Evolution of the Blue Ridge basement complex in the eastern Great Smoky Mountains: Evidence from zircon U-Pb geochronology and Nd-Pb isotope geochemistry of basement gneisses

D. P. Moecher, E. D. Anderson, D. F. Loughry, R. J. Quinn, E. A. Larkin, K. B. Walsh, S. D. Samson, A. M. Satkoski, E. Tohver

Research output: Chapter in Book/Report/Conference proceedingConference contributionpeer-review

5 Scopus citations

Abstract

The eastern Great Smoky Mountains basement complex consists of the following components: (1) ca. 1350-1325 Ma orthogneiss and mafic xenoliths that represent some of the oldest crust in Appalachian Grenville massifs (similar to “pre-Grenville” basement components in the Adirondack, Green Mountain, Hudson Highland, and Shenandoah massifs); (2) ca. 1150 Ma augen orthogneisses and granitic orthogneisses correlating with the Shawinigan phase of Grenville magmatism; and (3) paragneisses (cover rocks) that have either pre- or syn-Grenville (i.e., Mesoproterozoic) versus post-Grenville (Neoproterozoic) depositional ages, and that experienced Taconian metamorphism and migmatization. Mesoproterozoic paragneisses contain major zircon age modes that require a component of Proterozoic crust in the source region. The Neoproterozoic paragneisses exhibit the archetypical “Grenville doublet” in detrital zircon age distributions that matches the age distribution of Ottawan and Shawinigan magmatic/metamorphic events in eastern Laurentia. Most zircon U-Pb age systematics exhibit variable lead loss interpreted to result from high-grade Taconian (ca. 450 Ma) regional metamorphism and migmatization. Neodymium mantle model ages (T DM ) for ortho- and paragneisses range from 1.8 to 1.6 Ga, indicating that all rocks were derived from recycling of Proterozoic crust (i.e., they are not juvenile), which is consistent with Proterozoic detrital zircon ages in pre- to syn-Grenville paragneisses. Lead isotope compositions confi rm the presence of an exotic (Amazonian) crustal component in the source region for the protoliths of the pre-Grenville orthogneisses and xenoliths, and that this exotic component was incorporated to varying degrees in the evolution of the basement complex. The oldest age component may represent an Amazonian pre-Grenville analog to the ca. 1.35 Ga native Laurentian crust present in Adirondack and northern Appalachian basement massifs.

Original languageEnglish
Title of host publicationGSA Field Guides
Pages121-139
Number of pages19
ISBN (Electronic)9780813756509
DOIs
StatePublished - Mar 29 2018

Publication series

NameGSA Field Guides
Volume50

Bibliographical note

Publisher Copyright:
© 2018 The Geological Society of America. All rights reserved.

Funding

Research presented in this field-trip guide was supported by National Science Foundation research grants EAR 0635688 and 1447605, and instrumentation grants EAR 0824713 and 1551341; U.S. Geological Survey EDMAP grants G14AC000113 and G12AC20190; the Ferm fund of the University of Kentucky's Department of Earth and Environmental Sciences; and the Geological Society of America Student Research Grants program. Thanks to a thorough anonymous reviewer for catching all the typos in the submitted draft. We appreciate the encouragement and support of Bob Hatcher, Scott Southworth, Carl Merschat, and Bart Cattanach throughout the course of this research. Research presented in this field-trip guide was supported by National Science Foundation research grants EAR 0635688 and 1447605, and instrumentation grants EAR 0824713 and 1551341; U.S. Geological Survey EDMAP grants G14AC000113 and G12AC20190; the Ferm fund of the University of Kentucky’s Department of Earth and Environmental Sciences; and the Geological Society of America Student Research Grants program. Thanks to a thorough anonymous reviewer for catching all the typos in the submitted draft. We appreciate the encouragement and support of Bob Hatcher, Scott Southworth, Carl Merschat, and Bart Cattanach throughout the course of this research.

FundersFunder number
Ferm fund of the
National Science Foundation Information Technology ResearchEAR 0824713
Division of Earth Sciences1551341, 0824713
U.S. Geological SurveyG12AC20190, G14AC000113
Geological Society of America
Department of Earth and Environmental Sciences, Open University
National Science Foundation (NSF)1447605, EAR 0635688

    ASJC Scopus subject areas

    • Geology
    • Earth-Surface Processes
    • Stratigraphy
    • Paleontology

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