Formation of chondrules in a moderately high dust enriched disk: Evidence from oxygen isotopes of chondrules from the Kaba CV3 chondrite

Oxygen three-isotope analysis by secondary ion mass spectrometry of chondrule olivine and pyroxene in combination with electron microprobe analysis were carried out to investigate 24 FeO-poor (type I) and 2 FeO-rich (type II) chondrules from the Kaba (CV) chondrite. The Mg#'s of olivine and pyroxene in individual chondrules are uniform, which confirms that Kaba is one of the least thermally metamorphosed CV3 chondrites. The majority of chondrules in Kaba contain olivine and pyroxene that show indistinguishable Delta O-17 values (= delta O-17 0.52 x delta O-18) within analytical uncertainties, as revealed by multiple spot analyses of individual chondrules. One third of chondrules contain olivine relict grains that are either O-16-rich or O-16-poor relative to other indistinguishable olivine and/or pyroxene analyses in the same chondrules. Excluding those isotopically recognized relicts, the mean oxygen isotope ratios (delta O-18, delta O-17, and Delta O-17) of individual chondrules are calculated, which are interpreted to represent those of the final chondrule melt. Most of these isotope ratios plot on or slightly below the primitive chondrule mineral (PCM) line on the oxygen three-isotope diagram, except for the pyroxene-rich type II chondrule that plots above the PCM and on the terrestrial fractionation line. The Delta O-17 values of type I chondrules range from similar to-8 parts per thousand to similar to-4 parts per thousand; the pyroxene-rich type II chondrule yields similar to 0 parts per thousand, the olivine-rich type II chondrule similar to-2 parts per thousand. In contrast to the ungrouped carbonaceous chondrite Acfer 094, the Yamato 81020 CO3, and the Allende CV3 chondrite, type I chondrules in Kaba only possess Delta O-17 values below -3 parts per thousand and a pronounced bimodal distribution of Delta O-17 values, as evident for those other chondrites, was not observed for Kaba. Investigation of the Mg#-Delta O-17 relationship revealed that Delta O-17 values tend to increase with decreasing Mg#'s, similar to those observed for CR chondrites though data from Kaba cluster at the high Mg# (>98) and the low Delta O-17 end (-6 parts per thousand and -4 parts per thousand). A mass balance model involving O-16-rich anhydrous dust (Delta O-17= -8 parts per thousand) and O-16-poor water ice (Delta O-17= +2 parts per thousand) in the chondrule precursors suggests that type I chondrules in Kaba would have formed in a moderately high dust enriched protoplanetary disk at relatively dry conditions (similar to 50-100x dust enrichment compared to Solar abundance gas and less than 0.6 x ice enhancement relative to CI chondritic dust). The olivine-rich type II chondrule probably formed in a disk with higher dust enrichment (similar to 2000 x Solar). (C) 2017 Elsevier Ltd. All rights reserved.