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An empirical test of helium diffusion in apatite: borehole data from the Otway basin, Australia |
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| Authors: | Martha A House Kenneth A Farley Barry P Kohn |
| Institution: | a Department of Earth and Atmospheric Sciences, Saint Louis University, St. Louis, MO 63103, USA b Division of Geologic and Planetary Sciences, MS 170-25, California Institute of Technology, Pasadena, CA 91125, USA c Australian Geodynamics Cooperative Research Centre, Department of Earth Sciences, La Trobe University, Bundoora, VIC 3083, Australia |
| Abstract: | We have analyzed helium ages of apatites from several boreholes in the Otway basin, Australia, to evaluate whether laboratory helium diffusivity can be accurately extrapolated to conditions relevant in nature. Downhole apatite helium ages define a broad swath of values from 78–71 Ma at the surface (15°C) to nearly zero at depths corresponding to ambient temperatures of  80°C. The width of the swath results from uncertainties in corrected borehole temperatures, differences in the thermal history experienced by the various boreholes, and possibly from slightly different helium diffusivities among the detrital apatite grains studied. In the eastern Otway basin, the shape and position of the helium age profile is in good agreement with predictions based on the extrapolation of laboratory diffusivity data for Durango apatite coupled with published thermal histories for this part of the basin. In contrast, helium ages are much younger than predicted in the western Otway basin. Based on measured ages from Otway sediments, which have been essentially isothermal over the last few million years, an empirical diffusivity (D/a2) of 2×10?15 s?1 can be assigned to apatites residing at downhole temperatures of 67–97°C. This empirical diffusivity is consistent with laboratory diffusion measurements, demonstrating that such measurements are reasonably accurate and can be applied with confidence to natural geologic settings. Given this confirmation of the laboratory diffusivity data, the discrepancy between the observed and modeled helium age profiles in the western Otway basin suggests that these sediments recently experienced higher temperatures than presently supposed. |
| Keywords: | helium age apatite diffusivity Otway Basin |
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