Mn-RICH ILMENITE FROM THE SULLIVAN Pb<0150>Zn<0150>Ag DEPOSIT, BRITISH COLUMBIA
SHAO-YONG JIANG and MARTIN R. PALMER
Department of Geology, University of Bristol, Bristol BS8 1RJ, U.K.
JOHN F. SLACK
U.S. Geological Survey, National Center, Mail Stop 954, Reston, Virginia 22092, U.S.A.
Abstract
Electron-microprobe analyses of 76 ilmenite grains from 13 locations in the footwall, hangingwall, and ore zone of the Sullivan Pb-Zn-Ag deposit,
Kimberley, British Columbia, and from regionally developed tourmalinite of the Middle Proterozoic Aldridge Formation show two different
modes that reflect two stages of formation. The first stage of ilmenite formation occurred as a result of greenschist-facies regional metamorphism,
which also produced the associated Mn-rich garnet. Ilmenite from this stage forms inclusions within garnet and has a relatively low Mn content
(<5.5 wt% MnO), owing to the preferential partitioning of Mn into the garnet. A second metamorphic or hydrothermal event resulted in the
formation of ilmenite-bearing veinlets (+ chlorite + quartz + sulfides) that cut garnet and associated biotite. This latter type of ilmenite has a higher
Mn content (up to 16.7 wt% MnO) that reflects remobilization of Mn within the local environment. Both types of Mn-rich ilmenite are considered
to be derived from Mn originally concentrated in pools of dense brine that formed during synsedimentary, submarine-exhalative mineralization.