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Holocene climate variability

Published online by Cambridge University Press:  20 January 2017

Paul A. Mayewski ,
Eelco E. Rohling ,
J. Curt Stager ,
Wibjörn Karlén ,
Kirk A. Maasch ,
L. David Meeker ,
Eric A. Meyerson ,
Francoise Gasse ,
Shirley van Kreveld  and
Karin Holmgren
...Show all authors
Paul A. Mayewski*
Affiliation:
Climate Change Institute, and Department of Earth Sciences, University of Maine, Orono, ME 04469, USA
Eelco E. Rohling
Affiliation:
School of Ocean and Earth Science, Southampton University, Southampton, Hampshire SO14 3ZH, UK
J. Curt Stager
Affiliation:
Natural Resources Division, Paul Smith's College, Paul Smiths, NY 12970, USA
Wibjörn Karlén
Affiliation:
Department of Physical Geography and Quaternary Geology, Stockholm University, 106 91 Stockholm, Sweden
Kirk A. Maasch
Affiliation:
Climate Change Institute, and Department of Earth Sciences, University of Maine, Orono, ME 04469, USA
L. David Meeker
Affiliation:
Institute for the Study of Earth, Oceans and Space, and Department of Mathematics, University of New Hampshire, Durham, NH 03824, USA
Eric A. Meyerson
Affiliation:
Climate Change Institute, and Department of Earth Sciences, University of Maine, Orono, ME 04469, USA
Francoise Gasse
Affiliation:
Centre Europeen de Recherche et d'Enseignement de Geosciences de l'Environnement, BP 80, F-13454, Aix-en-Provence Cedex 4, France
Shirley van Kreveld
Affiliation:
Institüt für Geowissenschaften, University of Kiel, D-24098 Kiel, Germany
Karin Holmgren
Affiliation:
Department of Physical Geography and Quaternary Geology, Stockholm University, 106 91 Stockholm, Sweden
Julia Lee-Thorp
Affiliation:
Archaeology Department, University of Cape Town, Cape Town, South Africa
Gunhild Rosqvist
Affiliation:
Department of Physical Geography and Quaternary Geology, Stockholm University, 106 91 Stockholm, Sweden
Frank Rack
Affiliation:
Joint Oceanographic Institutions, Inc., Washington, D.C. 20036, USA
Michael Staubwasser
Affiliation:
Department of Earth Sciences, Parks Road OX1 3PR, Oxford, UK
Ralph R. Schneider
Affiliation:
MARUM, Geosciences, Bremen University, D-28359 Bremen, Germany
Eric J. Steig
Affiliation:
Quaternary Research Center and Department of Earth and Space Sciences, University of Washington, Seattle 98195, WA, USA
*
*Corresponding author. Fax: +1-207-581-1203.

E-mail address: [email protected] (P.A. Mayewski).

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Abstract

Although the dramatic climate disruptions of the last glacial period have received considerable attention, relatively little has been directed toward climate variability in the Holocene (11,500 cal yr B.P. to the present). Examination of ?50 globally distributed paleoclimate records reveals as many as six periods of significant rapid climate change during the time periods 9000"8000, 6000"5000, 4200"3800, 3500"2500, 1200"1000, and 600"150 cal yr B.P. Most of the climate change events in these globally distributed records are characterized by polar cooling, tropical aridity, and major atmospheric circulation changes, although in the most recent interval (600"150 cal yr B.P.), polar cooling was accompanied by increased moisture in some parts of the tropics. Several intervals coincide with major disruptions of civilization, illustrating the human significance of Holocene climate variability.

