182Hf‐182W chronometry and the early evolution history in the acapulcoite‐lodranite parent body |
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| Authors: | Der‐Chuen LEE |
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| Institution: | Institute of Earth Sciences, Academia Sinica, Taipei, 115 Taiwan, R.O.C. |
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| Abstract: | Abstract— An acapulcoite, Northwest Africa (NWA) 725, a transitional acapulcoite, Graves Nunataks (GRA) 95209, and a lodranite, NWA 2235, have been studied with the short‐lived chronometer 182Hf‐182W system in order to better constrain the early evolution history in the acapulcoite‐lodranite parent body. Unlike the more evolved achondrites originating from differentiated asteroids—e.g., eucrites and angrites—bulk rock acapulcoites and lodranite are characterized by distinct 182W deficits relative to the terrestrial W, as well as to the undifferentiated chondrites, εw varies from ?2.7 to ?2.4. This suggests that live‐182Hf was present during the formation of acapulcoites and lodranites, and their parent body probably had never experienced a global melting event. Due to the large uncertainties associated with the isochron for each sample, the bulk isochron that regressed through the mineral separates from all 3 samples has provided the best estimate to date for the timing of metamorphism in the acapulcoite‐lodranite parent body, 5 (+6/‐5) Myr after the onset of the solar system. It is thus inconclusive whether acapulcoites and lodranites have shared the same petrogenetic origin, based on the Hf‐W data of this study. Nevertheless, the formation of acapulcoite‐lodranite clan appears to have post‐dated the metal‐silicate segregation in differentiated asteroids. This can be explained by a slower accretion rate for the acapulcoite‐lodranite parent body, or that it had never accreted to a critical mass that could allow the metal‐silicate segregation to occur naturally. |
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