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    Volume 30 Issue 1
    Jan.  2005
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    Article Navigation >  Earth Science  > 2005  >  30(1): 114-120
    ZHANG Yu-fen, LI Zhang-an, CHEN Guo-jin, WANG Xiao-ping, XIAO Ming-yuan, 2005. Characteristics and Paleoclimatic Significance of Magnetic Susceptibility and Stable Organic Carbon Isotopes from a Bore in Zhoulao Town, Jianghan Plain. Earth Science, 30(1): 114-120.
    Citation: ZHANG Yu-fen, LI Zhang-an, CHEN Guo-jin, WANG Xiao-ping, XIAO Ming-yuan, 2005. Characteristics and Paleoclimatic Significance of Magnetic Susceptibility and Stable Organic Carbon Isotopes from a Bore in Zhoulao Town, Jianghan Plain. Earth Science, 30(1): 114-120.
    shu

    Characteristics and Paleoclimatic Significance of Magnetic Susceptibility and Stable Organic Carbon Isotopes from a Bore in Zhoulao Town, Jianghan Plain

    • 1.

      Institute of eophysics and Geomatics, China University of eosciences, Wuhan 430074, China

    • 2.

      Faculty of arth Sciences, China University of eosciences, Wuhan 430074, China

    • 3.

      Hubei Hydrogeology and Engineering Geology Team, Jingzhou 434100, China

    • Received Date: 2004-07-25
    • Publish Date: 2005-01-25
      Abstract
    • Jianghan plain lies in Chinaese east-west and south-north natural transition area. The study of climate change in this area from 30 ka plays an important part in understanding global paleoclimatic events and has been given increasing attention. In this paper, based on 14C dating, an analysis is made of magnetic susceptibility and stable organic carbon isotopes from the bored core in Zhoulao town, Jianghan plain. The results indicate that (1) magnetic susceptibility and stable organic carbon isotopes in this area have good coherence and relativity in the patterns of their evolution. Their relation to paleoclimate is that the higher values of magnetic susceptibility and the stable organic carbon isotope correspond to a colder and drier environment, while the lower values correspond to a warmer, wet environment. (2) According to the pattern of change of magnetic susceptibility and stable organic carbon isotopes, the sequence of climate change from 30 kaB.P. can be divided into 3 main stages: the age of the first stage varies from 30 000-14 100 aB.P., and the average value of magnetic susceptibility and δ13C is 655.69 ×10-6SI and -23.15×10-3 respectively, with a relatively high vibration curve, which is the highest of the three stages; the age of the second stage is from 14 100-3 540 aB.P., and the magnetic susceptibility and δ13C have a low vibration curve with average values of 369.38 ×10-6SI and -27.29×10-3; the age of the third stage is between (3 540-) 650 aB.P. and the average value of magnetic susceptibility is 311.0 ×10-6SI, the lowest of the three stages, and that of δ13C is -24.49×10-3, also with a high vibration curve. Each stage can be further subdivided into several climatic events. (3) The sudden change of magnetic susceptibility and organic carbon isotopes may indicate a sudden temperature change.

       

