类脂化合物单体碳稳定同位素在古气候环境研究中的意义

doi:10.11867/j.issn.1001-8166.2005.08.0910

类脂化合物极大地扩展了全球变化研究的深度，尤其是单体碳稳定同位素技术在古气候、古环境重建上有着重要作用。基于近些年来国内外的最新研究成果，就类脂化合物单体碳同位素在古气候环境方面的应用研究进行了较为全面的评述。已有研究表明利用类脂化合物单体碳同位素组成可以追溯到海洋和湖泊环境中陆源有机质的物源，其母源区历史时期 C₃、C₄植被的变迁以及区域性的古气候、古环境重建。

关键词: 类脂化合物, 单体碳稳定同位素, 古气候, 古环境, 全球变化

It is indicated that lipid biomarkers deeply widen the aspects of the past global change. Especially, the compound-specific carbon stable isotope technique has become a powerful tool for the reconstruction of the paleo-climate and paleo-environment during recent years. The recent progresses on the understanding of paleo-climate and paleo-environment using compound-specific carbon stable isotope as a proxy are reviewed in his paper. It is supported that the compositions of compound-specific carbon stable isotope of lipid can effectively track the sources of terrigenious organic debris in the marine and lake environment, understand the variation of C₃and C₄ plants in the historical period, and reconstruct the regional paleo-climate and paleo-environment.

Key words: Lipids, Compound-specific δ¹³C, Paleo-climate, Paleo-environment, Global change. 

中图分类号:

