末次间冰期以来地球气候系统的突变

doi:10.11867/j.issn.1001-8166.2000.03.0243

地球气候系统的突然变化是近年来地学研究的热点。取自极地冰芯、海洋沉积物和陆地的古气候记录表明,末次间冰期以来全球经历了一系列数百年—千年时间尺度的气候突变事件,证明了在末次冰期—间冰期旋回大尺度气候变化背景下,全球气候存在较大不稳定性这一基本事实。尽管末次间冰期以来这些数百年—千年时间尺度气候突变事件的成因和影响范围还存在明显的不确定性,但已从诸如末次间冰期(MIS 5e)中期的干冷事件、末次冰期的Dansgaard-Oeschger旋回、Heinrich事件和Younger Dryas事件以及发生在全新世冰后期的一些降温事件的研究中,获得对过去130 ka来气候变化过程总体上的认识和理解。综述了近年来的主要研究成果,介绍了有关末次间冰期以来全球气候突变事件发生的时间、过程和机制等最新的研究进展。

关键词: 气候突变, 末次间冰期, 末次冰期, 全新世

Abrupt changes in the Earth' s climate system have generated much interest recently. The plaeoclimatic records from the ice cores, the oceans and the land indicated that the Earth' s climate system experienced a series of rapid changes on timescales of centuries to millenium and gave evidence for largeclimate instability against the general background of the last interglacial-glacial cycle. Although significant uncertainties remain about both the cause(s) and the scale of the impact of these abrupt climatic events, there is growing general knowledge of change process in climate during the past 13 000 years based on the studies of some important rapid climatic oscillations, such as a cold and dry event near the middle of the last interglacial, Dansgaard-Oeschger cycles, Heinrich events and Younger Dryas event during the last glacial and some cooling events during the Holocene. In this review, we summarize the recent study outcomes and show up the recent progress in the timing, process and mechanisms of the abrupt climatic events since the last interglacial.

Key words: Abrupt climatic changes, Last interglacial, Last glacial, Holocene.

中图分类号:

