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Vertical zonation of the Barcroft granodiorite, White Mountains, California: Implications for magmatic processes

  • Eric C. Ferré EMAIL logo , Karen J. Michelsen , W. Gary Ernst , John D. Boyd and Edgardo Canon-Tapia
Published/Copyright: April 2, 2015
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American Mineralogist
From the journal American Mineralogist Volume 97 Issue 7

Abstract

Petrological and geochemical variations within plutons reflect their magmatic and emplacement histories. Here we present new magnetic susceptibility (Km) data on the ~163 Ma Barcroft granodiorite pluton in eastern California, which is exceptionally well exposed, especially in the vertical dimension. The Barcroft pluton offers exposures over a total of 2560 m of elevation and is an appropriate target to investigate variations of magnetic susceptibility. In ferromagnetic plutonic rocks, Km reflects mainly the abundance of magnetite, whereas in paramagnetic plutonic rocks it reflects primarily the abundance of mafic silicates. Magnetic susceptibility is also determined by magmatic processes such as crystal fractionation and by intensive parameters such as oxygen fugacity. Other magmatic processes, including magma replenishment, hybridization, and host-rock assimilation, may also influence Km variations. A first data set is based on 622 core samples that were measured in the laboratory. Our second data set comes from 1960 field measurements collected at 196 stations between ~1600 and 4000 m elevation. Detailed surveys were performed at the outcrop scale to evaluate the impact of the ~100 Ma McAfee Creek intrusion on the Barcroft background magnetic susceptibility. The combined data sets display a broad positive correlation between Km and elevation. Pluton mineralogy also appears to vary with elevation but is more difficult to quantify. At the outcrop scale, small dikes of the McAfee Creek granite transect the pluton and are responsible for a decrease in Km of the host granodioritic rocks toward the dikes due to late-stage magmatic or hydrothermal alteration. A contour map of Km shows a high degree of correlation with local topographic features such as deep canyons. Magnetic susceptibility of the Barcroft mafic rocks varies at the outcrop scale as a result of presence of petrological heterogeneities. However, these small-scale variations are embedded in a broader magnetic susceptibility trend due primarily to elevation, which reflects petrologic stratification of the pluton. The late-magmatic and hydrothermal alterations described in previous studies do not affect the spatial distribution of magnetic susceptibility. We propose that vertical increase of Km was primarily caused by crystal fractionation or another magmatic differentiation mechanism rather than by an externally driven increase in oxygen fugacity toward the roof of the intrusion.

Keywords: Magnetic susceptibility; granodiorite; pluton; zonation; iron oxides
Received: 2011-9-26
Accepted: 2012-3-4
Published Online: 2015-4-2
Published in Print: 2012-7-1

© 2015 by Walter de Gruyter Berlin/Boston

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https://doi.org/10.2138/am.2012.4013
Keywords for this article
Magnetic susceptibility; granodiorite; pluton; zonation; iron oxides

Articles in the same Issue

  1. Mercury (Hg) mineral evolution: A mineralogical record of supercontinent assembly, changing ocean geochemistry, and the emerging terrestrial biosphere
  2. The 3.65 Å phase, MgSi(OH)6: Structural insights from DFT-calculations and T-dependent IR spectroscopy
  3. Vertical zonation of the Barcroft granodiorite, White Mountains, California: Implications for magmatic processes
  4. Minerals in cement chemistry: A single-crystal neutron diffraction and Raman spectroscopic study of thaumasite, Ca3Si(OH)6(CO3)(SO4)·12H2O
  5. A new high-pressure phase transition in natural Fe-bearing orthoenstatite
  6. Aluminum solubility in TiO2 rutile at high pressure and experimental evidence for a CaCl2-structured polymorph
  7. First record and timing of UHP metamorphism from zircon in the Xitieshan terrane: Implications for the evolution of the entire North Qaidam metamorphic belt
  8. Lead in zircon at the atomic scale
  9. Characterization of fluor-chlorapatites by electron probe microanalysis with a focus on time-dependent intensity variation of halogens
  10. An inversion-based self-calibration for SIMS measurements: Application to H, F, and Cl in apatite
  11. Second boiling effects on the Al-content of hornblende rims from an exhumed Cretaceous arc pluton, Stewart Island, New Zealand
  12. Heat transfer in plagioclase feldspars
  13. Transport properties and equation of state of 1-bar eutectic melt in the system CaAl2Si2O8-CaMgSi2O6 by molecular dynamics simulation
  14. High-pressure behavior of zoisite
  15. A first-principle investigation of antigorite up to 30 GPa: Structural behavior under compression
  16. Reynoldsite, Pb2Mn4+2 O5(CrO4), a new phyllomanganate-chromate from the Blue Bell claims, California and the Red Lead mine, Tasmania
  17. A new cubic perovskite in PbGeO3 at high pressures
  18. Manganoquadratite, AgMnAsS3, a new manganese-bearing sulfosalt from the Uchucchacua polymetallic deposit, Lima Department, Peru: Description and crystal structure
  19. Leucostaurite, Pb2[B5O9]Cl·0.5H2O, from the Atacama Desert: The first Pb-dominant member of the hilgardite group, and micro-determination of boron in minerals by PIGE
  20. Synthetic LiAlGe2O6: The first pyroxene with P21/n symmetry
  21. Panguite, (Ti4+,Sc,Al,Mg,Zr,Ca)1.8O3, a new ultra-refractory titania mineral from the Allende meteorite: Synchrotron micro-diffraction and EBSD
  22. Buseckite, (Fe,Zn,Mn)S, a new mineral from the Zakłodzie meteorite
  23. Experimental calibration of the effect of H2O on plagioclase crystallization in basaltic melt at 200 MPa
  24. High-pressure and high-temperature titanium solution mechanisms in silicate-saturated aqueous fluids and hydrous silicate melts
  25. Thermodynamic behavior and properties of katoite (hydrogrossular): A calorimetric study
  26. Graphite in the martian meteorite Allan Hills 84001
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