Journal ArticleDOI
Magnetite ore formed during regional metamorphism, Ausable magnetite district, New York
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In this paper, the Ausable magnetite district of New York has been studied and a geological and geochemical study of several magnetite deposits in the district has been carried out.Abstract:
This investigation is a geological and geochemical study of several magnetite deposits in the Ausable magnetite district of New York. Geologic maps were prepared of part of the district and of these deposits, and laboratory investigations were carried out on the host rock gneiss and its constituent minerals.The Lyon Mountain granite gneiss appears to have been the source rock from which the Palmer Hill and Jackson Hill ore bodies were derived. Modal analyses indicate that accessory magnetite in the gneiss decreases near the ore bodies. Here, also, clinopyroxene has been recrystallized to garnet plus silica and iron. During regional metamorphism, accessory magnetite, and iron from fractured accessory magnetite and from recrystallized clinopyroxene, migrated as a dispersed phase of ions, molecules, or atoms along grain boundaries to shear and crush zones and were concentrated into magnetite bodies. The ore zones were regions of low pressure and high oxygen activity.In skarn areas in the northern part of the map area, small magnetite bodies apparently formed when clinopyroxene and hornblende gneisses rich in iron were recrystallized to yield pyroxene skarn relatively poor in iron plus magnetite.read more
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Hafnium isotopes in zircon: A tracer of fluid-rock interaction during magnetite–apatite (“Kiruna-type”) mineralization
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TL;DR: In this article, the Lyon Mountain Granite in the northeastern Adirondack Mountains of New York State has undergone multiple episodes of hydrothermal fluid alteration and Fe mineralization, and the integrated approach of field work, microscopy, whole-rock and mineral-scale geochemistry has proven to be useful for recognizing the type, timing, and sequence of complex Na and K fluid alteration related to the development of Kiruna-type magnetite-apatite deposits and the tectonic evolution of the granites that host these deposits.
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