar
Bond, G., Showers, W., Cheseby, M., Lotti, R., Almasi, P., deMenocal, P., Priore, P., Cullen, H., Hajdas, I., Bonani, G. (1997). A pervasive millennial-scale cycle in North Atlantic Holocene and glacial climates. Science, 278, 12571266.CrossRefGoogle Scholar
Bromwich, D.H., Chen, B., Hines, K.M. (1998). Global atmospheric impacts induced by year-round open water adjacent to Antarctica. Journal of Geophysical Research, 103, 1117311189.Google Scholar
Ciais, P., Petit, J.-R., Jouzel, J., Lorius, C., Barkov, N.I., Lipenkov, V., Nicolaiev, V. (1992). Evidence for an early Holocene climatic optimum in the Antarctic deep ice-core record. Climate Dynamics, 6, 169177.Google Scholar
Ciais, P., Jouzel, J., Petit, J.-R., Lipenkov, V., White, J.W.C. (1994). Holocene temperature variations inferred from six Antarctic cores. Annals of Glaciology, 20, 427436.Google Scholar
Delaygue, G., J,, Jouzel, Masson, V., Koster, R. in press. Validity of the isotopic thermometer in central antarctica: Impact of glacial precipitation seasonality and moisture origin. Geophysical Research Letters.Google Scholar
Delmotte, M., Raynaud, D., Morgan, V., Jouzel, J. (1999). Climatic and glaciological information inferred from air content-measurements of a Law Dome (East Antarctica) ice core. Journal of Glaciology, 45, 255263.CrossRefGoogle Scholar
Delmotte, M., Masson, V., Morgan, V., Jouzel, J. (2000). A seasonal deuterium excess signal at Law Dome, coastal eastern Antarctica: A southern ocean signature. Journal of Geophysical Research, 105, 71877197.Google Scholar
Dettinger, M.D., Ghil, M., Strong, C.M., Weibel, W., Yiou, P. (1995). Software expedites singular-spectrum analyses of noisy time series. Earth and Ocean Sciences Transactions, 76, 12 Google Scholar
Domack, E., Mayewski, P. (1999). A bi-polar signal in late Holocene paleoclimate: Comparison of the marine and ice core records. The Holocene, 9, 247251.Google Scholar
Domack, E., Jacobson, E., Shipp, S., Anderson, J. (1999). Late Pleistocene–Holocene retreat of the West Antarctic ice-sheet system in the Ross Sea. Geological Society of America Bulletin, 111, 15171536.Google Scholar
Fisher, D.A., Reeh, N., Claussen, H.B. (1985). Stratigraphic noise in time series derived from ice cores. Annals of Glaciology, 7, 7683.Google Scholar
Gasse, F., Van Campo, E. (1994). Abrupt post-glacial climate events in West Asia and North Africa monsoon domains. Earth and Planetary Science Letters, 126, 435459.Google Scholar
Goodwin, I. (1998). Did changes in Antarctic ice volume influence late Holocene sea-level lowering. Quaternary Science Reviews, 17, 319332.Google Scholar
Hackert, R. P., Barclay, D. J., Borns, H. W., Calkin, P. E., Kurz, M. D., Steig, E. J., Fastook, J. L.in press. Geologic evidence of higher ice sheet elevations in interior West Antarctica. Geology.Google Scholar
Hammer, C.U., Claussen, H.B., Langway, C.C. Jr. (1994). Electrical conductivity method (ECM) stratigraphic dating of the Byrd station ice core, Antarctica. Annals of Glaciology, 20, 115120.Google Scholar
Huybrechts, P. (1992). The Antarctic Ice Sheet and Environmental Change: A Three-Dimensional Modelling Study, Technical report, Alfred-Wegener Institute für Polar- und Meeresforschung.Google Scholar
Jacka, T.H., Budd, W.F. (1998). Detection of temperature and sea-ice-extent changes in the Antarctic and Southern Ocean. Annals of Glaciology, 27, 553559.CrossRefGoogle Scholar