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      • References(25)
    • Chen, J.A., Wan, G.J., Wang, F.S., et al., 2002. Study on carbon environment records from lakes sediments. Science in China(Series D), 32(1): 73-80(in Chinese).
      Dean, W.E., 1999. The carbon cycle and biogeochemical dynamics in lake sediments. Journal of Paleolimnology, 21 (4): 375-393. doi: 10.1023/A:1008066118210
      Giresse, P., 1994. Late Quaternary palaeoenvironments in the lake Barombi Mbo(West Cameroon)deduced from pollen and carbon isotopes of organic matter. Palaeogeography, Palaeoclimate, Palaeoecol., 107: 65-78. doi: 10.1016/0031-0182(94)90165-1
      Kissel, C., Laj, C., 1998. Magnetic anisotropy and environmental changes in two sedimentary cores from the Norwegian Sea and the North Atlantic. Earth and Planetary Science Letters, 164: 617-626. doi: 10.1016/S0040-1951(98)00223-6
      Li, Y.C., Wang, S.M., Huang, Y.S., 1999. Climatic and environments change recorded by lake sediments. Earth Science Advance, 14(4): 41-416(in Chinese with English abstract).
      Meyers, P.A., Ishiwatari. R., 1993. Lacustrine organic geochemistry—An review of indicators of organic matter sources and diagenesis in lake sediments. Organic Geochemistry, 20: 867-900. doi: 10.1016/0146-6380(93)90100-P
      Street Parrott, F.A., Huang, Y., Perrott, R.A., et al., 1997. Impact of lower atmospheric carbon dioxide on tropical mountain ecosystems. Science, 278: 1422-1426. doi: 10.1126/science.278.5342.1422
      Wang, S.M., Li, J.R., 1990. The lake sediment—It is an effective method for studying climate of history: Taking Qinghai Lake and Daihai as example. Chinese Science Bulletin, 36(1): 54-56(in Chinese).
      Wu, H.B., Chen, F.H., Wang, J.M., et al., 1999. Study on magnetic fabric parameters of lake sediments in arid area and environment changes. Marine Geology & Quaternary Geology, 19(20): 95-108(in Chinese with English abstract).
      Wu, J.L., Wang, S.M., 1996. Climate versus changes in δ13C values of the organic matterin lake sediments. Marine Geology & Quaternary Geology, 16(2): 103-109(in Chinese with English abstract).
      Xu, X., Shen, Z. Y., 1990. Holocene environment: The palaeoenvironmental and palaeoclimatic changes since the past 10 000 years. Guizhou People Press, Guiyang(in Chinese).
      Yang, X.Q., Li, H.M., 2000. Magnetic anisotropy and its environmental significance in limnal faulted basin—Taking a Nihewan basin as example. Marine Geology & Quaternary Geology, 20(3): 43-52(in Chinese with English abstract).
      Yang, X.Q., Li, H, M, , 1999. The susceptibility characteristics of the typical sections of the Nihewan basin and its implication. Marine Geology & Quaternary Geology, 19(1): 75 - 84(in Chinese with English abstract).
      Yu, J.Q., Wang, X.Y., Li, J., et al., 2001. Palaeoenvironmental interpretations on organic carbon isotopic records from lake sediments: A critique. Journal of Lake Science, 13(1): 72-78(in Chinese with English abstract). doi: 10.18307/20010111
      Zhang, Z.K., Wu, R.J., Wang, S.M., 1998. Implication of magnetic frequency dependent susceptibility on environmental variation from lacustrine sediment in Daihai Lake. Geographical Research, 17(3): 299-302(in Chinese with English abstract).
      陈敬安, 万国江, 汪福顺, 等, 2002. 湖泊现代沉积物碳环境记录研究. 中国科学(D辑), 32(1): 73-80. https://www.cnki.com.cn/Article/CJFDTOTAL-JDXK200201008.htm
      李玉成, 王苏民, 黄耀生, 1999. 气候环境变化的湖泊沉积学响应. 地球科学进展, 14(4): 41-416. https://www.cnki.com.cn/Article/CJFDTOTAL-DXJZ904.017.htm
      王苏民, 李建仁, 1990. 湖泊沉积——研究历史气候的有效手段: 以青海湖、岱海为例. 科学通报, 36(1): 54-56. https://www.cnki.com.cn/Article/CJFDTOTAL-KXTB199101016.htm
      吴海斌, 陈发虎, 王建民, 等, 1999. 干旱区湖泊沉积物磁组构参数量值特征与环境变化研究. 海洋地质与第四纪地质, 19(20): 95-108. https://www.cnki.com.cn/Article/CJFDTOTAL-HYDZ902.011.htm
      吴敬禄, 王苏民, 1996. 湖泊沉积中有机质碳同位素特征及其古气候. 海洋地质与第四纪地质, 16(2): 103-109.
      徐馨, 沈志远, 1990. 全新世环境——最近一万年来环境变迁. 贵阳: 贵州人民出版社.
      杨晓强, 李华梅, 2000. 陆相断陷湖盆沉积物磁组构特征及其环境意义——以泥河湾盆地为例. 海洋地质与第四纪地质, 20(3): 43-52. https://www.cnki.com.cn/Article/CJFDTOTAL-HYDZ200003009.htm
      杨晓强, 李华梅, 1999. 泥河湾盆地典型剖面沉积物磁组构特征及其意义. 海洋地质与第四纪地质, 19(1): 75-84.
      余俊清, 王小燕, 李军, 等, 2001. 湖泊沉积有机碳同位素与环境变化的研究进展. 湖泊科学, 13(1): 72-78. doi: 10.3321/j.issn:1003-5427.2001.01.011
      张振克, 吴瑞金, 王苏民, 1998. 岱海湖泊沉积物频率磁化率对历史时期环境变化的反映. 地理研究, 17(3): 299302. https://www.cnki.com.cn/Article/CJFDTOTAL-DLYJ803.010.htm
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