P532

〔1〕Imbrie J, Boyle E, Clemens S,et al. On the structure and origin of major glaciation cycles, linear responses to Milankovich forcing〔J〕. Paleoceanography, 1992, 7: 701～738.
〔2〕Taylor K C, Alley R B, Doyle G A,et al. The flickering switch of late Pleistocene climate change〔J〕. Nature, 1993,361: 432～436.
〔3〕Bond G, Broecker W, Johnsen S,et al. Correlations between climate records from North Atlantic sediment and Greenland Ice〔J〕. Nature, 1993, 365: 143～147.
〔4〕McManus J F, Bond G C, Broecker W S,et al. High resolution climate records from the North Atlantic during the last interglacial〔J〕. Nature, 1994, 371: 326～329.
〔5〕Shackleton N J. The last interglacial in the marine and terrestrial records〔A〕. In: Proceedings of the Royal Society of London.1969,B 174:135～154.
〔6〕Bowen D Q. Quaternary Geology〔M〕. Pergamon: Oxford Press, 1978. 99～108.
〔7〕Imbrie J, Hays J D, Martinson D G. The Orbital theory of Pleistocene climate: support from a revised chronology of marineδ18O record〔A〕. In: Berger A, Imbrie J, Hays J,et al eds. Milankovich and Climate〔C〕. Norwell MA: Reidel Press, 1984. 269～305.
〔8〕Martinson D G, Pisias N J, Hays J D,et al. Age dating and the orbital theory of ice ages: development of a high-resolution 1 to 300 000 years chronostratigraphy〔J〕.Quaternary Research, 1987,27(1): 1～29.
〔9〕Broecker W S, Henderson G M. The sequence of evenets surrounding termination II and their implication for the cause of glacial-interglacial CO2changes〔J〕. Plaeoceanography,1998, 13: 352～364.
〔10〕Maslin M A, Sarnthein M, Knaack J-J,et al. Intrainterglacial cold events: an Eemian-Holocene comparison〔A〕. In: Cramp A, MacLeod C, Lee S V,et al, eds. Geological Evolution of the Ocean Basin: Results from the Ocean Drilling Program, Geological Society of London,Special Pulication〔Z〕. 1998,131:91～99.
〔11〕Stirling C H, East T M, McCulloch M T,et al. High-precision U-series dating of corals from Western Australia and implications for the timing and duration of the last interglacial〔J〕. Earth and Planetary Science Letters, 1995,135: 115～130.
〔12〕Slowey N C, Henderson G M, Curry W B. Direct U-Th dating of marine sediments from the two most recent interglacial periods〔J〕. Nature, 1996, 383: 242～244.
〔13〕Jouzel J, Barkov N I, Barnola J M,et al. Extending the Vostok ice-core record of palaeo-climate to the penulimate glacial period〔J〕. Nature, 1993, 364: 407～411.
〔14〕Winograd I J, Landwehr J M, Ludwig K R,et al. Duration and structure of the past four interglaciations〔J〕. Quaternary Research, 1997, 48(2): 141～154.
〔15〕Edwards R L, Cheng H, Murreil M T,et al. Protactinium-231 dating of carbonates by thermal ionization mass spectrometry: implications for Quaternary climate change〔J〕. Science, 1997, 276: 782～786.
〔16〕Raymo M E. The timing of major climate terminations〔J〕.Paleoceanography, 1997, 12(4): 577～585.
〔17〕Linsley B K. Oxygen-isotope record of sea level and climate variation in the Sulu Sea over the past 150 000 years〔J〕.Nature, 1996, 380: 234～237.
〔18〕Dansgaard W, Johnson S J, Clausen HB,et al. Evidence for general instability of past climate from a 250 ka ice-core record〔J〕. Nature, 1993, 364: 218～220.
〔19〕Johnsen S J, Clausen HB, Dansgaard W,et al. The Eemainstable isotope record along the GRIP ice core and its interpretation〔J〕. Quaternary Research, 1995, 43: 117～124.
〔20〕Steffensen J P, Clausen H B, Hammer C U,et al. The chemical composition of cold events within the Eemian section of the Greenland Ice Core Project ice core from Summit,Greenland〔J〕. Journal of Geophysical Research, 1997, 102:26 747～26 753.
〔21〕Keigwin L D, Jones G A J. Western North Atlantic evidence for millennial-scale changes in ocean circulation and climate〔J〕. Geophysical Research, 1994, 99(6): 12 397～12 410.
〔22〕Oppo D W, Horowitz M, Scott J L. Marine core evidence for reduced deep water production during Termination II followed by a relative stable substage 5e (Eemian)〔J〕.Paleoceanography, 1997, 12(1): 51～63.
〔23〕Cortijo E, Duplessy J C, Labeyrie L,et al. Eemian cooling in the Norwegian Sea and North Atlantic Ocean preceding continental ice-sheet growth〔J〕. Nature, 1994, 372: 446～449.
〔24〕Seidenkrantz M S, Kristensen P, Knudsen K L. Marine evidence for climatic instability during the last interglacial in shelf records from northwest Europe〔J〕. Journal of Quaternary Science, 1995, 10: 77～82.
