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Electron probe (Ultrachron) microchronometry of metamorphic monazite: Unraveling the timing of polyphase thermotectonism in the easternmost Wyoming Craton (Black Hills, South Dakota)

Peter S. Dahl^1,*, Michael P. Terry², Michael J. Jercinovic³, Michael L. Williams³, Michael A. Hamilton^4,, Kenneth A. Foland⁵, Susanne M. Clement^6, and LaVerne M. Friberg⁶

¹ Department of Geology, Kent State University, Kent, Ohio 44242, U.S.A.
² Bayerisches Geoinstitut, Universität Bayreuth, D-95440 Bayreuth, Germany
³ Department of Geosciences, University of Massachusetts, Amherst, Massachusetts 01003, U.S.A.
⁴ J.C. Roddick Ion Microprobe (SHRIMP II) Laboratory, Geological Survey of Canada, 601 Booth St., Ottawa, Ontario, K1A 0E8, Canada
⁵ Department of Geological Sciences, The Ohio State University, Columbus, Ohio 43210, U.S.A.
⁶ Department of Geology, The University of Akron, Akron, Ohio 44325, U.S.A.

Correspondence: ^* E-mail: pdahl{at}kent.edu

A metapelite from the easternmost Wyoming craton (Black Hills, South Dakota) has been analyzed by microstructural methods to unravel polyphase deformational history associated with 1800–1700 Ma assembly of southern Laurentia. Three deformational fabrics are recognized in oriented thin sections: an ENE-trending S₁ fabric, preserved as oblique inclusion trails in garnet porphyroblasts; a NNW-trending S₂ fabric, preserved as microlithons in the rock matrix; and a flattening fabric, S₃, which transposed S₁-S₂ and dominates the matrix. A complex monazite porphyroblast has been analyzed in situ with the electron microprobe (Ultrachron) to constrain the timing of S₁-S₃ fabric formation associated with monazite growth. The core of this grain uniquely preserves the S₁-S₂ fabrics as sigmoidal inclusion trails. The mean total-Pb age of this domain is 1750 ± 10 Ma (all dates reported at 95% confidence; n = 39 spots), which is equivalent to the published ²⁰⁷Pb/²⁰⁶Pb age for the same domain. These results validate the total-Pb dating method in general and the Ultrachron in particular, for reliable age determination in low-Th monazite, and are interpreted as 1750 Ma minimum ages for the S₁-S₂ fabrics and sequential, D₁-D₂ collisional events that imposed them (~N-directed arc accretion and ~E-W continental collision, respectively). A higher-Th, Y rim of this same "Rosetta" grain truncates the S₁-S₂ sigmoid, and is associated with resorption textures in garnet porphyroblasts, coupled release of Y, and an S₃ fabric that pervasively overprinted S₁-S₂ in the rock matrix. The mean Ultrachron date of this domain is 1692 ± 5 Ma (n = 17 spots), which is slightly younger that the published isotopic age for all monazite rims combined. These results support a ~1715–1690 Ma timeframe for localized doming (D₃) related to granite magmatism, the onset of which has been dated independently at 1715 ± 3 Ma. The timing of post-D₃ cooling through 350 and 300 °C is constrained by ⁴⁰Ar/³⁹Ar dates of ~1610 and ~1480 Ma obtained for separates of D₃ matrix muscovite and biotite, respectively, which are interpreted as closure ages.

This study shows that fabrics in poly-deformed rocks can be dated by linking monazite spot ages to key microtextures. Further, the results of this micrometer-scale study enhance previous knowledge of local thermotectonism (Black Hills) and regional terrane assembly (Laurentia).

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