Abstract
The Chadormalu magnetite-apatite deposit in Bafq metallogenic province, Central Iran, is hosted in the late Precambrian-lower Cambrian volcano-sedimentary rocks with sodic, calcic, and potassic alterations characteristic of iron oxide copper-gold (IOCG) and iron oxide-apatite (IOA) ore systems. Apatite occurs as scattered irregular veinlets and disseminated grains, respectively, within and in the marginal parts of the main ore-body, as well as apatite-magnetite veins in altered wall rocks. Textural evidence (SEM-BSE images) of these apatites shows primary bright, and secondary dark areas with inclusions of monazite/xenotime. The primary, monazite-free fluorapatite contains higher concentrations of Na, Si, S, and light rare earth elements (LREE). The apatite was altered by hydrothermal events that led to leaching of Na, Si, and REE + Y, and development of the dark apatite. The bright apatite yielded two U-Pb age populations, an older dominant age of 490 ± 21 Ma, similar to other iron deposits in the Bafq district and associated intrusions, and a younger age of 246 ± 17 Ma. The dark apatite yielded a U-Pb age of 437 ± 12 Ma. Our data suggest that hydrothermal magmatic fluids contributed to formation of the primary fluorapatite, and sodic and calcic alterations. The primary apatite reequilibrated with basinal brines in at least two regional extensions and basin developments in Silurian and Triassic in Central Iran.
Highlights
The formation of apatite-bearing iron deposits is a current topic of debate
We have focused on the characteristics of the three main apatite types, including
Several lines of evidence including field observations, textural and chemical data from apatites from the Chadormalu iron oxide-apatite (IOA) deposit in this study demonstrate that: The Chadormalu IOA deposit is hosted within late Precambrian-Cambrian intrusive and extrusive rocks, which have undergone widespread sodic, calcic and ferroan, and potassic (K-feldspar and sericitization) alteration, as well as carbonatization
Summary
The formation of apatite-bearing iron deposits is a current topic of debate. Iron oxide-apatite (IOA) deposits [2]. Some researchers (e.g., [3,4,5,6] included the Kiruna-type apatite-bearing Fe-oxide deposits in the wide range of the iron oxide copper-gold (IOCG) deposits. The deposits are considered by other researchers (e.g., [7,8]) as a distinct type of iron deposits, known as iron oxide-apatite (IOA) ores. Apatite is a common accessory mineral in a wide range of magmatic, sedimentary, and metamorphic rocks. Apatites can serve as a useful indicator mineral for IOCG- and IOA-type deposits, recording the origin and nature of the associated host rocks and the volatile contents of the ore Minerals 2018, 8, 87; doi:10.3390/min8030087 www.mdpi.com/journal/minerals
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