Primary Feldspar in the Semarkona LL3.00 Chondrite: Constraints on Chondrule Formation and Secondary Alteration

Jonathan Lewis, Rhian Jones

    Research output: Contribution to journalArticlepeer-review

    142 Downloads (Pure)

    Abstract

    Feldspar in ordinary chondrites (OCs) is often associated with thermal metamorphism, as a secondary mineral that forms from the crystallization of matrix and chondrule mesostasis. However, studies of feldspar in equilibrated OCs show that there is a range of plagioclase compositions within chondrules, some of which may be primary products of chondrule crystallization. It is important to recognize primary feldspar within chondrules because it can be used to help understand the secondary effects of thermal metamorphism and aqueous alteration. The presence of primary feldspar also provides important petrologic constraints on chondrule formation timescales. We undertook a careful study of Semarkona (LL3.00) and observed feldspar in 18% of chondrules. The feldspar is plagioclase covering a wide range of compositions (An2-An99) with little K-feldspar component (<Or3). We show that plagioclase is a primary igneous phase, based on grain morphology and compositions consistent with growth from a melt having the bulk compositions of the host chondrules. Based on experimental studies, the presence of plagioclase suggests chondrules cooled slowly at temperatures close to the solidus. We also observed several secondary features consistent with the aqueous alteration. These features include zoning of Na and Ca in plagioclase, heterogeneity in plagioclase compositions in altered chondrules, development of porosity from the dissolution of chondrule glass, and alteration of glass to phyllosilicates. Alteration of major Al-bearing phases, like plagioclase and glass, has important implications for interpretations of ages derived from Al-Mg dating of chondrules, if they have been affected by secondary processes.
    Original languageEnglish
    JournalMetoritics and Planetary Science
    Volume54
    Issue number1
    Early online date3 Oct 2018
    DOIs
    Publication statusPublished - 13 Jan 2019

    Fingerprint

    Dive into the research topics of 'Primary Feldspar in the Semarkona LL3.00 Chondrite: Constraints on Chondrule Formation and Secondary Alteration'. Together they form a unique fingerprint.

    Cite this