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U–Pb zircon geochronology of the North Pole Dome adamellite in the eastern Pilbara Craton
Authors:Hisashi Asanuma  Yusuke Sawaki  Shuhei Sakata  Hideyuki Obayashi  Kazue Suzuki  Kouki Kitajima  Takafumi Hirata  Shigenori Maruyama
Affiliation:1. Department of Earth and Planetary Sciences, Tokyo Institute of Technology, 2‐12‐1 Ookayama, Meguro‐ku, Tokyo, 152‐8551, Japan;2. Department of Chemistry, Gakushuin University, Mejiro 1‐5‐1, Toshima‐ku, Tokyo, 171‐8588, Japan;3. Division of Earth and Planetary Sciences, Graduate School of Science, Kyoto University, Kitashirakawa Oiwake‐cho, Sakyo‐ku, Kyoto, 606‐8502, Japan;4. WiscSIMS, Department of Geoscience, University of Wisconsin, 1215, W. Dayton Street, Madison, Wisconsin, 53706, USA;5. Geochemistry Research Center, The University of Tokyo, Hongo 7‐3‐1, Bunkyo‐ku, Tokyo, 113‐0033, Japan;6. Earth‐Life Science Institute, Tokyo Institute of Technology, 2‐12‐1 Ookayama, Meguro‐ku, Tokyo, 152‐8551, Japan
Abstract:
Supracrustal rocks around the North Pole Dome area, Western Australia, provide valuable information regarding early records of the evolution of crustal processes, surface environments, and biosphere. Owing to the occurrence of the oldest known microfossils, the successions at the North Pole Dome area have attracted interest from many researchers. The Paleoarchean successions (Warrawoona Group) mainly comprise mafic‐ultramafic greenstones with intercalated cherts and felsic lavas. Age constraints on the sediments have been mainly based on zircon U–Pb geochronology. However, many zircon grains have suffered from metamictization and contain anomalously high contents of common Pb, which makes interpretation of the U–Pb data complicated. In order to provide more convincing chronological constraints, an U–Pb Concordia age is widely accepted as the best estimate. Most zircons separated from two adamellites also suffered from severe metamictization. In our analyses, less metamictized domains were selected using a pre‐ablation technique in conjunction with elemental mapping, and then their U–Pb isotopic compositions were determined with a laser ablation inductively coupled plasma mass spectrometry. Most analyzed domains contained certain amounts of common Pb (204Pb/206Pb > 0.000 1), whereas three and five U–Pb data points with less common Pb (204Pb/206Pb < 0.000 1) were obtained. These U–Pb datasets yielded U–Pb Concordia ages of ca 3 445 Ma and 3 454 Ma, respectively. These ages represent the timing of the adamellite intrusion, and constrain the minimum depositional age of the Warrawoona Group. In addition, a single xenocrystic zircon grain showed a 207Pb/206Pb age of ca 3 545 Ma, supporting the idea that the sialic basement of the Pilbara Craton existed prior to 3 500 Ma. The in situ U–Pb zircon dating combined with the pre‐ablation technique has the potentials to identify non‐metamictized parts and to yield precise and accurate geochronological data even from partially metamictized zircons.
Keywords:common Pb  metamict  North Pole Dome  U–  Pb Concordia age  U–  Pb zircon geochronology
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