Keywords

ClimateRapid climate changeHoloceneSolar variability
Type
Research Article
Information
Quaternary Research , Volume 62 , Issue 3 , November 2004 , pp. 243 - 255
Copyright
University of Washington

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References

Allen, B.D., Anderson, R.Y., 1993. Evidence from western North America for rapid shifts in climate during the last glacial maximum. Science 260, 19201923.CrossRefGoogle ScholarPubMed
Alley, R.B., Mayewski, P.A., Sowers, T., Stuiver, M., Taylor, K.C., Clark, P.U., 1997. Holocene climatic instability: a prominent widespread event 8200 years ago. Geology 25, 483486.2.3.CO;2>CrossRefGoogle Scholar
Baker, P., Seltzer, G., Fritz, S., Dunbar, R., Grove, M., Tapia, P., Cross, S., Rowe, H., Broda, J., 2001. The history of South American tropical precipitation for the past 25,000 years. Science 291, 640643.CrossRefGoogle ScholarPubMed
Bar-Matthews, M., Ayalon, A., Kaufman, A., Wasserburg, G., 1999. The eastern Mediterranean paleoclimate as a reflection of regional events: Soreq Cave, Israel. Earth and Planetary Science Letters 166, 8595.CrossRefGoogle Scholar
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 of 8,200 years ago by catastrophic drainage of Laurentide lakes. Nature 400, 344348.CrossRefGoogle Scholar
Bard, E., Rostek, F., Sonzogni, C., 1997. Interhemispheric synchrony of the last deglaciation inferred from alkenone palaeothermometry. Nature 385, 707710.CrossRefGoogle Scholar
Bard, E., Raisbeck, G., Yiou, F., Jouzel, J., 2000. Solar irradiation during the last 1200 years based on cosmogenic nuclides. Tellus 52(B), 985992.CrossRefGoogle Scholar
Beer, J., 2000. Polar ice as an archive for solar cycles and the terrestrial climate. The Solar Cycle and Terrestrial Climate, Proc. 1st Solar and Space Weather Euroconference. vol. SP-463 ESA, Santa Cruz de Tenerife, Spain.671676.Google Scholar
Behl, R.J., Kennet, J.P., 1996. Brief interstadial events in the Santa Barbara Basin, NE Pacific, during the past 60 kyr. Nature 379, 243246.CrossRefGoogle Scholar
Berger, A., Loutre, M.F., 1991. Insolation values for the climate of the last 10 million years. Quaternary Science Reviews 10, 297317.CrossRefGoogle Scholar
Bianchi, G.G., McCave, I.N., 1999. Holocene periodicity in North Atlantic climate and deep-ocean flow south of Iceland. Nature 397, 515517.CrossRefGoogle Scholar
Blunier, T., Chappellaz, J.A., Schwander, J., Stauffer, B., 1995. Variations in atmospheric methane concentration during the Holocene epoch. Nature 374, 4649.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 millenial-scale cycle in North Atlantic Holocene and glacial climates. Science 278, 12571266.CrossRefGoogle Scholar
Bond, G., Showers, W., Elliot, M., Evans, M., Lotti, R., Hajdas, I., Bonani, G., Johnson, S., 1999. The North Atlantic's 1–2 kyr climate rhythm: relation to Heinrich Events, Dansgaard/Oeschger cycle and the Little Ice Age. Clark, P., Webb, R., Keigwin, L., Mechanisms of Global Climate Change at Millennial Time Scales. Geophysical Monograph Series vol. 112, American Geophysical Union, Washington, DC.3558.CrossRefGoogle Scholar
Bond, G., Kromer, B., Beer, J., Muscheler, R., Evans, M., Showers, W., Hoffmann, S., Lotti-Bond, R., Hajdas, I., Bonani, G., 2001. Persistent solar influence on North Atlantic climate during the Holocene. Science 294, 21302136.CrossRefGoogle ScholarPubMed
