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Volume 26 Issue 3
Jul 2015
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Journal of Earth Science  > 2015  >  26(3): 445-452.
Jing Li, Xing Liang, Menggui Jin, Guoqiang Xiao, Jishan He, Yandong Pei. Geochemistry of clayey aquitard pore water as archive of paleo-environment, western Bohai Bay. Journal of Earth Science, 2015, 26(3): 445-452. doi: 10.1007/s12583-014-0491-x
Citation: Jing Li, Xing Liang, Menggui Jin, Guoqiang Xiao, Jishan He, Yandong Pei. Geochemistry of clayey aquitard pore water as archive of paleo-environment, western Bohai Bay. Journal of Earth Science, 2015, 26(3): 445-452. doi: 10.1007/s12583-014-0491-x
shu

Geochemistry of clayey aquitard pore water as archive of paleo-environment, western Bohai Bay

doi: 10.1007/s12583-014-0491-x
  • 1.

    School of Environment Studies, China University of Geosciences, Wuhan 430074, China

  • 2.

    State Key Laboratory of Biogeology and Environmental Geology, China University of Geosciences, Wuhan 430074, China

  • 3.

    Tianjin Institute of Geology and Mineral Resources, Tianjin 300170, China

More Information
  • Corresponding author: Xing Liang, xliang@cug.edu.cn
  • Received Date: 17 Aug 2013
  • Accepted Date: 21 Dec 2013
  • Publish Date: 01 Jun 2015
    Abstract
  • The record of paleo-environment in clayey aquitard pore water is much more effective relative to aquifer groundwater owing to the low permeability of clayey aquitard. Oxygen-18 (18O), deuterium (D), and chemical patterns were determined in pore water samples extracted from two 500 m depth boreholes, G1 and G2, in western Bohai Bay, China. Shallow pore water samples (depth < 102 m) are saline water, with the TDS (total dissolved solids) of 3.69–30.75 g/L, and deeper ones (depth=102–500 m) are fresh water, with the TDS < 1 g/L. Content of major ions (i.e., Cl, Na+, K+, Mg2+, SO42−, Ca2+) is high in marine sediment pore water samples and gradually decrease towards to terrestrial sediment pore water, together with the Cl/Br and Sr/Ba ratios changing significantly in different sedimentary facies along the study profile, indicating that pore water may be paleo-sedimentary water and not replaced by modern water. δ18O profile and positive correlation between δ18O and Cl of shallow saline pore water indicated diffusion as the main transport mechanism, and distinguished four transgressive layers since Late Quaternary (i.e., Holocene marine unit, two Late Pleistocene marine units and Middle Pleistocene marine unit), further supporting the finding that pore water retained the feature of paleo-sedimentary water. Climate was identified as the main influence on the isotopic signature of aquitard pore water and four climate periods were determined by δ18O profile.

     

