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HUANG Si jing, SHI He, ZHANG Meng, WU Wen hui, SHEN Li cheng. Application of Strontium Isotope Stratigraphy to Dating Ordovician Marine Sediments——An case study from the well Tazhong 12 in Tarim basin[J]. Acta Sedimentologica Sinica, 2004, 22(1): 1-5.
Citation: HUANG Si jing, SHI He, ZHANG Meng, WU Wen hui, SHEN Li cheng. Application of Strontium Isotope Stratigraphy to Dating Ordovician Marine Sediments——An case study from the well Tazhong 12 in Tarim basin[J]. Acta Sedimentologica Sinica, 2004, 22(1): 1-5.

Application of Strontium Isotope Stratigraphy to Dating Ordovician Marine Sediments——An case study from the well Tazhong 12 in Tarim basin

  • Received Date: 2003-03-16
  • Publish Date: 2004-03-10
  • According to the principle of strontium isotope stratigraphy (SIS), we establish the Ordovician data baseof 87 Sr/ 86 Sr ratio through the geological timefrom the digitized global marine strontium isotope curve. We have confirmed the boundaries of middle upper and middle lower Ordovicianusing the analytic data of strontium isotope of the Well Tazhong 12 in Tarim basin.The two boundaries are located atthe depth of 5 120 m ( 87 Sr/ 86 Sr≈ 0.708 8,with theage of 465 Ma)and4 880 m( 87 Sr/ 86 Sr≈ 0.708 2,with theage of 455 Ma),respectively, of the Well Tazhong 12. The verificationof middle upper Ordovicianboundary is just the first time for this well,and the location of the boundary of middle lower Ordovician confirmed is consistent with the depth of middle upper Ordovician boundary calibratedby conodontdata.This variation of strontium isotope curve for the Well Tazhong 12 shows the following facts: despite the tectonic movementresulted in the rising of Tarim basin, leading to the leaching of meteoricwater to the upper most part of Ordoviciancarbonate, and to the increase of 87 Sr/ 86 Sr of some samples, the relationship between Ordovicianand its upper strata of the Well Tazhong 12 is transitionary. The top boundary for Ordovicianis located at the depth of 4 650 m ( 87 Sr/ 86 Sr≈ 0.707 9,with theage of 435 Ma).
  • [1] McArthur J M, Burnett J,Hancock J M. Strontium isotopes at K/T boundary discussion. Nature, 1992, 355( 6355):28
    [2] Wickman F E. Isotope ratios: a clue to the age of certain marine sediments. Journal ofGeology, 1948, 56: 61~66
    [3] McArthur J M.Recent trends in strontium isotope stratigraphy. Terra Nova, 1994, 6: 331~358
    [4] Dia A N, Cohen A S, O'Nion K, et al. Seawater Sr isotope variation over the past 300 kyr and influence of global climate cycles. Nature,1992,356( 6372): 786~788
    [5] Paytan A, Kastner M, Martin E E, et al. Marine barite as a monitor of seawater strontium isotope composition. Nature,1993, 366( 6454): 445~449
    [6] Banner J L, Kaufman J. The isotopic record of ocean chemistry and diagenesis preserved in nonluminescent brachiopods from Mississippian carbonate rocks, Illinois and Missouri. Geological Society of America Bulletin, 1994, 106: 1074~1082
    [7] Hess J, Stott L, Bender M L K, et al. The Oligocene marine microfossil record: age assessments using strontium isotopes. Paleoceanography, 1989,4: 655~679
    [8] Miller K G, Feigenson M D, Wright J D, et al. Miocene isotope reference section, Deep Sea Drilling Project Site 608: an evaluation of isotope and biostratigraphic resolution. Paleoceanography, 1991, 6:33~52
    [9] McArthur J M, Kennedy W J, Chen M, et al. Strontium isotope stratigraphy for the Late Creataceous: direct numerical age calibration of the Sr-isotope curve for the U.S. Western interior Seaway. PalaeogeographyPalaeoclimatologyPalaeoecology, 1994,108:95~119
    [10] Dingle R V, McArthur J M, Vroon P.Oligocene and Pliocene interglacial events in the Antarctic Peninsula dated using strontium isotope stratigraphy. Journal of Geological Society of London, 1997,154: 257~264
    [11] Denison R E, Kirkland D W,Evans R. Using strontium isotopes to determine the age and origin of gypsum and anhydrite beds.JournalGeology, 1998, 106:1~17
    [12] 江茂生,朱井泉,陈代钊,等.塔里木盆地奥陶纪碳酸盐岩的碳、锶同位素特征及其对海平面变化的响应.中国科学(D辑),2002,32(1):36~42[Jiang Maosheng, Zhu Jingquan, Chen Daizhao,et al. Carbon and strontium isotope variations and responses to sea-level fluctuations in the Ordovician of the Tarim Basin. Science in China (SeriesD), 2002, 32(1):36~42]
    [13] 黄思静.上扬子地台区晚古生代海相碳酸盐岩的碳、锶同位素研究. 地质学报, 1997,71(1):45~53[Huang Sijing. Carbon and strontium isotopes of Late Paleozoic marine carbonatesin the Upper Yangtze platform,Southwest China. Acta Geologica Sinica,1997, 71(1): 45~53]
    [14] 黄思静,石和,张萌,等.上扬子石炭-二叠纪海相碳酸盐的锶同位素演化与全球海平面变化.沉积学报,2001,19(4):481~487[Huang Sijing, ShiHe, Zhang Meng, et al. Strontium isotope evolution and global sea-Level changes of Carboniferous and Permian marine carbonate, Upper Yangtze Platform. Acta Sedimintologica Sinica, 2001, 19 (4): 481~487]
    [15] 黄思静,石和,毛晓冬,等.重庆秀山寒武系锶同位素演化曲线及全球对比.地质论评,2002,48(5):509~516[Huang Sijing, Shi He, Mao Xiaodong, et al. Evolution of Sr isotopes of the Cambrian sections in XiuShan, Chongqing, and related global correlation. Geological Review,2002, 48(5): 509~516]
    [16] 黄思静,石和,张萌,等.龙门山泥盆纪锶同位素演化曲线的全球对比及海相地层的定年.自然科学进展,2002,12(9):945~951[Huang Sijing, ShiHe, Zhang Meng, et al. Global correlationof strontium isotope evolution curveof Devonian in Longmen mountain and dating marine sediments. Progress in NaturalScience, 2002, 12 (9): 945~951]
    [17] 杨杰东,郑文武,王宗哲,等.Sr、C同位素对苏皖北部上前寒武系时代的界定.地层学杂志,2001,25(1):44~47[Yang Jiedong, Zheng Wenwu, Wang Zongzhe, et al.Age Determining of the upper Precambrian system of northern Jiangsu-Anhui by using Sr and C isotopes.Journal of Stratigraphy, 2001, 25(1): 44~47]
    [18] Howarth R J, McArthur J M. Statistics for strontium isotope stratigraphy: a robust LOWESS fit to marine Sr-isotope curve for 0 to 206 Ma, with look-up table for derivation of numeric age.JournalGeology, 1997,105: 441~456
    [19] Veizer J, Ala D, Azmy K, et al. 87Sr/ 86Sr,δ 13C andδ 18Oevolution of Phanerozoic seawater. Chemical Geology,1999, 161:59~88
    [20] McArthur J M, Howarth R J, T R. Strontium Isotope Stratigraphy: LOWESS Version 3: Best Fit to the Marine Sr-Isotope Curve for 0-509 Ma and Accompanying Look-up Table for Deriving Numerical Age. JournalGeology, 2001, 109: 155~170
    [21] Qing H, Barnes C R, Buhl D, VeizerJ.The strontium isotopic composition of Ordovician and Silurian brachiopods and conodonts: Relationships to geological events and implications for coeval seawater. Geochimica et Cosmochimica Acta, 1998, 62(10): 1721~1733
    [22] Denison R E,Koepnick R B, Burke W H, et al. Construction of the Cambrian and Ordovician seawater 87Sr/ 86Sr curve. Chemical Geology,1998, 152:325~340
    [23] Remane J, Faure-Muret A, Odin G S.International Stratigraphic Chart. Translated by Jin Yugan,Wang Xiangdong, Wang Yue. Journal of Stratigraphy,2001, 24(Suppl.):321~340
    [24] Hallam A. Phanerozoic sea-level changes. Columbia University Press, 1992. 1~266
    [25] 新疆油气区石油地质志编写组.中国石油地质志(卷十五)--新疆油气区(下册).北京:石油工业出版社,1995. 153[EditorialCommittee of Petroleum Geology of Xinjing Oil and Gas Field. Petroleum Geology of China (Vol.15), Xinjing Oil and Gas Field (Lower Part). Beijing: Petroleum Industry Press, 1995. 153
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  • Received:  2003-03-16
  • Published:  2004-03-10