Bradbury, JP., Dean, W.E., Anderson, R.Y., 1993. Holocene climatic and limnologic history of the north-central United States as recorded in the varved sediments of Elk Lake, Minnesota: a synthesis. Special Paper - Geological Society of America 276, 309328.CrossRefGoogle Scholar
Bray, J.R., 1971. Solar–climate relationships in the post-Pleistocene. Science 171, 12421243.CrossRefGoogle ScholarPubMed
Bray, J.R., 1972. Cyclic temperature oscillations from 0–20,300 yr BP. Nature 237, 277279.CrossRefGoogle Scholar
Briffa, K.R., Jones, P.D., Bartholin, T.S., Eckstein, D., Schweingruber, F.H., Karlén, W., Zetterberg, P., Eronen, P., 1992. Fennoscandian summers from A.D. 500: temperature changes on short and long time scales. Climate Dynamics 7, 111119.CrossRefGoogle Scholar
Buckland, P.C., Amorosi, T., Barlow, L.K., Dugmore, A.J., Mayewski, P.A., McGovern, T.H., Ogilvie, A.E.J., Sadler, J.P., Skidmore, P., 1995. Bioarchaeological evidence and climatological evidence for the fate of Norse farmers in medieval Greenland. Antiquity 70, 8896.CrossRefGoogle Scholar
Chappellaz, J., Blunier, T., Raynaud, D., Barnola, J.M., Schwander, J., Stauffer, B., 1993. Synchronous changes in atmospheric CH4 and Greenland climate between 40 and 8 kyr B.P.. Nature 366, 443445.CrossRefGoogle Scholar
Ciais, P., Jouzel, J., Petit, J.R., Lipenkov, V., White, J.W.C., 1994. Holocene temperature variations inferred from 6 Antarctic ice cores. Annals of Glaciology 20, 427436.CrossRefGoogle Scholar
Clark, P.U., Marshall, S.J., Clarke, G.K.C., Hostetler, S.W., Licciardi, J.M., Teller, J.T., 2001. Freshwater forcing of abrupt climate change during the last glaciation. Science 293, 283287.CrossRefGoogle ScholarPubMed
Clement, A.C., Seager, R., Cane, M.A, 2000. Suppression of El Niño during the mid-Holocene by changes in the Earth's orbit. Paleoceanography 15, 731737.CrossRefGoogle Scholar
Comiso, J.C., 2000. Variability and trends in Antarctic surface temperatures from in situ and satellite infrared measurements. Journal of Climate 13, 16741696.2.0.CO;2>CrossRefGoogle Scholar
Conway, H., Hall, B.L., Denton, G.H., Gades, A.M., Waddington, E., 1999. Past and future grounding-line retreat of West Antarctic Ice Sheet. Science 286, 280283.CrossRefGoogle ScholarPubMed
Dansgaard, W., Johnsen, S.J., Clausen, H.B., Langway, C.C., 1971. Climatic record revealed by the Camp Century ice core. Turekian, K., The Late Cenozoic Glacial Ages Yale Univ. Press, New Haven.3756.Google Scholar
deMenocal, P., Ortiz, J., Guilderson, T., Adkins, J., Sarnthein, M., Baker, L., Yarusinsky, M., 2000a. Abrupt onset and termination of the African humid period: rapid climate responses to gradual insolation forcing. Quaternary Science Reviews 19, 347361.CrossRefGoogle Scholar
deMenocal, P., Ortiz, J., Guilderson, T., Sarnthein, M., 2000b. Coherent highland low-latitude climate variability during the Holocene warm period. Science 288, 21982202.CrossRefGoogle Scholar
Denton, G.H., Karlén, W., 1973. Holocene climatic variations: their pattern and possible cause. Quaternary Research 3, 155205.CrossRefGoogle Scholar
Enzel, Y.L., Ely, L., Mishra, S., Ramesh, R., Amit, R., Lazar, B., Rajaguru, S.N., Baker, V., Sandler, A., 1999. High-resolution Holocene environmental changes in the Thar Desert Northwestern India. Science 284, 125128.CrossRefGoogle ScholarPubMed
