地球科学进展 ›› 1999, Vol. 14 ›› Issue (2): 177 -182. doi: 10.11867/j.issn.1001-8166.1999.02.0177

全球变化研究 上一篇    下一篇

气候突变:史实与意义
郑景云,葛全胜,张丕远   
  1. 中国科学院地理研究所,北京 100101
  • 收稿日期:1998-05-28 修回日期:1998-08-17 出版日期:1999-04-01
  • 通讯作者: 郑景云,男,1966年2月生,副研究员,主要从事全球变化研究。
  • 基金资助:

    国家自然科学基金项目“近两千年来中国主要农业界限土地覆盖变化过程研究”(编号:49771006)资助。

ABRUPT CLIMATIC CHANGE:EVIDENCE AND IMPLICATION

ZHENG Jingyun,GE Quansheng,ZNAHG Piyuan   

  1. Institute ofGeography,Chinese Academy ofSciences,Beijing 100101,China
  • Received:1998-05-28 Revised:1998-08-17 Online:1999-04-01 Published:1999-04-01

利用国际上有关气候突变研究的最新结果,综述了冰期与间冰期气候突变的史实,重点探讨了近2 000年以来的气候突变问题。结果表明:无论是冷期或是暖期,气候均存在突变。特别是发生于Eemian期间和近2 000年以来的气候突变,为暖期气候也存在突变提供了非常重要的证据。同时还发现:发生于1230AD年的气候突变,虽然其幅度较冰期与间冰期气候突变要小得多,但同样具有全球性。这些结果动摇了过去认为“气候只在冷期发生突变及全新世以来气候基本稳定”的结论,也预示着下一世纪气候不稳定的可能性将可能会增加,对全球气候和气候预测研究具有非常重要的意义。

 The abrupt change of climate discoveredwithin recentyearsmainlyoccurredwithin glacial period ortransition period from cold to warm,which were assumed caused by the melting and freezing process of the huge ice sheet,these processes drove the vertical oceanic circulation and resulted the abrupt climate change.However,it has been found that the abrupt events also characterized in Eemain andHolocene more recently,particularly at lowtomid-latitudes,which was supposed as a climatic stable episode.The evidences fromGreenland and France showthere were some abrupt events embedded in Eemain: And the evidences from Chinese Historical writings show there was an abrupt event around 1230 AD,whichwas also identified bythe other proxy data fromChina,includingthe lake sediment fromLake Kunming in Beijing,ice core from Guliya in Tibet Plateau and salt lake sediment from Lake Hetong-chahan and Lake Hammer in Inner Mongolia.Moreover,the abrupt event around 1230 ADwas identified by evidences fromNorthAmerica and Europe. These evidencessuggest that the abrupt climatic event around 1230 AD occurred not only in China but also in Europe and America.The implication for the mentioned results suggests that the climate inHolocene is also unstable and that the instability of the climate for coming century may increase.

中图分类号: 

〔1〕Duplessy J C,Overpeck J.The PAGES/CLIVAR INTERSECTION—Providing paleoclimatic perspective needed to understand climate varibility and predictability,coordinated research objectives of the IGBP and WCRP programmers.Venice,Italy,1994.5~40.
〔2〕Gasse F E,Van C.Abrupt post-glacial climate evnents in West Asia and N.Africa monsoon domains.Earth and Planetary Science Letter,1994,126:435~456.
〔3〕Lorius G,OeschgerH.古气候预测———减少全球变化中的不确定性.AMBIO(中译本),1994,23(1):30~36.
〔4〕Danggaard W,Johnsn S J,Clauson H B,et al.Comparison of oxygen isotope records from the GISP 2 and GRIP Greenland ice cores.Nature,1993,366:552~554.
〔5〕Grootes PM,StuiverM,White JMC,et al.Comparison of oxygen isotope records from the GISP 2 and GRIP Greenland ice cores.Nature,1993,366:552~554.
〔6〕Taylor KC,LamoreyGW,Doyle GA,et al.The“flickering switch”of late Pleistocene climate change.Nature,1993,361:432~436.
〔7〕Bender M,Sowers T,Dickson M L,et al.Climate correlation between Greenland and Antarctica during the last 100 000 years.Nature,1994,372:663~666.
〔8〕Bond G,Broecker W,Johnson S,et al.Corelations between climate records from north Atlantic sediments and Greenland ice. Nature,1993,365:143~147.
〔9〕GRIP Members.Climate instability during the last interglacical period recorded in the GRIP ice core.Nature,1993,364:203~207.
〔10〕Thouveny N,Beanlien J L D,Bonifay E,et al.Climate variation in Europe over the past 140 ka deduced from rock magnetism.Nature,1994,371:503~506.
〔11〕Larsen E,Senrup HP,Johnson S J,et al.Do Greenland ice croes reflect NW European interglacial climate variation. Quaternary Research,1995,43:125~132.
〔12〕Mcmanus J F,Bond G C,BroeckerWS,et al.High-resolution climate records from the North Atlantic during the last interglacial.Nature,1994,371:326~329.
〔13〕Laird KR,Fritz S C,MasschKA,et al.Greater drought intensity and frequency before AD 1200 in the Northern Great Plains,USA.Nature,1996,382:552~554.
〔14〕Bryson R A,Murray T J.饥馑的气候———人类与变动的全球气候(中译本).北京:科学出版社,1981.1~179.
〔15〕张丕远主编.中国历史时期气候变化.济南:山东科学技术出版社,1996.197~282.
〔16〕葛全胜,张丕远.历史文献中气候信息的评价.地理学报,1990,45(3):21~29.
〔17〕施雅风,孔明宸主编.中国全新世大暖期气候与环境.北京:海洋出版社,1992.1~211.
〔18〕满志敏,张日韦.中国东部4 000 a BP以来的气候冷暖变化.见:张丕远主编.中国历史时期气候变化.济南:山东科学技术出版社,1996.283~300.
〔19〕张丕远,王铮,刘啸雷,等.中国近2 000年来气候演变的阶段性.中国科学(B辑),1994,24(9):998~1 008.
〔20〕Wei Dongyan(魏东岩).The discovery and itsgeological signicance of faecal pellets of brine shrimps in mirabilite deposit.Chinese Science Bulletin,1992,37(12):1 017~1 021.
〔21〕姚檀栋,秦大河,田立德,等.青藏高原2 ka来温度与降水变化———古里雅冰芯记录.中国科学(D辑),1996,26(4):348~353.
〔22〕黄成彦,孔昭宸,浦庆余,等.颐和圆昆明湖3 500余年沉积物研究.北京:海洋出版社,1996.1~160.
〔23〕刘椿,刘东生,金增信,等.北京颐园昆明湖近代沉积物的环境磁学初步研究及意义.科学通报,1994,39(21):1989~1991.

