低温蚀变洋壳的钾同位素组成及其对海水循环和俯冲带物质循环的意义
ID:362 View Protection:PRIVATE Updated Time:2021-06-19 11:57:26 Hits:2106 Invited speech

Start Time:2021-07-11 09:05(Asia/Shanghai)

Duration:20min

Session:S2A 2A、地球化学 » S2A-22A、地球化学-2

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Abstract
To constrain the behavior of K isotopes during the low-temperature alteration of oceanic crust and reveal its impact on the global K cycle, we measured the K isotopic compositions of 49 fresh and altered basalts recovered from the Integrated Ocean Drilling Program (IODP) Sites U1365 (~100 Ma) and U1368 (~13.5 Ma) in the South Pacific Ocean. The measured basalts representing the uppermost oceanic crust have been subjected to low-temperature (<150°C) alteration of different types and intensities as reflected by different secondary mineral modal abundances and element mobility. Both Sites have remarkably low sedimentation rates (0.71 and 1.1 m/Myr, respectively). The altered basalts from both Sites show higher K2O contents and K/Nb ratios than fresh basalts, suggesting the addition of K during low-temperature alteration. The measured δ41K values of the altered basalts vary over a large range (-0.76‰ to -0.17‰) compared to unaltered basalts, indicating significant K isotopic fractionation during low-temperature alteration of the oceanic crust. We propose that the K isotopic characteristics of the altered basalts were caused by the combined effects of equilibrium and kinetic isotopic fractionations between seawater and alteration minerals during the incorporation and adsorption of K into alteration minerals. A weighted average δ41K value of -0.40 ± 0.33‰ (2sd) is given for the low-temperature altered oceanic crust (AOC) at Sites U1365 and U1368, which is indistinguishable from the fresh N-MORB value (-0.44 ± 0.17‰), but significantly lower than its K source, i.e., seawater (δ41K = +0.12 ± 0.07‰, 2sd). Therefore, low-temperature AOC serves as an important sink for K and is a cause for the heavy K isotopic composition of seawater. In addition, the heterogeneous K isotopic compositions of the low-temperature AOC, together with large scale fractionation during various crustal processes, further highlights the utility of the K isotope system to trace subducted crustal materials.
 
Keywords
钾同位素,低温蚀变洋壳,IODP U1365 U1368,全球钾循环,地幔端元
Speaker
刘海洋
中国科学院海洋研究所

Submission Author
刘海洋 中国科学院海洋研究所
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Important Date
  • Conference Date

    Jul 09

    2021

    to

    Jul 11

    2021

  • May 30 2021

    Abstract Submission Deadline

  • May 30 2021

    Draft paper submission deadline

  • May 30 2021

    Early Bird Registration

  • Jul 10 2021

    Registration deadline

  • Jul 11 2021

    Contribution Submission Deadline

Sponsored By
青年地学论坛理事会
Organized By
中国科学院地球化学研究所
贵州大学
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