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Strong remanent magnetization in pyrrhotite: A structurally controlled example from the Paleoproterozoic Tanami orogenic gold province, northern Australia

journal contribution
posted on 2023-05-26, 11:02 authored by Nicholas DireenNicholas Direen, Pfeiffer, KM, Schmidt, PW
Rocks associated with an orogenic gold system in the Paleoproterozoic Granites/Tanami Inlier of northern Australia exhibit strong natural remanent magnetism, identifiable in regional aeromagnetic data. Petrographical analysis indicates the two dominant magnetic minerals in the rocks of this region are multidomain magnetite and monoclinic pyrrhotite. Chemical analysis using an electron microprobe has determined that the magnetite and pyrrhotite are stoichiometrically pure, without significant elemental substitution. Alternating field demagnetization, Curie Temperature, and hysteresis analysis indicates that the remanently magnetized phase is monoclinic pyrrhotite with low magnetic susceptibility. In contrast, multidomain magnetites lack remanence and have high magnetic susceptibilities. Pyrrhotite is preserved in the rock mass along with other sulfide minerals as millimeter-scale veins parallel to regionally developed, penetrative mylonitic shear bands (c-planes) formed during sulfide remobilization in thewaning, cooling stages of hydrothermal Au deposition. In contrast, magnetite grains exhibit porphyroblastic textures, consistent with formation during prograde to peakmetamorphism, indicating formation prior to pyrrhotite, earlier in the orogenic cycle. Because of the lowCurie Temperature (ca. 325 ‚Äöv=¬¿C) of pyrrhotite, it is therefore likely that remanent magnetization effects observed in aeromagnetic images of the Tanami Inlier, are associated with structures intimately related to the late stages of Au mineralization during retrograde greenschistmetamorphism after the peak thermal point of the orogenic cycle.

History

Publication title

Precambrian Research

Volume

165

Article number

1-2'

Number

1-2'

Pagination

96-106

ISSN

0301-9268

Publication status

  • Published

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The definitive version is available at http://www.sciencedirect.com

Repository Status

  • Restricted

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