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  • An, F. T., Gao, S. M., Li, Y. F., 1982. Research on the Depositional Environment of Luanhe River Delta by Analyzing of Trace Elements. Trans. Oceanol. Limnol., 2: 24-31 (in Chinese with English Abstract) http://en.cnki.com.cn/article_en/cjfdtotal-hyfb198202004.htm
    Bai, Y. C., Yang, Y. J., Wang, J. W., 2011. Research of Paleoenvironment and Its Impact on Coastline Evolvement in Bohai Bay. Hydro-Science and Engineering, 4: 18-26 (in Chinese with English Abstract) http://en.cnki.com.cn/Article_en/CJFDTOTAL-SLSY201104003.htm
    Cande, S. C., Kent, D. V., 1995. Revised Calibration of the Geomagnetic Polarity Timescale for the Late Cretaceous and Cenozoic. Journal of Geophysical Research, 100: 6093-6095 doi: 10.1029/94JB03098
    Chen, J. Y., Tang, C. Y., Sakura, Y., 2004. Spatial Geochemical and Isotopic Characteristics Associated with Groundwater Flow in the North China Plain. Hydrological Processes, 18: 3133-3146 doi: 10.1002/hyp.5753
    Chen, Z. Y., Qi, J. X., Xu, J. M., et al., 2003. Paleoclimatic Interpretation of the Past 30 ka from Isotopic Studies of the Deep Confined Aquifer of the North China Plain. Applied Geochemistry, 18: 997-1009 doi: 10.1016/S0883-2927(02)00206-8
    Clemens, S. C., Tiedemann, R., 1997. Eccentricity Forcing of Pliocene-Early Pleistocene Climate Revealed in a Marine Oxygen-Isotope Record, Nature, 385(27): 801-804 http://www.nature.com/articles/385801a0
    Cumming, J. D., Aasm, I. S. A., 1999. Sediment Characterization and Pore Water Isotope Chemistry of Quaternary Deposits from the St. Clair Detla, Ontario, Canada. Quaternary Research, 51: 174-186 doi: 10.1006/qres.1998.2028
    Dansgarrd, W., 1964. Stable Isotopes in Precipitation. Tellus, 16: 436-468
    Edwards, T. W. D., Wolfe, B. B., MacDonald, G. M., 1996. Influence of Changing Atmospheric Circulation on Precipitation Delta 18O-Temperature Relations in Canada during the Holocene. Quaternary Research, 46(3): 211-218 doi: 10.1006/qres.1996.0061
    Fan, S. X., Zhai, Z. M., Zhang, X. B., et al., 2010. Palaeovegetation and Palaeoclimate since 4.00 Ma BP in Northern Tianjin. Journal of Palaeogeography, 12(6): 655-664 (in Chinese with English Abstract) http://epub.cnki.net/grid2008/docdown/docdownload.aspx?filename=GDLX201006004&dbcode=CJFD&year=2010&dflag=pdfdown
    Fontes, J. C., Stute, M., Schiosser, P., et al., 1993. Aquifers as Archives of Paleoclimate. EOS Trans. AGU, 74: 21-22 doi: 10.1029/93EO00212
    Guo, S. Q., Wang, S. M., Yang, L. J., 2005. Climatic and Environment Change in North China Plain during the Last Glacial Maximum. Geological Review, 51(4): 423-427 (in Chinese with English Abstract) http://www.researchgate.net/publication/304578641_Climatic_and_Environment_Change_in_North_China_Plain_during_the_Last_Glacial_Maximum
    Hao, F., Zhou, X., Zou, H., et al., 2012. Petroleum Charging and Leakage in the BZ25-1 Field, Bohai Bay Basin. Journal of Earth Science, 23(3): 253-267 doi: 10.1007/s12583-012-0251-8
    Hendry, M. J., Wassenaar, L. I., 1999. Implications of the Distribution of δD in Pore Waters for Groundwater Flow and the Timing of Geologic Events in a Thick Aquitard System. Water Resources Research, 35(6): 1751-1760 doi: 10.1029/1999WR900046
    Hendry, M. J., Woodbury, A. D., 2007. Clay Aquitards as Archives of Holocene Paleoclimate: δ18O and Thermal Profiling. Groundwater, 45(6): 683-691 doi: 10.1111/j.1745-6584.2007.00354.x
    Hendry, M. J., Wassenaar, L. I., 2004. Transport and Geochemical Controls on the Distribution of Solutes and Stable Isotopes in a Thick Clay-Rich Till Aquitard, Canada. Isotopes Environ. Health Stud., 40(1): 3-19 doi: 10.1080/10256010310001644942
    Hiscock, K. M., George, M. A., Dennis, P. F., 2011. Stable Isotope Evidence for the Hydrogeological Characteristics of Clay-Rich Till in Northern East Anglia. Quarterly Journal of Engineering Geology and Hydrogeology, 44(2): 173-189 doi: 10.1144/1470-9236/10-006
    Husain, M. M., Cherry, J. A., Frape, S. K., 2004. The Persistence of a Large Stagnation Zone in a Developed Regional Aquifer, Southwestern Ontario. Canadian Geotechnical Journal, 41(5): 943-958 doi: 10.1139/t04-040