Jenssen, D.. Elevation and climatic changes from total gas content and stable isotopic measurements. de Q. Robin, G. (1983). The Climatic Record in Polar Ice Sheets. Cambridge Univ. Press, Cambridge., 138144.Google Scholar
Jouzel, J. (1999). Calibrating the isotopic paleothermometer. Science, 286, 910911.Google Scholar
Jouzel, J., Vaikmae, R., Petit, J.-R., Martin, M., Duclos, Y., Stievenard, M., Lorius, C., Toots, M., Melières, M.-A., Burckle, L.H., Barkov, N.I., Kotlyakov, V.M. (1995). The two-step shape and timing of the last deglaciation in Antarctica. Climate Dynamics, 11, 151161.CrossRefGoogle Scholar
Jouzel, J., Alley, R.B., Cuffey, K.M., Dansgaard, W., Grootes, P., Hoffmann, G., Johnsen, S.J., Koster, R.D., Shuman, C.A., Stievenard, M., Stuiver, M., White, J.W.C. (1997). Validity of the temperature reconstruction from water isotopes in ice cores. Journal of Geophysical Research, 102, 2647126487.CrossRefGoogle Scholar
Keys, H.J.R., Jacobs, S.S., Brigham, L.W. (1998). Continued northward expansion of the Ross Ice Shelf, Antarctica. Annals of Glaciology, 27, 9398.Google Scholar
Lamb, H.F., Gasse, F., Benjaddour, A., Hamouti, N.E., van der Kaars, S., Perkins, W.T., Pearce, N.J., Roberts, C.N. (1995). Relation between century-scale Holocene arid intervals in tropical and temperate zones. Nature, 373, 134137.CrossRefGoogle Scholar
Leventer, A., Dunber, R.B. (1988). Recent diatom record of McMurdo Sound, Antarctica: Implications for history of sea-ice extent. Paleoceanography, 3, 259274.CrossRefGoogle Scholar
Leventer, A., Domack, E.W., Ishman, S.E., Brachfeld, S., McClennen, C.E., Manley, P. (1996). Productivity cycles of 200–300 years in the Antarctic Peninsula region: Understanding linkages among the sun, atmosphere, oceans, sea ice and biota. Geological Society of America Bulletin, 108, 16261644.2.3.CO;2>CrossRefGoogle Scholar
Lipenkov, V., Ekaykin, A.A., Barkov, N.I., Pourchet, M. (1998). On the relation between surface snow density in Antarctica and wind speed. Data of Glaciological Studies, 85, 148158.Google Scholar
Lorius, C., Merlivat, L. (1977). Distribution of mean surface stable isotope values in East Antarctica: Observed changes with depth in coastal area. Impurities in Snow and Ice. IAHS Publications, Vienna.p. 127–137Google Scholar
Lorius, C., Merlivat, L., Jouzel, J., Pourchet, M. (1979). A 30,000 year isotope climatic record from Antarctic ice. Nature, 280, 644648.CrossRefGoogle Scholar
Marchant, D.R., Denton, G.H., Bockheim, J.G., Wilson, S.C., Kerr, A.R. (1994). Quaternary changes in level of the upper Taylor Glacier, Antarctica: Implications for paleoclimate and East Antarctic ice sheet dynamics. Boreas, 23, 2943.CrossRefGoogle Scholar
Martinerie, P., Lipenkov, V.Y., Raynaud, D. (1994). Air content paleo record in the Vostok ice core (Antarctica): A mixed record of climatic and glaciological parameters. Journal of Geophysical Research, 99, 1056510576.Google Scholar
Mayewski, P., Lyons, W., Zielinski, G., Twickler, M., Whitlow, S., Dibb, J., Grootes, P., Taylor, J., Wung, P., Fosberry, K., Wake, C., Welsh, K. (1995). An ice-core-based late Holocene history for the Transantarctic Mountains, Antarctica. Antarctic Research Series, Contributions to Antarctic Research IV, 67, 3345.CrossRefGoogle Scholar
Morgan, V.I., Wookey, C.W., Li, J., Ommen, T.D.V., Skinner, W., Fitzpatrick, M.F. (1997). Site information and initial results from deep ice drilling on Law Dome. Journal of Glaciology, 43, 310.Google Scholar