〔25〕Fronval T, Jansen E. Eemian and early Weichselian(140～60) paleoceanography and paleoclimate in the Nordic seas with comparisons to Holocene conditions〔J〕.Paleoceanography, 1997, 12: 443～462.
〔26〕Maslin M A, Tzedakis C. Sultry last interglacial gets sudden chill〔J〕. EOS (Transactions of the American Geophysical Society), 1996, 77: 353～354.
〔27〕Thouveny N, de Beaulieu J L, Bonifay E,et al. Climate variations in Europe over the past 140 ka deduced from rock magnetism〔J〕. Nature, 1994, 371: 503～506.
〔28〕Field M, Huntley B, Muller H. Eemian climate fluctuations observed in a European pollen record〔J〕. Nature, 1994,371: 779～783.
〔29〕An Zhisheng, Porter S C. Millennial-scale climatic oscillations during the last interglaciation in central China〔J〕.Geology, 1997, 25: 603～606.
〔30〕Adkins J F, Boyle E A, Keigwin L,et al. Variability of the North Atlantic thermohaline circulation during the last interglacial period〔J〕. Nature, 1997, 390: 154～156.
〔31〕Mayewski P A, Meeker L D, Twickler M S,et al. Major features and forcing of high-latitude Northern Hemisphere atmospheric circulation using a 110 000 year long glaciochemical series〔J〕. Journal of Geophysical Research ,1997,102: 26 345～26 365.
〔32〕Bond G C, Showers W, Cheseby M,et al. A pervasive millennial-scale cycle in the North Atlantic Holocene and glacial climate〔J〕. Science, 1997, 278: 1 257～1 265.
〔33〕Broecker W S. Massive iceberg discharges as triggers for global climate change〔J〕. Nature, 1994, 372: 421～424.
〔34〕Bond G C, Lotti R. Iceberg discharges into the North Atlantic on millennial time scales during the last deglaciation〔J〕. Science, 1995, 278: 1 257～1 265.
〔35〕Oppo D W, Lehman S J. Suborbital timescale variability of North Atlantic Deep Water during the past 200, 000 years〔J〕. Paleoceanography, 1995, 10: 901～910.
〔36〕Rasmussen T L, van Weering T C E, Labeyrie L. Climatic instability, ice sheets and ocean dynamicsat high northern latitudes during the last glacial period (58～10 ka BP)〔J〕.Quaternary Science Reviews , 1997, 16: 73～80.
〔37〕Andrews J T. Abrupt changes (Heinrich events) in late Quaternary North Atlantic marine environments〔J〕.Journal of Quaternary Science, 1998, 13(1): 3～16.
〔38〕Elliot M, Labeyrie L, Bond G,et al. Millennial-scale iceberg discharges in the Irminger Basin during the last glacial period: Relationship with the Heinrich events and environmental settings〔J〕. Plaeoceanography, 1998, 13:433～446.
〔39〕Hendy I L, Kennet J P. Latest Quaternary North Pacific surface-water responses imply atomosphere-driven climate instability〔J〕. Geology, 1999, 27: 289～384.
〔40〕Lund D C, Mix A C. Millennial-scale deep water oscillations: reflections of the North Atlantic in the deep Pacific from 10 to 60 ka〔J〕. Paleoceanography, 1998, 13(1): 10～19.
〔41〕Chapman M R, Shackleton N J. Millennial-fluctuations in North Atlantic heat flux during the last 150,000 years〔J〕.Earth and Planetary Science Letters, 1998, 159(1): 57～70.
〔42〕Cacho I, Grimalt J O, Pelejero C,et al. Millennial scale climatic changes in the W-Mediterranean Sea: Implications for the ocean-atmosphere connections〔J〕. Journal of Conference Terra Abstracts, 1999, 4:166.
〔43〕Tada R, Irino T, Koizumi I. Land-ocean linkages over orbitaland millennial timescale recorded in late Quaternary sediments of the Japan Sea〔J〕. Paleoceanography,1999,14:236～247.
〔44〕Benson L W, Lund S P, Burdett J W,et al. Correlation of late Pleistocene lake-level oscillation in Mono lake,California, with North Atlantic climate events〔J〕.Quaternary Research, 1998, 49(1): 1～10.
〔45〕Porter S C, An Z S. Correlation between climate events in the North Atlantic and China during the last glaciation〔J〕.Nature, 1995, 375: 305～308.
〔46〕Parker E, Bloemendal J, Heslop D,et al. Sub-millenial scale variations in the east Asia monsoon system recorded by dust deposits from the north-western Chinese loess plateau〔J〕.Journal of Conference Terra Abstract, 1999, 4:160.
〔47〕Schulz H, Rad U V, Erlenkeuser H. Correlation between Arabian Sea and Greenland climate oscillations of the past 110 000 years〔J〕. Nature, 1998, 393(1): 54～57.
〔48〕Zhao M, Beveridge N A S, Shackleton N J,et al. Molecular stratigraphy of cores off northwest Africa: sea surface temperature history over the last 80 ka〔J〕.Paleoceanography, 1995, 10: 661～675.
〔49〕Geiselhart S, Hemleben C, Erlenkeuser H. Highresolution stratigraphy of stable oxygen isotope stages 1 and 3 in the Southern Red Sea〔J〕. Journal of Conference Terra Abstracts,1999, 4:174.