Finkel, R.C., Nishizumi, K., 1997. Beryllium 10 concentrations in the Greenland Ice Sheet Project 2 ice core from 3–40 ka. Journal of Geophysical Research 102, 2669926706.CrossRefGoogle Scholar
Gasse, F., 1977. Evolution of lake abhé. Nature 256, 4245.CrossRefGoogle Scholar
Gasse, F., 2000. Hydrological changes in the African tropics since the last glacial maximum. Quaternary Science Reviews 19, 189211.CrossRefGoogle Scholar
Gasse, F., 2001. Hydrological changes in Africa. Science 292, 22592260.CrossRefGoogle ScholarPubMed
Gill, R.B., 2000. The Great Maya Droughts: Water, Life, and Death. University of New Mexico Press, Albuquerque.Google Scholar
Grimm, E.C., Jacobson, G.L., Watts, W.A., Hansen, B.C.S., Maasch, K., 1993. A 50,000 year record of climate oscillations from Florida correlated with North Atlantic Heinrich events. Science 261, 198200.CrossRefGoogle Scholar
Haug, G.H., Hughen, K.A., Sigman, D.M., Peterson, L.C., Röhl, U., 2001. Southward migration of the Intertropical Convergence Zone through the Holocene. Science 293, 13041308.CrossRefGoogle ScholarPubMed
Heusser, C.J., Streeter, S.S., 1980. A temperature and precipitation record for the past 16,000 years in southern Chile. Science 210, 13451347.CrossRefGoogle Scholar
Hjort, C., Björck, S., Ingolffson, O., Möller, P., 1998. Holocene deglaciation and climate history of the northern Antarctic Peninsula region: a discussion of correlations between the Southern and Northern Hemispheres. Annals of Glaciology 27, 110112.CrossRefGoogle Scholar
Hodell, D.A., Curtis, J.H., Jones, G.A., Higuera-Gundy, A., Brenner, M., Binford, M.W., Dorsey, K.T., 1991. Reconstruction of Caribbean climate change over the past 10,500 years. Nature 352, 790793.CrossRefGoogle Scholar
Hodell, D.A., Brenner, M., Kanfoush, S.L., Curtis, J., Stoner, J.S., Xueliang, S., Yuan, W., Whitmore, T.J., 1999. Paleoclimate of southwestern China for the past 50,000 years inferred from lake sediment records. Quaternary Research 52, 369380.CrossRefGoogle Scholar
Hodell, D.A., Brenner, M., Curtis, J.H., Guilderson, T., 2001. Solar forcing of drought frequency in the Maya Lowlands. Science 292, 13671370.CrossRefGoogle ScholarPubMed
Hoelzmann, P., Kruse, H.J., Rottinger, F., 2000. Precipitation estimates for the eastern Saharan palaeomonsoon based on a water balance model of the West Nubian Palaeolake Basin. Global Planetary Change 26, 105120.CrossRefGoogle Scholar
Hormes, A., Müller, B.J., Schlüchter, C., 2001. The Alps with little ice: evidence for eight Holocene phases of reduced glacier extent in central Swiss Alps. Holocene 11, 255265.CrossRefGoogle Scholar
Hughen, K.A., Overpeck, J., Peterson, L., Trumbore, S., 1996. Rapid climate changes in the tropical Atlantic region during the last deglaciation. Nature 380, 5154.CrossRefGoogle Scholar
Indermühle, A., Stocker, T.F., Joos, F., Fischer, H., Smith, H.J., Wahlen, M., Deck, B., Mastroianni, D., Tschumi, J., Blunier, T., Meyer, R., Stauffer, B., 1999. Holocene carbon-cycle dynamics based on CO2 trapped in ice at Taylor Dome Antarctica. Nature 398, 121126.CrossRefGoogle Scholar
Ingolfsson, O., Hjort, C., Berkman, P.A., Björck, S., Colhoun, E., Goodwin, I.D., Hall, B., Hirakawa, K., Melles, M., Möller, P., Prentice, L., 1998. Antarctic glacial history since the last glacial maximum: an overview of the record on land. Antarctic Science 10, 326344.CrossRefGoogle Scholar
