Geology of the Hishikari gold deposit, Kagoshima, Japan
Geology of the Hishikari gold deposit, Kagoshima, Japan (in Geology of the world's major gold deposits and provinces, Richard H. Sillitoe (editor), Richard J. Goldfarb (editor), Francois Robert (editor) and Stuart F. Simmons (editor))
Reviews in Economic Geology (January 2020) 23: 545-558
- Asia
- basement
- Cenozoic
- Cretaceous
- Far East
- gold ores
- history
- Japan
- Kagoshima Japan
- Kyushu
- Mesozoic
- metal ores
- mining
- Neogene
- Pleistocene
- Pliocene
- Quaternary
- Shimanto Group
- sulfides
- Tertiary
- Hishikari Deposit
- Honko Deposit
- Iwato Deposit
- Kasuga Deposit
- Akeshi Deposit
- Nansatsu Japan
- Hokusatsu Japan
- Sanjin Deposit
- Kishikari Andesite
The bonanza-grade, low-sulfidation epithermal Hishikari gold deposit is located in the Plio-Pleistocene volcanic area of southern Kyushu, Japan. The concealed veins were discovered in 1981 and the mine has since produced 5.462 million metric tons (Mt) of ore averaging 44.3 g/t Au (242 t Au) from 1985 to the end of 2018, at which time reserves were 7.98 Mt at 20.9 g/t Au. The Hishikari deposit consists of the Honko, Sanjin, and Yamada ore zones, which occur in a NE-trending area 2.8 km long and 1.0 km wide. The veins are hosted by basement sedimentary rocks of the Cretaceous Shimanto Supergroup and by overlying Hishikari Lower Andesites of Pleistocene age. Sinter occurs about 100 m above the Yamada ore zone. Temperature-controlled hydrothermal alteration zones occupy an area of >5 km long and 2 km wide. The Honko and Sanjin veins occur within a chlorite-illite alteration zone (paleotemperature >230 degrees C), whereas the Yamada veins occur within an interstratified clay mineral zone (150-230 degrees C). The marginal alteration comprises quartz-smectite (100-150 degrees C) and cristobalite-smectite (<100 degrees C) zones. Ore-grade veins are located between -60- and 120-m elev, with the paleowater table over the Honko-Sanjim veins at approximately 300-m elev. Overall, the Ag/Au wt ratio is about 0.6. Vein-forming minerals consist of quartz, adularia, and clay minerals plus truscottite, with electrum and minor pyrite, chalcopyrite, naumannite, galena, and sphalerite. The major veins formed from repeated episodes of boiling and strong fluid flow inferred from bands of quartz, adularia, and smectite with bladed quartz, columnar adularia, and truscottite.