A primitive dark inclusion with radiation-damaged silicates in the Ningqiang carbonaceous chondrite
Author
Zolensky, M.Nakamura, K.
Weisberg, M. K.
Prinz, M.
Nakamura, T.
Ohsumi, K.
Saitow, A.
Mukai, M.
Gounelle, M.
Issue Date
2003-01-01
Metadata
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Zolensky, M., Nakamura, K., Weisberg, M. K., Prinz, M., Nakamura, T., Ohsumi, K., ... & Gounelle, M. (2003). A primitive dark inclusion with radiation‐damaged silicates in the Ningqiang carbonaceous chondrite. Meteoritics & Planetary Science, 38(2), 305-322.Publisher
The Meteoritical SocietyJournal
Meteoritics & Planetary ScienceAdditional Links
https://meteoritical.org/Abstract
A petrologic and TEM study of a remarkable dark inclusion (DI) in the Ningqiang CV3 chondrite reveals that it is a mixture of highly primitive solar nebula materials. The DI contains two lithologies. The first, lithology A, contains micron-sized olivine and pyroxene grains rimmed by amorphous materials with compositions similar to the underlying crystalline grains. The second, lithology B, appears to preserve the mineralogy of lithology A before formation of the amorphous rims. Overall, the Ningqiang DI appears to record the following processes: 1) formation (condensation and Fe-enrichment) of olivine crystals in the nebula with compositions of Fo4262; 2) irradiation, resulting in amorphitization of the olivine and pyroxene to varying degrees; 3) partial annealing, resulting in formation of fairly large, euhedral olivine and pyroxene grains with remnant amorphous sharply-bounded rims; 4) in some cases, prolonged annealing, resulting in the formation of microcrystalline olivine or pyroxene rims. The latter annealing would have been a natural consequence of irradiation near the critical temperature for olivine; and 5) mixture of the above materials (lithology A) with nebular condensate high-Ca pyroxene and olivine, which escaped nebular processing, to become lithology B. We suggest that the amorphous rims in lithology A formed in an energetic solar event such as a bi-polar outflow or FU-orionis flare.Type
Articletext
Language
enISSN
1945-5100ae974a485f413a2113503eed53cd6c53
10.1111/j.1945-5100.2003.tb00266.x