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Occurrence and Deformation of Fe-Ti ores from the Proterozoic Hadong Anorthosites, Korea  

Jung, Jae-Sung (Department of Geological Sciences, Pusan National University)
Kim, Jong-Sun (Department of Geological Sciences, Pusan National University)
Cho, Hyeong-Seong (Department of Geological Sciences, Pusan National University)
Song, Cheol-Woo (Department of Geological Sciences, Pusan National University)
Son, Moon (Department of Geological Sciences, Pusan National University)
Ryoo, Chung-Ryul (Mineral Resources Research Division, Korea Institute of Geoscience and Mineral Resources)
Chi, Sei-Jeong (Mineral Resources Research Division, Korea Institute of Geoscience and Mineral Resources)
Kim, In-Soo (Department of Geological Sciences, Pusan National University)
Publication Information
The Journal of the Petrological Society of Korea / v.19, no.1, 2010 , pp. 31-49 More about this Journal
Abstract
Nearly NS-trending Fe-Ti ore bodies intermittently occur in the Hadong anorthosites, south Korea, irrespective of the rock types of the anorthosites. In order to determine their occurrence mode and deformation history, we collected the features of occurrence and geological structures in the field, petrographic features using thin sections of the principal constituent rocks, and geochemical data of ilmenites in the ore body using electron probe microanalysis. Fe-Ti ore bodies examined in this study are divided into two types: dike- and lamina-types. It is steadily supported that the dike-type has intruded into the anorthositic rocks after their emplacement and solidification. And the laminar-type is probably a result of the mylonitization and transposition of the dike-type ore bodies parallel to the shear planes, due to later strong dextral ductile shearing. In the meantime, the Fe-Ti ore bodies have experienced the stronger dextral shearing in the more northern part of the study area, i.e. Cheongryong-ri, Wolhoeng-ri, Jonghwa-ri, and Jayangri and Baekun-ri in ascending order of its strength, together with the less content of $TiO_2$. All ilmenites of the ore bodies have very similar chemical composition, as pure ilmenite of 52~55 wt.% in $TiO_2$ content, irrespective of the occurrence mode and degree of later ductile shearing of the ore bodies. And they didn't experience to exsolve into magnetite. The structural data indicate that the Hadong anorthosites have deformed by NNE-trending folding, intrusion of the Fe-Ti ore bodies, NNW~NNE-trending dextral ductile shearing, NW~NNW-trending sinistral semi-brittle shearing, and intrusion of NNE~NE-trending mafic dykes in descending order of chronology after the formation of foliation of the anorthositic rocks. The foliation is interpreted as a result of the accumulation of crystals that settle out from the magma by the action of gravity.
Keywords
Hadong anorthosites; Fe-Ti ore; dyke-type; lamina-type; intrusion; shearing;
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