Mosley-Thompson, E. (1995). Holocene Climate Changes Recorded in an East Antarctica Ice Core. Jones, P., Bradley, R., Jouzel, J. Climatic Variations and Forcing Mechanisms of the Last 2,000 Years NATO Advanced Research, Berlin., 263279.Google Scholar
Nikolaiev, V.I., Kotlyakov, V.M., Smirnov, K.E. (1988). Isotopic studies of the ice core from the Komsomolskaia station, Antarctica. Data of Glaciological Studies of the USSR Academy of Sciences, 63, 97102.Google Scholar
O'Brien, S.R., Mayewski, P.A., Meeker, L.D., Meese, D.A., Twickler, M.S., Whitlow, S.I. (1995). Complexity of Holocene climate as reconstructed from a Greenland ice core. Science, 270, 19621964.Google Scholar
Petit, J.-R., Jouzel, J., Raynaud, D., Barkov, N.I., Barnola, J.-M., Basile, I., Bender, M., Chappellaz, J., Davis, J., Delaygue, G., Delmotte, M., Kotlyakov, V.M., Legrand, M., Lipenkov, V., Lorius, C., Pépin, L., Ritz, C., Salzman, E., Stievenard, M. (1999). Climate and atmospheric history of the past 420 000 years from the Vostok ice core, Antarctica. Nature, 399, 429436.CrossRefGoogle Scholar
Rott, H., Skvarca, P., Nagler, T. (1996). Rapid collapse of northern Larsen ice shelf, Antarctica. Science, 271, 788792.Google Scholar
Sirocko, F. (1996). Past and present subtropical summer monsoons. Science, 274, 937938.CrossRefGoogle Scholar
Smith, S.R., Stearns, C.R. (1993). Antarctic pressure and temperature anomalies surrounding the minimum in the southern oscillation index. Journal of Geophysical Research, 98, 1307113083.CrossRefGoogle Scholar
Stager, J., Mayewski, P. (1997). Abrupt Early to Mid-Holocene climatic transition registered at the equator and the poles. Science, 276, 18341837.Google Scholar
Steig, E.J., Brooks, E.J., White, J.W.C., Sucher, C.M., Bender, M.L., Lehman, S.J., Morse, D.L., Waddington, E.D., Clow, G.D. (1998). Synchronous climate changes in Antarctica and the north Atlantic. Science, 282, 9295.CrossRefGoogle ScholarPubMed
Steig, E.J., Hart, C.P., White, J.W.C., Cunnigham, M.L., Davis, M.D., Saltzman, E.S. (1998). Changes in climate, ocean and ice-sheet conditions in the Ross embayment, Antarctica, at 6 ka. Annals of Glaciology, 27, 305310.CrossRefGoogle Scholar
Steig, E.J., Morse, D.L., Waddington, E.D., Stuiver, M., Grootes, P.M., Mayewski, P.M., Whitlow, S.I., Twickler, M.S. (2000). Wisconsinan and Holocene climate history from an ice core at Taylor Dome, western Ross Embayment, Antarctica. Geografiska Annaler, 82A, 213235.Google Scholar
Stuiver, M., Braziunas, T.F. (1993). Sun, ocean, climate and atmospheric 14CO2: An evaluation of causal and spectral relationships. The Holocene, 3, 289305.CrossRefGoogle Scholar
Van Ommen, T., Morgan, V. (1997). Calibrating the ice core paleothermometer using seasonality. Journal of Geophysical Research, 102, 93519356.CrossRefGoogle Scholar
Vimeux, F.,Masson, V., Jouzel, J., Petit, J.-R, Steig, E. J., Stievenard, M., Vaikmae, R., White, J. C. W. in press. Holocene hydrological cycle changes in south hemisphere documented in Antarctic deuterium excess records. Climate Dynamics.Google Scholar
Von Grafenstein, U., Erlenkeuser, E., Müller, J., Jouzel, J., Johnsen, S. (1998). The cold event 8200 years ago documented in oxygen isotope records of precipitation in Europe and Greenland. Climate Dynamics, 14, 7381.Google Scholar
Yiou, P., Fuhrer, K., Meeker, L.D., Jouzel, J., Johnsen, S., Mayewski, P.A. (1997). Paleoclimatic variability inferred from the spectral analysis of Greenland and Antarctic ice-core data. Journal of Geophysical Research, 102, 2644126454.Google Scholar