P736.4

[1] Ｗang Pinxian.Paleoceanography[J].Advances in Earth Science,1994,9(4):94-96.［汪品先.古海洋学[J].地球科学进展,1994,9(４):94-96.］
[2] Jian Zhimin.ODP and global change (II)―Studying quaternary past global change from the view of sea[J].Advances in Earth Science,1995,10(3):267-272.[翦知湣.大洋钻探与全球变化（二）——从海洋角度研究第四纪古全球变化[J].地球科学进展,1995,10(3):267-272.]
[3] Jian Zhimin,Huang Wei.Rapid climate change and high resolution deep-sea sedimentary records[J].Advances in Earth Science,2003,18(5):673-680.[翦知湣,黄维.快速气候变化与高分辨率的深海沉积记录[J].地球科学进展,2003,18(5):673-680.]
[4] Bond G,Showers W,Cheseby M,et al.A pervasive milliannial-scale cycle in North Atlantic Holocene and Glacial climate[J].Science,1997,278:1 257-1 266.
[5] 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.
[6] Yao Tandong,Shi Yafeng,Qin Dahe,et al.A research of climate change inferred from Guliya ice core since the last interglobal stage[J].Science in China(D),1997,27(5):447-452.[姚檀栋,施雅风,秦大河,等.古里雅冰芯中末次间冰期以来的气候变化纪录研究[J].中国科学D辑,1997,27(5):447-452.]
[7] O’Brien S R,Mayewski P A,Meeker L D,et al.Complexity of Holocene climate as reconstructed from a Greenland ice core[J].Science,1995,270:1 962-1 964.
[8] GRIP members.Climate instability during the last interglacial period recorded in the GRIP ice core[J].Nature,1993,364:203-207.
[9] Xie Shucheng,Liang Bin,Guo Jianqiu,et al.Biomarkers and the related global change[J].Quaternary Science,2003,23(5):521-528.[谢树成,梁斌,郭建秋,等.生物标志化合物与相关的全球变化[J].第四纪研究,2003,23(5):521-528.]
[10] Lu Yuehan,Sun Yongge,Weng Huanxin.Lacustrine sediments as a record of changes of regional climate and environment[J].Geochimica,2004,33(1):20-28.[卢粤晗,孙永革,翁焕新.湖泊沉积有机质的地球化学纪录与古气候环境重建[J].地球化学,2004,33(1):20-28.]
[11] Chen Jianfang.New geochemical proxies in paleoceanography studies[J].Advances in Earth Science,2002,17(3):402-410.[陈建芳.古海洋研究中的地球化学新指标[J].地球科学进展,2002,17(3):402-410.]
[12] Meng Xianwei,Du Dewen,Liu Zhenxia, et al.Molecular biomarker records of paleoceanphraphic environment change in the East Sea for the last 35,000 years[J].Science in China(D),2001,31(8):691-696.[孟宪伟,杜德文,刘振夏,等.东海近3.5万年来古海洋环境变化的分子生物标志物纪录[J].中国科学D辑,2001,31(8):691-696.]
[13] Lu Bing,Chen Ronghua,Wang Zipan,et al.Ocean environment change in the Bering Sea over the past 100 years—Evidences from the molecular fossil[J].Science in China(D),2004,34(4):367-374.[卢冰,陈荣华,王自磐,等.亚北极白令海近百年海洋环境变化——来自分子化石的证据[J].中国科学D辑,2004,34(4):367-374.]
[14] Villanueva J,Grimalt J O,Cortijo E,et al.A biomarker approach to the organic matter deposited in the North Atlantic during the last climatic cycle[J].Geochimica et Cosmochimica Acta,1997,61(21):4 633-4 646.
[15] Schefub E,Versteegh G J M,Jansen J H F,et al.Lipid biomarkers as major source and preservation indicators in SE Atlantic surface sediments[J].Deep Sea Research,2004,51(9):1 199-1 228.
[16] Muri G,Wakeham S G,Pease T K,et al.Evaluation of lipid biomarkers as indicators of changes in organic matter delivery to sediments from Lake Planina,a remote mountain lake in NW Slovenia[J].Organic Geochemistry,2004,35(10):1 083-1 093.
[17] Zhang Zhaohui,Zhao Meixun,Yang Xiangdong,et al.A hydrocarbon biomarker record for the last 40 kyr of plant input to Lake Heqing,southwestern China[J].Organic Geochemistry,2004,35(5):595-613.
[18] Xie Shucheng,Chen Fahu,Wang Zhiyuan,et al.Lipid distributions in loess-paleosol sequences from northwest China[J].Organic Geochemistry,2003,34(8):1 071-1 079.
[19] Duan Yi.Compositional features of lipid compounds in sediments from Gannan Marsh,China[J].Geochemica,2002,31(6):525-531.[段毅.甘南沼泽沉积脂类生物标志物化合物的组成特征[J].地球化学,2002,31(6):525-531.]