    Kreuzer, A. M., Rohden, C. V., Friedrich, R., et al., 2009. A Record of Temperature and Monsoon Intensity over the Past 40 kyr from Groundwater in the North China Plain. Chemical Geology, 259: 168-180 doi: 10.1016/j.chemgeo.2008.11.001
    Li, G. L., 2007. Investigation and Evaluation of Groundwater Geochemical Features of Loosen Rock in Littoral Zone of Tianjin: [Dissertation]. China University of Geosciences, Beijing (in Chinese with English Abstract)
    Li, S. J., Zhang, R., Wang, Q. C., 2006. Implications of the Color of Sediments and Clay Minerals for Tertiary Climatic Changes of Kuqa Depression. Acta Sedimentologica Sinica, 24(4): 521-530 (in Chinese with English Abstract) http://www.cnki.com.cn/Article/CJFDTotal-CJXB200604008.htm
    Lisiecki, L. E., Raymo, M. E., 2005. A Pliocene-Pleistocene Stack of 57 Globally Distributed Benthic δ18O Records. Paleoceanography, 20: PA1003. doi: 10.1029/2004PA001071
    Mao, X. M., Liang, X., Wang, F. L., et al., 2012. A Pore Water Extraction and Purification Device for Stable Isotopic Analysis. China Patent, 201010514458.0 (in Chinese)
    Shen, Z. Z., Li, J., Liang, X., et al., 2011. A Piston Mechanical Squeeze for Extracting Pore-Water of Clayey Rock. China Patent, 201020607732.4 (in Chinese)
    Shi, L. F., Zhai, Z. M., Wang, Q., et al., 2009. Geochronological Study on Transgression Layers of the CQJ4 Borehole at Dagang Area in Tianjin, China. Geological Review, 55(3): 375-384 (in Chinese with English Abstract) http://www.researchgate.net/publication/284892136_Geochronological_study_on_transgression_layers_of_the_CQJ4_borehole_at_Dagang_area_in_Tianjin_China
    Song, X. F., Li, F. D., Yu, J. J., et al., 2007. Characteristics of Groundwater Cycle Using Deuterium, Oxygen-18 and Hydrochemistry in Chaobai River Basin. Geographical Research, 26(1): 11-21 (in Chinese with English Abstract) http://d.wanfangdata.com.cn/Periodical/dlyj200701002
    Timms, W. A., Hendry, M. J., 2008. Long-Term Reactive Solute Transport in an Aquitard Using a Centrifuge Model. Ground Water, 46(4): 616-628 doi: 10.1111/j.1745-6584.2008.00441.x
    Wang, H., Chen, Y. S., Tian, L. Z., et al., 2011. Holocene Cheniers and Oyster Reefs in Bohai Bay: Palaeoclimate and Sea Level Changes. Geological Bulletin of China, 30(9): 1405-1411 (in Chinese with English Abstract) http://www.researchgate.net/publication/282763122_Holocene_cheniers_and_oyster_reefs_in_Bohai_Bay_Palaeoclimate_and_sea_level_changes
    Wang, J. B., 2006. Sustainable Development of the Deep Groundwater Resource under the Condition of Controlling Land Subsidence in Tianjin: [Dissertation]. China University of Geosciences, Beijing (in Chinese with English Abstract)
    Wang, Q., Liu, L. J., Wang, W. D., et al., 2004. The Mechanism of Quaternary Paleo-Environment Change in Circum Bohai Sea Region and North China Plain. Geological Survey and Research, 27(3): 129-138 (in Chinese with English Abstract)
    Wang, Q., Zhang, Y. F., Yuan, G. B., et al., 2008. Since MIS 3 Stage the Correlation between Transgression and Climatic Changes in the North Huanghua Area, Hebei. Quaternary Sciences, 28(1): 79-95 (in Chinese with English Abstract) http://www.researchgate.net/publication/283993363_Since_MIS3_stage_the_correlation_between_transgression_and_climatic_changes_in_the_north_Huanghua_area_Hebei
    Wang, Y., 2000. Evolution Sequences of Palaeovegetation and Palaeoclimate in the Caofeidian Area since the Last Stage of the Late Pleistocene Epoch. Marine Geology and Quaternary Geology, 20(2): 87-92 (in Chinese with English Abstract) http://en.cnki.com.cn/Article_en/CJFDTOTAL-HYDZ200002017.htm
    Xu, Q. M., Yuan, G. B., Zhang, J. Q., 2011. Stratigraphic Division of the Late Quaternary Strata along the Coast of Bohai Bay and Its Geology Significance. Acta Geologica Sinica, 85(8): 1352-1367 (in Chinese with English Abstract) http://www.zhangqiaokeyan.com/academic-journal-cn_acta-geologica-sinica_thesis/0201252706425.html
    Xu, G., Xu, Z., Gong, D., et al., 2014. Relationship between Tanlu Fault and Hydrocarbon Accumulation in Liaozhong Sag, Bohai Bay, Eastern China. Journal of Earth Science, 25(2): 324-336 doi: 10.1007/s12583-014-0432-8
    Zhang, Z. H., Shen, Z. L., Xue, Y. Q., et al., 2000. Evolution of Groundwater Environment in North China Plain. Geological Publish House, Beijing (in Chinese with English Abstract)
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