Oxygen isotope analysis of Mesozoic radiolarites using SIMS

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  • BÔLE Maximilien
    Institute of Earth Sciences (ISTE), Faculty of Geoscience, Geopolis, University of Lausanne Department of Geosciences, Faculty of Sciences, Shizuoka University Department of Earth and Planetary Science, Graduate School of Science, The University of Tokyo
  • IKEDA Masayuki
    Department of Geosciences, Faculty of Sciences, Shizuoka University Department of Earth and Planetary Science, Graduate School of Science, The University of Tokyo
  • O. BAUMGARTNER Peter
    Institute of Earth Sciences (ISTE), Faculty of Geoscience, Geopolis, University of Lausanne
  • HORI S Rie
    Department of Earth Sciences, Faculty of Science, Ehime University
  • BOUVIER Anne-Sophie
    Institute of Earth Sciences (ISTE), Faculty of Geoscience, Geopolis, University of Lausanne
  • KUKOČ Duje
    Croatian Geological Survey

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  • SIMS を用いた中生代放散虫岩の酸素同位体分析

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Abstract

<p>The oxygen isotope (δ18O) analysis of carbonate fossils is widely applied for palaeoceanographic analysis, whereas that of siliceous fossils is only limited partly due to technical constraints and uncertain fractionation factors. Here we used a secondary ion mass spectrometer (SIMS) for δ18O of radiolarian silica, precipitated inside radiolarian molds in Mesozoic radiolarites from Japan, Italy, Switzerland and Romania in order to examine its potential for palaeoceanographic proxy. 507 measurements of the isotopic oxygen signature relative to the Vienna Standard Mean Ocean Water (δ18OVSMOW) of 53 chert samples range between 19.8 to 35.3 ‰ overlapping with that of modern and Cenozoic radiolarian tests in the equatorial Pacific. Relatively large intra-chert variability supports that δ18O of the Mesozoic radiolarian tests are not perfectly homogenized within a chert bed during the diagenetic segregation. The temporal changes in the δ18O values of radiolarians (δ18Oradiolarians) show an Early-Middle Triassic slight positive excursion, a Late Triassic high plateau, an Early Jurassic negative excursion with up to 8 ‰ , a Middle Jurassic slight positive excursion, and a few light values for the Cretaceous despite of their low resolution. A comparison of δ18O between radiolarian molds, conodont apatite, and the low magnesium calcium shells show overall similar secular variations during the Triassic, but different trends was observed during the Early Jurassic. Because our data is low-resolution, further cross check of δ18Oradiolarians is necessary to use as a proxy for paleoceanography</p>

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