[20] Pancost R D,Baas M,Geel B V,et al.Biomarkers as proxies for plant inputs to peats:An example from a sub-boreal ombrotropic bog[J].Organic Geochemistry,2002,33(7):675-690.
[21] Hayes J M, Preeman K H,Popp B N,et al.Compound-specific isotopic analyses:A novel tool for reconstruction of ancient biogeochemical process[J].Advances in Organic Geochemsity,1989,16:1 115-1 128.
[22] Hayes J M.Factors controlling C¹³ contents of sedimentary organic compounds:principles and evidence[J].Marine Geology,1993,113(1):111-125.
[23] Zhou Yunlong.Plant Bioology[M].Beijing: Higher Education Press, 1999.198-201.[周云龙.植物生物学[M].北京:高等教育出版社,1999.198-201.]
[24] Wang Guoan.Application of stable carbon isotope for paleoenvironmental research [J].Quaternaty Sciences,2003,23(5):471-484.[王国安.稳定同位素在第四纪古环境研究中的应用[J].第四纪研究,2003,23(5):471-484.]
[25] Niu Shuli,Jiang Gaoming,Li Yonggeng.Environmental regulations of C₃ and C₄ plants[J].Ａcta Ecologica Sinica,2004,24(2):308-314.[牛书丽,蒋高明,李永庚.C₃和C₄植物的环境调控[J].生物学报,2004,24(2):308-314.]
[26] Pancost R D, Boot C S. The papaeoclimatic utility of terrestrial biomarkers in marine sediments[J]. Marine Chemistry, 2004,92:239-261.
[27] Huang Y S,Street-Perrott F A,Perrott R A,et al.Glacial-interglacial environmental changes inferred from molecular and compounds-specific δ¹³C analyses of sediments from Scared Lake,Mt. Kenya[J].Geochimica et Cosmochimica Acta,1999,63(9):1 383-1 404.
[28] Cerling T E,Harris J M,Bruce J,et al.Global vegetation change through the Miocene/Pliocene boundary[J].Nature,1997,389:153-158.
[29] Pagani M,Freeman K H,Arthur M A.Late Miocene atmospheric CO₂ concentrations and the expansion of C₄grasses[J].Science,1999,285:876-879.[30] Huang Y S,Street-Perrott F A,Metcalfe S E,et al.Climate change as the dominant contral on glacial-interglacial variations in C₃ and C₄ plant abundance[J].Science,2001,293:1 647-1 651.
[31] Neunlist S, Rodier C, Liopiz P. Isotopic biogeochemistry of the lipids in recent sediments of Lake Bled(Slovenia) and Baldeggersee(Switzerland)[J]. Organic Geochmistry, 2002, 33:1 183-1 195.
[32] Bird I M,Summmons R E,Gagan M K,et al.Terrestrial vegetation change inferred from n-alkance δ¹³C analyses in the marine environment[J].Geochimica et Cosmochimica Acta,1995,59(13):2 853-2 857.
[33] Hu J F,Peng P A,Jia G D,et al.Biological markers and their carbon isotopes as an approach to the paleoenvironmental reconstruction of Nansha area, South China Sea during the last 30 ka[J].Organic Geochemistry,2002,33(10):1 197-1 204.
[34] Freeman K H,Colarusso L A.Molecular and isotopic records of C₄ grassland expansion in the late Miocene[J].Geochimica et Cosmochimica Acta,2001,65(9):1 439-1 454.
[35] Zhao Meixun,Eglinton G,Simon K,et al.Marine and terrestrial biomarker records for the last 35,000 years at ODP site 658C off NW Africa[J].Organic Geochemistry,2000,31(9):919-930.
[36] Huang Y S,Dupont L,Sarnthein M,et al.Mapping of C₄ plant input from North West Africa into North East Atlantic sediment[J].Geochimica et Cosmochimica Acta,2000,64(20):3 505-3 513.
[37] Hughen K A, Eglinton T L, Xu L, et al. Abrupt tropical vegetation response to rapid climate changes[J]. Science, 2004, 304:1 955-1 958.
[38] Bird M I,Giresse P,Chivas A R.The effect of savanna vegetation on the carbon-isotope composition of sediment from the Sanga river,Cameroon[J].Limnol Oceanogr,1994,43(1):143-146.
[39] Bird M I,Giresse P,Ngos S.A seasonal cycle in the carbon-isotope composition of organic carbon in the Sanaga river,Cameroon[J].Limnology and Oceanography,1998,43(1):143-146.
[40] Gordon E S, Goni M A. Sources and distribution of terrigenous organic matter delivered by the Atchafalaya River to sediments in the northern Gulf of Mexico[J]. Geochimica et Cosmochimica Acta, 2003,67 (13): 2 359-2 375.