Johnsen, S., Clausen, H., Dansgaard, W., Fuhrer, K., Gundestrup, N., Hammer, C., Iversen, P., Jouzel, J., Stauffer, B., Steffensen, J., 1992. Irregular glacial interstadials recorded in a new Greenland ice core. Nature 359, 311313.CrossRefGoogle Scholar
Johnsen, S.J., Dansgaard, W., Clausen, H.B., 1972. Oxygen isotope profiles through the Antarctic and Greenland Ice Sheets. Nature 235, 429430.CrossRefGoogle Scholar
Jouzel, J., Merlivat, L., Petit, J.R., Lorius, C., 1983. Climatic information over the last century deduced from a detailed isotopic record in South Pole snow. Journal of Geophysical Research 88, 26932703.CrossRefGoogle Scholar
Karlén, W., Kuylenstierna, J., 1996. On solar forcing of Holocene climate: evidence from Scandinavia. Holocene 6, 359365.CrossRefGoogle Scholar
Karlén, W., Larsson, L., in review. Mid-Holocene climatic and cultural dynamics in northern Europe..CrossRefGoogle Scholar
Karlén, W., Fastook, J.L., Holmgren, K., Malmström, M., Matthews, J.A., Odada, E., Risberg, J., Rosqvist, G., Sandgren, P., Shemesh, A., Westerberg, L.-O., 1999. Holocene glacier fluctuations on Mount Kenya, East Africa, between 6000 cal. years BP and the present. Ambio 28, 409418.Google Scholar
Keigwin, L.D., Boyle, E.A., 1999. Surface and deep ocean variability in the northern Sargasso Sea during marine isotope Stage 3. Paleoceanography 14, 164170.CrossRefGoogle Scholar
Kendall, R., 1969. An ecological history of the Lake Victoria basin. Ecological Monographs 39, 121176.CrossRefGoogle Scholar
Kennett, J.P., Ingram, B.L., 1995. A 20,000-year record of ocean circulation and climate change from the Santa Barbara Basin. Nature 377, 510514.CrossRefGoogle Scholar
Kim, J.-H., Schneider, R.R., Müller, P.J., Wefer, G., 2002. Interhemispheric comparison of deglacial sea-surface temperature patterns in Atlantic eastern boundary currents. Earth and Planetary Science Letters 194, 383393.CrossRefGoogle Scholar
Kreutz, K.J., Mayewski, P.A., Meeker, L.D., Twickler, M.S., Whitlow, S.I., Pittalwala, I.I., 1997. Bipolar changes in atmospheric circulation during the Little Ice Age. Science 277, 12941296.CrossRefGoogle Scholar
Lee-Thorp, J.A., Holmgren, K., Lauritzen, S.-E., Linge, H., Moberg, A., Partridge, T.C., Stevenson, C., Tyson, P.D., 2001. Rapid climate shifts in the southern African interior throughout the mid to late Holocene. Geophysical Research Letters 28, 45074510.CrossRefGoogle Scholar
Lückge, A., Ercegovac, M., Strauss, H., Littke, R., 1999. Early diagenetic alteration of organic matter in Quaternary sediments from the northeastern Arabian sea. Marine Geology 158, 113.CrossRefGoogle Scholar
Maley, J., 1982. Dust, clouds, rain types, and climatic variations in tropical Africa. Quaternary Research 18, 116.CrossRefGoogle Scholar
Maslin, M.A., Burns, S.J., 2000. Reconstruction of the Amazon Basin effective moisture availability over the past 14,000 years. Science 290, 22852294.CrossRefGoogle ScholarPubMed
Masson, V., Vimeux, F., Jouzel, J., Morgan, V., Delmotte, M., Ciais, P., Hammer, C., Johnsen, S., Lipenkov, V., Mosley-Thompson, E., Petit, J.-R., Steig, E.J., Stievenard, M., Vaikmae, R., 2000. Holocene climate variability in Antarctica based on 11 ice-core isotopic records. Quaternary Research 54, 348358.CrossRefGoogle Scholar
Mayewski, P.A., Twickler, M.S., Whitlow, S.I., Meeker, L.D., Yang, Q., Thomas, J., Kreutz, K., Grootes, P.M., Morse, D.L., Steig, E.J., Waddington, E.D., Saltzman, E.S., Whung, P.-Y., Taylor, K.C., 1996. Climate change during the last deglaciation in Antarctica. Science 272, 16361638.CrossRefGoogle ScholarPubMed
