In-situ LA-ICP-MS trace elemental analyzes of magnetite: The Tieshan skarn Fe-Cu deposit, Eastern China

The Tieshan Fe-Cu deposit is located in the Edong district, which represents the westernmost and largest region within the Middle-Lower Yangtze River Metallogenic Belt (YRMB), Eastern China. Skarn Fe-Cu mineralization is spatially associated with the Tieshan pluton, which intruded carbonates of the Lower Triassic Daye Formation. Ore bodies are predominantly located along the contact between the diorite or quartz diorite and marbles/dolomitic marbles. This study investigates the mineral chemistry of magnetite in different skarn ore bodies. The contrasting composition of magnetite obtained are used to suggest different mechanisms of formation for magnetite in the western and eastern part of the Tieshan Fe-Cu deposit. A total of 178 grains of magnetite from four magnetite ore samples are analyzed by LA-ICP-MS, indicating a wide range of trace element contents, such as V (13.61-542.36 ppm), Cr (0.003-383.96 ppm), Co (11.12-187.55 ppm) and Ni (0.19-147.41 ppm), etc. The Ti/V ratio of magnetite from the Xiangbishan (western part of the Tieshan deposit) and Jianshan ore body (eastern part of the Tieshan deposit) ranges from 1.32 to 5.24, and 1.31 to 10.34, respectively, indicating a relatively reduced depositional environment in the Xiangbishan ore body. Incorporation of Ti and Al in magnetite are temperature dependent, which hence propose that the temperature of hydrothermal fluid from the Jianshan ore body (Al = 3747-9648 ppm, with 6381 ppm as an average; Ti = 381.7-952.0 ppm, with 628.2 ppm as an average) was higher than the Xiangbishan ore body (Al = 2011-11122 ppm, with 5997 ppm as an average, Ti = 302.5-734.8, with 530.8 ppm as an average), indicating a down-temperature precipitation trend from the Jianshan ore body to the Xiangbishan ore body. In addition, in the Ca + Al + Mn versus Ti + V diagram, magnetite is plotted in the skarn field, consideration with the ternary diagram of TiO2-Al2O3-MgO, proposing that the magnetite ores are formed by replacement, instead of directly crystallized from iron oxide melts, which provide a better understanding regarding the composition of ore fluids and processes responsible for Fe mineralization in the Tieshan Fe-Cu deposit.