[41] Hooghiemstra H.Changes of major wind belts and vegetation zones in NW Africa 20,000-5,000 yr BP. as deduced from a marine pollen record near Cap Blanc[J].Review of Palaeobotany and palynology,1988,55(2):101-140.
[42] Jasper J P, Hayes J M.Reconstruction of paleoceanic pCO₂ levels from the carbon isotopic compositions of sedimentary biogenic components[A]. In: Carbon Cycling in the Glacial Ocean: Constraints on the Ocean`s Role in Global change[C].NATO ASI Series,1994,17(2):323-341.
[43] Meng Xianwei,Du Dewen,Han Yibing.Long chain Alkenones and its carbon isotope:A new tool for assessment of abrupt climatic change during Quaternary[J].Journal of Oceanography of Huanghai & Bohai Seas,2000,18(1):66-73.[孟宪伟,杜德文,韩贻兵.第四纪气候突变研究的新工具长链不饱和酮及其碳同位素[J].黄渤海海洋,2000,18(1):66-73.]
[44] Marlowe I T,Brassell S C,Eglinton G,et al.Long chain unsaturated ketones and esters in living algae and marine sediment[J].Organic Geochemistry,1984,6:135-141.
[45] Burkhardt S,Riebesell U,Zondervan I.Effects of growth rate, CO₂ concentration, and sell size on the stable carbon isotope fractionation in marine phytoplankton[J].Geochimica et Cosmochimica Acta,1999,63(22):3 729-3 741.
[46] Schoell M,Schouten S,Sinninghe D J S,et al.A molecular organic carbon record of Miocene climate[J].Science,1994,263:1 122-1 125.
[47] Duan Yi,Wang Zhiping.Isotopic composition and probable organic resource of long-chain individual alkanes from the Nansha Sea[J].Science Bulletion,2001,46:2 003-2 006.[段毅,王智平.南沙海洋沉积单体长链正构烷烃成因的碳同位素证据[J].科学通报,2001,46:2 003-2 006.]
[48] Amo M,Minagawa M.Sedimentary record of marine and terrigenous organic matter delivery to the Shatsky Rise, western North Pacific, over the last 130 kyr[J].Organic Geochemistry,2003,34(9):1 299-1 312.
[49] Mark P,Freeman K H,Arthur M A.Isotope analyses of molecular and total organic carbon from Miocene sediments[J].Geochimica et Cosmochimica Acta,2000,64(1):37-49.
[50] Duan Yi,Song Jinming,Zhang Hui.A study of biologic individual lipid carbon isotopic composition in the Nansha Sea[J].Science in China(D),2003,33:889-894.[段毅,宋金明,张辉.南沙海区生物单体脂类碳同位素研究[J].中国科学D辑,2003,33:889-894.]
[51] Li Hui,Wang Shengzhong,Leng Xuetian.Progresses in organic geochemical researches on lipids of mires[J].Wetland Science,2004,2(1):172-178.[李辉,王升忠,冷雪天.泥炭沼泽有机地球化学研究进展[J].湿地科学,2004,2(1):172-178.]
[52] Ficken K J,Barber K E,Eglinton G.Lipid biomarker, δ¹³C and plant macrofossil stratigraphy of a Soottish montane peat bog over the last two millennia[J].Organic Geochemistry,1998,28(3):217-237.
[53] Nott C J,Xie S,Avsejs L A,et al.N-alkane distributions in ombrotropic mire as indicators of vegetation change related to climatic variation[J].Organic Geochmistry,2000,31(3):231-235.
[54] White J W C,Clais P,Figge R A,et al.A high resolution record of atmospheric CO₂ content from carbon isotopes in peat[J].Nature,1994,367:153-156.[55] Xie Shucheng,Yi Yi,Liang Bin,et al.Paleoclimate implication from compound specific δ¹³C and δD of molecular fossils in peat deposits[J].Bulletin of Mineralogy,Petrology and Geochemistry,2003,22(1):8-13.[谢树成,易轶,梁斌, 等.泥炭分子化石单体碳氢同位素的古气候意义[J].矿物岩石地球化学通报,2003,22(1):8-13.]
[56] Schse D, Gleixner G. Hydrogen isotope ratios of recent lacustrine sedimentary n-alkanes record modern climate variability [J]. Geochimica et Cosmochimica Acta, 2004, 68(23): 4 877-4 889.

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摘要

THE SIGNIFICANCE OF COMPOUND-SPECIFIC δ 13C OF THE LIPID ON THE RECONSTRUCTIONS OF PALEO-CLIMATE AND PALEO-ENVIRONMENT

THE SIGNIFICANCE OF COMPOUND-SPECIFIC δ ¹³C OF THE LIPID ON THE RECONSTRUCTIONS OF PALEO-CLIMATE AND PALEO-ENVIRONMENT