[1] 汪芋君, 任宏利, 王琳. 第三极地区气温和积雪的季节—年际气候预测研究[J]. 地球科学进展, 2021, 36(2): 198-210.
[2] 姚天次,卢宏玮,于庆,冯玮. 50年来青藏高原及其周边地区潜在蒸散发变化特征及其突变检验[J]. 地球科学进展, 2020, 35(5): 534-546.
[3] 史培军, 王爱慧, 孙福宝, 李宁, 叶涛, 徐伟, 王静爱, 杨建平, 周洪建. 全球变化人口与经济系统风险形成机制及评估研究[J]. 地球科学进展, 2016, 31(8): 775-781.
[4] 任国玉, 任玉玉, 李庆祥, 徐文慧. 全球陆地表面气温变化研究现状、问题和展望[J]. 地球科学进展, 2014, 29(8): 934-946.
[5] 高涛, 谢立安. 近50年来中国极端降水趋势与物理成因研究综述[J]. 地球科学进展, 2014, 29(5): 577-589.
[6] 邬建国, 何春阳, 张庆云, 于德永, 黄甘霖, 黄庆旭. 全球变化与区域可持续发展耦合模型及调控对策[J]. 地球科学进展, 2014, 29(12): 1315-1324.
[7] 王会军. 东亚区域能量和水分循环对我国极端气候影响研究的一些初步进展[J]. 地球科学进展, 2010, 25(6): 563-570.
[8] 陈泮勤,程邦波,王芳,曲建升. 全球气候变化的几个关键问题辨析[J]. 地球科学进展, 2010, 25(1): 69-75.
[9] 刘小茜,王仰麟,彭建. 人地耦合系统脆弱性研究进展[J]. 地球科学进展, 2009, 24(8): 917-928.
[10] 申彦波,赵宗慈,石广玉. 地面太阳辐射的变化、影响因子及其可能的气候效应最新研究进展[J]. 地球科学进展, 2008, 23(9): 915-924.
[11] 许强,陈伟,张倬元. 对我国西南地区河谷深厚覆盖层成因机理的新认识[J]. 地球科学进展, 2008, 23(5): 448-456.
[12] 曲建升,葛全胜,张雪芹. 全球变化及其相关科学概念的发展与比较[J]. 地球科学进展, 2008, 23(12): 1277-1284.
[13] 陈大可,许建平,马继瑞,陈显尧,王桂华,王伟,韩桂军,张启龙,袁耀初,周伟东. 全球实时海洋观测网(Argo)与上层海洋结构、变异及预测研究[J]. 地球科学进展, 2008, 23(1): 1-7.
[14] 孙军. 今生颗石藻的有机碳泵和碳酸盐反向泵[J]. 地球科学进展, 2007, 22(12): 1231-1239.
[15] 张强;韩永翔;宋连春. 全球气候变化及其影响因素研究进展综述[J]. 地球科学进展, 2005, 20(9): 990-998.
阅读次数
全文


摘要