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    Volume 25 Issue 2
    Mar.  2000
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    Article Navigation >  Earth Science  > 2000  >  25(2): 117-121
    ZHAO Yu-guang, LIU Baojun, XU Xiaosong, 2000. MATHEMATICAL MODEL OF SEA-LEVEL CHANGE CURVES IN GEOLOGICAL HISTORY. Earth Science, 25(2): 117-121.
    Citation: ZHAO Yu-guang, LIU Baojun, XU Xiaosong, 2000. MATHEMATICAL MODEL OF SEA-LEVEL CHANGE CURVES IN GEOLOGICAL HISTORY. Earth Science, 25(2): 117-121.
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    MATHEMATICAL MODEL OF SEA-LEVEL CHANGE CURVES IN GEOLOGICAL HISTORY

    • 1.

      Building College, Southwest Jiaotong University, Chengdu 610031, China

    • 2.

      Chengdu Institute of Geology and Mineral Resources, Chengdu 610082, China

    • Received Date: 1999-07-12
    • Publish Date: 2000-03-25
      Abstract
    • The stratigraphical sequences are considered as a medium to record sea-level changes. The effective accommodation space (C(t)), an accumulation strata for stratigraphic sequences, is a function of sea-level changes (L(t)), tectonic subsidence (Y(t)) and geological time (t). The research into the Permian-Triassic sequence stratigraphy in the western margin of the Upper Yangtze block, and the summary of previous research methods for the sea-level change curves both have been employed to establish the mathematical model of sea-level change curves, including mathematical geological model and mathematical function model. Firstly, the mathematical geological model of sea-level change curves: C(t)=L(t)+Y(t) is established, then the mathematical function model is proposed. The mathematical model has been used to compile quantitatively the Permian-Triassic seal-level change curves on the western margin of the Upper Yangtze block.

       

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      • References(5)
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