Consortium study of the unusual H chondrite regolith breccia, Noblesville

Autor: Marilyn M. Lindstrom, Ludolf Schultz, E. S. Michlovich, S. Vogt, Derek W. G. Sears, John F. Wacker, Duncan S. Fisher, Cecilia Satterwhite, T. Loeken, David W. Mittlefehldt, P. Scherer, Michael E. Zolensky, Michael E. Lipschutz, Roger G. Burns, Paul H. Benoit, Stephen F. Wolf, R.T. Dodd
Rok vydání: 1993
Předmět:
Zdroj: Meteoritics. 28:528-537
ISSN: 0026-1114
Popis: The Noblesville meteorite is a genomict, regolith breccia (H6 clasts in H4 matrix). Moessbauer analysis confirms that Noblesville is unusually fresh, not surprising in view of its recovery immediately after its fall. It resembles 'normal' H4-6 chondrites in its chemical composition and induced thermoluminescence (TL) levels. Thus, at least in its contents of volatile trace elements, Noblesville differs from other H chondrite, class A regolith breccias. Noblesville's small pre-atmospheric mass and fall near solar maximum and/or its peculiar orbit (with perihelion less than 0.8 AU as shown by natural TL intensity) may partly explain its levels of cosmogenic radionuclides. Its cosmic ray exposure age of about 44 Ma is long, is equalled or exceeded by less than 3 percent of all H chondrites, and also differs from the 33 +/- 3 Ma mean exposure age peak of other H chondrite regolith breccias. While Noblesville is now among the chondritic regolithic breccias richest in solar gases, elemental ratios indicate some loss, especially of He, perhaps by impacts in the regolith that heated individual grains. While general shock-loading levels in Noblesville did not exceed 4 GPa, individual clasts record shock levels of 5-10 GPa, doubtless acquired prior to lithification of the whole-rock meteoroid.
Databáze: OpenAIRE