Mayewski, P.A., Meeker, L.D., Twickler, M.S., Whitlow, S., Yang, Q., Lyons, W.B., Prentice, M., 1997. Major features and forcing of high-latitude northern hemisphere atmospheric circulation using a 110,000-year long glaciochemical series. Journal of Geophysical Research 102, 2634526366.CrossRefGoogle Scholar
Meeker, L.D., Mayewski, P.A., 2002. A 1400-year high-resolution record of atmospheric circulation over the North Atlantic and Asia. Holocene 12, 257266.CrossRefGoogle Scholar
Monnin, E., Steig, E.J., Siegenthaler, U., Kawamura, K., Schwander, J., Stauffer, B., Morse, D.L., Stocker, T.F., Barnola, J.-M., Bellier, B., Raynaud, D., Fischer, H., 2004. Evidence for substantial accumulation rate variability in Antarctica during the Holocene through synchronization of CO2 in the Taylor Dome, Dome C and DML ice cores. Earth and Planetary Science Letters (in press).CrossRefGoogle Scholar
Morgan, V.I., Wookey, C.W., Li, J., van Ommen, T.D., Skinner, W., Fitzpatrick, M.F., 1997. Site information and initial results from deep ice drilling on Law Dome Antarctica. Journal of Glaciology 43, 310.CrossRefGoogle Scholar
Mosley-Thompson, E., 1996. Holocene climate changes recorded in an East Antarctic ice core. NATO ASI Series vol. 141, Springer-Verlag, Heidelberg, Germany.262279.Google Scholar
Naidu, P.D., Malmgren, B., 1996. A high-resolution record of late Quaternary upwelling along the Oman margin Arabian Sea based on planktonic foraminifera. Paleoceanography 11, 129140.CrossRefGoogle Scholar
National Academy of Sciences Committee on Abrupt Climate Change, 2002. Abrupt Climate Change: Inevitable Surprises. National Academy of Sciences, Washington, DC.Google Scholar
Nesje, A., Matthews, J.A., Dahl, S.O., Berrisford, M.S., Andersson, C., 2001. Holocene glacier fluctuations of Flatbreen and winter-precipitation changes in the Jostedalsbreen region, western Norway, based on glaciolacustrine sediment records. Holocene 11, 267280.CrossRefGoogle Scholar
Nicholson, N., Flohn, H., 1980. African environmental and climatic changes and the general atmospheric circulation in Late Pleistocene and Holocene. Climatic Change 2, 313348.CrossRefGoogle Scholar
Noren, A.J., Bierman, P.R., Steig, E.J., Lini, A., Southon, J.A., 2002. Millennial-scale storminess variability in the northeastern United States during the Holocene. Nature 419, 821824.CrossRefGoogle ScholarPubMed
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.CrossRefGoogle Scholar
Pisias, N., Dauphin, J.P., Sancetta, C., 1973. Spectral analysis of late Pleistocene–Holocene sediments. Quaternary Research 3, 39.CrossRefGoogle Scholar
Ritchie, J.C., Eyles, C.H., Haynes, C.V., 1985. Sediment and pollen evidence for an early to mid-Holocene humid period in the eastern Sahara. Nature 314, 352355.CrossRefGoogle Scholar
Rodbell, D.T., Seltzer, G.O., Anderson, D.M., Abbott, M.B., Enfield, D.B., Newman, J.H., 1999. An 15,000-year record of El Niño-driven alluviation in southwestern Ecuador. Science 283, 516520.CrossRefGoogle ScholarPubMed
Rohling, E.J., Mayewski, P.A., Hayes, A., Abu-Zied, R.H., Casford, J.S.L., 2002. Holocene atmosphere–ocean interactions: records from Greenland and the Aegean Sea. Climate Dynamics 18, 573592.Google Scholar