Application of Strontium Isotope Stratigraphy to Dating Ordovician Marine Sediments——An case study from the well Tazhong 12 in Tarim basin

Abstract: According to the principle of strontium isotope stratigraphy (SIS), we establish the Ordovician data baseof 87 Sr/ 86 Sr ratio through the geological timefrom the digitized global marine strontium isotope curve. We have confirmed the boundaries of middle upper and middle lower Ordovicianusing the analytic data of strontium isotope of the Well Tazhong 12 in Tarim basin.The two boundaries are located atthe depth of 5 120 m ( 87 Sr/ 86 Sr≈ 0.708 8,with theage of 465 Ma)and4 880 m( 87 Sr/ 86 Sr≈ 0.708 2,with theage of 455 Ma),respectively, of the Well Tazhong 12. The verificationof middle upper Ordovicianboundary is just the first time for this well,and the location of the boundary of middle lower Ordovician confirmed is consistent with the depth of middle upper Ordovician boundary calibratedby conodontdata.This variation of strontium isotope curve for the Well Tazhong 12 shows the following facts: despite the tectonic movementresulted in the rising of Tarim basin, leading to the leaching of meteoricwater to the upper most part of Ordoviciancarbonate, and to the increase of 87 Sr/ 86 Sr of some samples, the relationship between Ordovicianand its upper strata of the Well Tazhong 12 is transitionary. The top boundary for Ordovicianis located at the depth of 4 650 m ( 87 Sr/ 86 Sr≈ 0.707 9,with theage of 435 Ma).

HUANG Si jing, SHI He, ZHANG Meng, WU Wen hui, SHEN Li cheng. Application of Strontium Isotope Stratigraphy to Dating Ordovician Marine Sediments——An case study from the well Tazhong 12 in Tarim basin[J]. Acta Sedimentologica Sinica, 2004, 22(1): 1-5.
Citation: HUANG Si jing, SHI He, ZHANG Meng, WU Wen hui, SHEN Li cheng. Application of Strontium Isotope Stratigraphy to Dating Ordovician Marine Sediments——An case study from the well Tazhong 12 in Tarim basin[J]. Acta Sedimentologica Sinica, 2004, 22(1): 1-5.
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