〔50〕Hofmann A, Kudrass H-A, Wiedicke M,et al. High-frequency changes of the monsoonal system during the last 80 000 years recorded in the sediment cores from the northern bay of Bengal〔J〕. Journal of Conference Terra Abstracts, 1999, 4:171.
〔51〕Broekge W S, Andrge M, Wolfli W,et al. The chronology of the last deglaciation: Implication to the cause of the Younger Dryas Event〔J〕. Paleoceanography,1988, 3(1): 1～19.
〔52〕Fanning A F, Weaver A J. Temporal-geographical meltwater influences on the North Atlantic conveyor: implications for the Younger Dryas〔J〕. Paleoceanography, 1997,12(2):307～320.
〔53〕Tayler K C, Mayewski P A, Alley R B,et al. The Holocene-Younger Dryas transition recorded at Summit, Greenland〔J〕. Science, 1997, 278: 825～827.
〔54〕O' Brien S R, Mayewski A, Meeker L D,et al. Complexity of Holocene climate as reconstructed from a Greenland ice core〔J〕. Science, 1996, 270: 1 962～1 964.
〔55〕Campbell I D, Campbell C, Apps M J,et al. Late Holocene～1 500 a periodicities and their implication〔J〕. Geology,1998, 26: 471～473.
〔56〕McDermott F, Huang Y, Longinelli A,et al. Holocene climate instability on the eastern margin of the North Atlantic: evidence from Irish speleothems〔J〕. Journal of Conference Terra Abstracts, 1999, 4:156.
〔57〕Lamy F, Hebbeln D, Wefer G. Holocene climate change recorded in marine sediments of southern Chile (41oS)〔J〕.Journal of Conference Terra Abstracts, 1999, 4:169.
〔58〕Alley R B, Mayewski P A, Sowers T,et al. Holocene climatic instability: a prominent widespread event 8 200 a ago〔J〕. Geology, 1997, 25: 483～486.
〔59〕Lamb H F, Gasse F, Benkaddour A,et al. Relation between century-scale Holocene arid intervals in tropical and temperature zones〔J〕. Nature, 1995, 373: 134～137.
〔60〕Dorale J A, Gonzalez L A, Reagan M K,et al. A high-resolution record of Holocene climate change in speleothem calcite from Cold Water Cave, northeast Iowa〔J〕. Science,1992, 258: 1 626～1 630.
〔61〕Baroni C, Orombelli G. The Alpine‘iceman’and holocene climatic change〔J〕. Quaternary Research, 1996, 46(1): 78～83.
〔62〕Bradley R S, Jones P. The little ice age〔J〕. The Holocene,1992, 3:367～376.
〔63〕Keigwin L. The little ice age and medieval warm period in the Sargasso sea〔J〕. Science, 1996, 274: 1 504～1 508.
〔64〕Oppo D W, McManus J F, Cullen J L. Abrupt climate events 500 000 to 340 000 years ago: evidence from subpolar North Atlantic sediments〔J〕. Sciences, 1998, 279: 1 335～1 338.
〔65〕McIntyre A, Molfino B. Forcing of Atlantic equatorial and subpolar millennial cycles by precession〔J〕. Science, 1996,277: 1 867～1 870.
〔66〕MacAyeal D R. Binge/purge oscillations of the Laurentide ice sheet as a cause of the North Atlantic' s Heinrich events〔J〕. Plaeoceanography, 1993, 8: 775～784.
〔67〕Sakia K, Peltier W R. A multi-basin reduced model of the global thermohaline circulation: paleoceanographic analyses of the origins of ice-age climate instability〔J〕. Journal Geophysical Research Ocean, 1996,101(C10): 22 535～22562.
〔68〕Overpeck J, Hughen K, Hardy D,et al. Arctic environmental change of the last four centuries〔J〕.Sciences, 1997, 278: 1 251～1 256.
〔69〕Berger W H, Jansen E. Younger Dryas episode: ice collapse and super-fjord heat pump〔A〕. In: Troelstra S R, van Hinte J E, Ganssen G M, eds. The Younger Dryas〔C〕.Amtsterdam: Koninklijke Nederlandse Akademie van Wetenschappen,1995. 62～105.
〔70〕Hulbe C L. An ice shelf mechanism for Heinrich layer production〔J〕. Paleoceanography,1997, 12: 711～717.
〔71〕Zahn R J S, Kudrass H R, Park M H,et al. Thermohaline instability in the North Atlantic during meltwater events:Stable isotopes and ice-rafted detritus from core SO75-26KL,Portuguese margin〔J〕. Paleoceanography, 1997, 12: 696～710.
〔72〕Rosell-Mele A, Maslin M A, Maxwell J R,et al. Biomaker evidence for‘Heinrich’events〔J〕. Geochimica Cosmochimica Acta, 1997, 61: 1 671～1 678.
〔73〕Seidov D, Maslin M. North Atlantic deep sea circulation collapse during Heinrich events〔J〕. Geology, 1999, 27(1):23～26.
〔74〕Hurrell J W. Influence of variations in extratropical wintertime teleconnections on northern hemisphere temperature〔J〕. Geophyscial Research Letters, 1996, 23:665～668.
〔75〕Blunier T, Chappellaze J, Scwander J,et al. Asynchrony of Antarctic and Greenland climate change during the last glacial period〔J〕. Nature, 1988, 394: 739～743.

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摘要

ABRUPT CHANGES IN EARTH'S CLIMATE SYSTEM SINCE LAST INTERGLACIAL