Rosqvist, G., Schuber, P., in press. Millennial-scale climate changes in South Georgia, Southern Ocean.. Quaternary Research. Google Scholar
Saltzman, B., Moritz, R., 1980. A time-dependent climatic feedback system involving sea-ice extent, ocean temperature, and CO2 . Tellus 32, 93118.CrossRefGoogle Scholar
Schneider, D.P., Steig, E.J., 2002. Spatial variability of Antarctic ice sheet microwave brightness temperatures. Geophysical Research Letters 29, 25.125.4.CrossRefGoogle Scholar
Scuderi, L.A., 1993. A 2,000-year tree-ring record of annual temperatures in the Sierra Nevada Mountains. Science 259, 14331436.CrossRefGoogle Scholar
Sirocko, F., Sarnthein, M., Erlenkeuser, H., Lange, H., Arnold, M., Duplessy, J.C., 1993. Century-scale events in monsoonal climate over the past 24,000 years. Nature 364, 322324.CrossRefGoogle Scholar
Sonett, C.P., Finney, S.A., 1990. The spectrum of radiocarbon. Philosophical Transactions of the Royal Society of London A 330, 413426.Google Scholar
Stager, C.J., Cumming, B., Meeker, L.D., 1997. A high-resolution 11,400-yr diatom record from Lake Victoria, East Africa. Quaternary Research 47, 8189.CrossRefGoogle Scholar
Steig, E.J., Morse, D.L., Waddington, E.D., Stuiver, M., Grootes, P.M., Mayewski, P.A., Twickler, M.S., Whitlow, S., 2000. Wisconsinan and Holocene climate history from an ice core at Taylor Dome, western Ross Sea embayment, Antarctica. Geografisker Annaler 82A, 213235.CrossRefGoogle Scholar
Stuiver, M., Braziunas, T.F., 1989. Atmospheric 14C and century-scale solar oscillations. Nature 388, 405407.CrossRefGoogle Scholar
Stuiver, M., Braziunas, T.F., 1993. Sun, ocean, climate and atmospheric 14CO2: an evaluation of causal and spectral relationships. Holocene 3, 289305.CrossRefGoogle Scholar
Stuiver, M., Reimer, P.J., Braziunas, T.F., 1998. High precision radiocarbon age calibration for terrestrial and marine samples. Radiocarbon 40, 11271151.CrossRefGoogle Scholar
Thompson, L.G., Mosley-Thompson, E., Davis, M.E., Lin, P.-N., Henderson, K.A., Cole-Dai, J., Bolzna, J.F., Liu, K.-B., 1995. Late glacial stage and Holocene tropical ice core records from Huascarán Peru. Science 269, 4650.CrossRefGoogle ScholarPubMed
van Campo, E., Gasse, F., 1993. Pollen- and diatom-inferred climatic and hydrological changes in Sumxi Co Basin (western Tibet) since 13,000 yr B.P.. Quaternary Research 39, 300313.CrossRefGoogle Scholar
van Geel, B., Heusser, C.J., Renssen, H., Shuurmans, C.J.E., 2000. Climatic change in Chile at around 2700 BP and global evidence for solar forcing: a hypothesis. Holocene 10, 659664.CrossRefGoogle Scholar
Verschuren, D., Laird, K.R., Cumming, B.F., 2000. Rainfall and drought in equatorial East Africa during the past 1100 years. Nature 403, 410413.CrossRefGoogle Scholar
von Rad, U., Schaaf, M., Michels, K.H., Schulz, H., Berger, W.H., Sirocko, F., 1999. A 5000-yr record of climate change in varved sediments from the oxygen minimum zone off Pakistan Northeastern Arabian Sea. Quaternary Research 51, 3953.CrossRefGoogle Scholar
Zang, H.C., Ma, Y.Z., Wünnemann, B., Pachur, H.J., 2000. A Holocene climatic record from arid northwestern China. Palaeogeography, Palaeoclimatology, Palaeoecology 162, 389401.CrossRefGoogle Scholar
Zielinski, G.A., Mayewski, P.A., Meeker, L.D., Whitlow, S.I., Twickler, M.S., 1996. A 110,000 year record of explosive volcanism from GISP2 (Greenland) ice core. Quaternary Research 45, 109118.CrossRefGoogle Scholar