Tin-bearing magnetite with nanoscale Mg-Si defects: Evidence for the early stages of mineralization in a skarn system

Abstract: Tin-bearing magnetite is reported from several types of magmatic-hydrothermal ore deposits. The question of whether tin is incorporated within solid solution, as Sn4+, or as nanoinclusions remains open, however. We report a micron- to nanoscale investigation of Sn (Mg, Si)-bearing magnetite from serpentinite in the Dulong Zn-Sn-In skarn, South China, with the dual aims of understanding the mechanisms involved in accommodating Sn and associated elements into the Fe-oxide, and the inferences that this carries fo… Show more

“…2a, b). Such twins, when in abundance, can concentrate trace elements, Si, or Si-Mg as reported for EF magnetite or skarn magnetite [16,17]. Twin planes can also assist conversion of magnetite into hematite and vice-versa [18].…”

Cation Inversion in Slag Magnetite: Energy Loss Measurements of Fe-L3 Edge Shift between Atom Columns

“…2a, b). Such twins, when in abundance, can concentrate trace elements, Si, or Si-Mg as reported for EF magnetite or skarn magnetite [16,17]. Twin planes can also assist conversion of magnetite into hematite and vice-versa [18].…”

Cation Inversion in Slag Magnetite: Energy Loss Measurements of Fe-L3 Edge Shift between Atom Columns

Linkage of Mineral Inclusions and Zoning of Magnetite with Fluid Evolution of Hydrothermal Systems: A Case Study of the Fenghuangshan Cu-Fe-Au Skarn Deposit, Eastern China

Trace element systematics of magnetite from the Starra iron oxide‑copper gold deposits reveals early fluid conditions characteristic for Cu mineralization