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Nansatsu Japan
Abstract The Nansatsu district of southern Kyushu has been the site of calc-alkaline volcanism for the last 10 m.y., shifting eastward with time. Associated hydrothermal activity followed deposition of the volcanic host rocks by about 0.5 m.y. and was characterized by interaction of magmatic fluids with meteoric water under epithermal conditions, resulting in the formation of high sulfidation Cu-Au deposits at Kasuga, Iwato, and Akeshi. The orebodies consist of >95 wt percent SiO 2 and result from leaching of the original andesite lava and pyroclastic flows by acid chloride-sulfate waters. These are inferred to have formed when magmatic vapors containing HCl and SO 2 condensed into meteoric water. The residual silica (now quartz) orebodies are best developed where the host was initially permeable. The margins of the quartz bodies are abrupt, with narrow (1-2 m) halos representing the reaction front of acid waters isochemically dissolving the host rock. The halo comprises alunite (strongly zoned in Na and K, with P-rich cores), dickite, and/or kaolinite ± pyrophyllite, grading out into illite and interlayered illite-smectite clays, and finally, propylitic alteration. This pattern is characteristic of deposits of this type throughout the world, for example, at Summitville, Colorado, and Lepanto, Philippines. Mineralization occurred after initial leaching by the vapor condensates, with metals transported by a dense magmatic fluid. Mixing with meteoric water and the subsequent temperature decrease caused the general decrease in grade toward the margin of the quartz bodies; ore grades are restricted to the quartz bodies. Gold is most closely associated with enargite and pyrite; later minerals include covellite and then sulfur. The last stage of activity was steam-heated, with descending waters oxidizing sulfides to goethite and locally remobilizing Au into fractures (this varies in degree between deposits). Erosion exposed the orebodies to supergene weathering, continuing the sulfide oxidation and Au remobilization. Stable isotope results indicate that hypogene alunite formed from a mixture of magmatic fluid (δ 18 O = 7 ± 2‰, δD = −25 ± 5‰, similar to nearby active volcanic discharges) with local meteoric water. In contrast, the clays in the marginal halo have isotopic compositions indicating a δ 18 O shift of 6 to 8 per mil from local meteoric water values, probably due to water-rock interaction, and the δ 18 O values of residual silica quartz may also be due to meteoric water domination. Fluid inclusion study of postmineralization quartz crystals indicates that the fluids had a salinity of about 1 wt percent NaCl equiv during late quartz growth, though there is evidence in one sample for higher salinity fluid having been present, up to 30 wt percent NaCI equiv (some inclusions contain daughter minerals of halite and sulfur). The T h values of over 1,000 measurements on late quartz from the ore zones indicate that the mean temperature during that stage ranged from <200°C at Akeshi to about 200°C at Iwato and 230°C at Kasuga. The presence of vapor-rich inclusions, some with T hv similar to T hl , indicate the presence at times of a two-phase fluid in the center of the ore zones, with depths of about 150 to 300 m below the paleowater table. The mineralizing fluid was relatively oxidized (sulfide/ sulfate ratio about 3:1), close to pyrite-alunite coexistence. Under these redox conditions, a pH of 3 and over a temperature range of 200° to 300°C, AuCl 2 − complexing may dominate over HAu(SH) 2 at salinities above about 2 wt percent NaCl. Several conditions are conducive for high sulfidation mineralization to occur: a crystallizing magma exsolves a fluid, with lower pressure conditions favoring metal fractionation from melt to fluid, the exsolved fluid separates into vapor and saline liquid phases due to immiscibility, with the latter being metal rich, the gas-rich (HCl and SO 2 + H 2 S) vapor ascends to the surface, with at least a portion condensed into meteoric water, forming an acid fluid which leaches the host rock to create permeable zones for later mixing, and the dense, metal-bearing fluid also ascends into this leached zone and precipitates Cu sulfosalts, sulfides, and Au upon mixing with meteoric water . If the saline liquid is not released from its source adjacent to the magma, due to lack of fracturing, or if there is a strong hydraulic gradient caused by high relief, only the vapor-related stage may occur. This will leave leached, barren rock which is characteristic of many eroded volcanic terranes.
Geology and Gold Exploration in the Nansatsu District, Southern Kyushu, Japan
Abstract There are three main gold deposits, Kasuga, Iwato, and Akeshi, in the Nansatsu district of southern Kyushu, Japan ( Fig. 1 ). These three deposits have similar geologic characteristics and are the type deposits for the so-called Nansatsu- style of mineralization ( Urashima, 1975 ), more commonly referred to these days as high-sulfidation epithermal Au mineralization ( Hedenquist, 1987 ). This style of mineralization is believed to be a product of high-temperature acid fluids genetically related to magmatic activity at shallow depths ( Matsuhisa et al., 1991 ; Hedenquist et al., 1994 ). More than 27 tons (t) of gold have been produced from these three deposits. The ore from these deposits, which is hosted by highly silicified rock, is sold to copper smelters in Japan as flux.
Geology, geochemistry, and origin of high sulfidation Cu-Au mineralization in the Nansatsu District, Japan
Abstract Epithermal gold deposits are the principal source of gold in Japan, and mesothermal vein gold or by-product gold from skarn deposits, VMS (the Kuroko type and the Besshi type), and polymetallic veins contribute historically only 10 percent of domestic gold production. Gold production from epithermal gold deposits of Kyushu amounts to 284 tonnes and comprises about 40 percent of total Japanese gold production, 576 tonnes, from the Meiji Restoration (1868) to present (1999). The silver/gold ratio of ores in Kyushu is less than three and differs from the value that exceeds 10 in other areas ( Fig. 1 ). The Yamagano mine in the Edo era and later the Taio and Kushikino mines were the largest gold-silver mines in Kyushu before the discovery of the Hishikari deposit. At present the Hishikari underground operation and three opencut mines of the Nansatsu-type gold deposits at Kasuga, Iwato, and Akeshi are producing gold. The major gold deposits in Kyushu, typically of the low- sulfidation vein type and locally the high-sulfidation Nansatsu type, occur in extinct or waning geothermal systems of the Pliocene and Pleistocene volcanic areas. The young formation ages relate to the well-preserved shallow bonanza zones and overlying thick argillic alteration zones, and in places surface expression of hydrothermal activity, such as sinters and nearby acid alteration related to steam- heated acid hot springs. This contribution aims to present supplementary data to a previous review paper ( Izawa and Urashima, 1989 ), which described the relationship
a) Plan and long section, Iwato lithocap-hosted high-sulfidation deposit, N...
Epithermal gold-silver-mercury deposits at Paradise Peak, Nevada; ore controls, porphyry gold association, detachment faulting, and supergene oxidation
Tectonic elements of southern Japan. Also shown are the locations of the Hi...
Volcano-tectonic interactions during rapid plate-boundary evolution in the Kyushu region, SW Japan
Society of Economic Geologists Silver Medal for 2000 Citation of Jeffrey W. Hedenquist
Interesting Papers in Other Journals
Epithermal Gold Deposits: STYLES, CHARACTERISTICS AND EXPLORATION
Geothermal Energy for Mines and the Opportunities for Northeast Nevada
SEG Newsletter 19 (October)
Exploration Implications of Multiple Formation Environments of Advanced Argillic Minerals
High-Sulfıdation Gold Deposite in Ancient Volcanic Terranes: Insights from the Mid-Paleozoic Peak Hill Deposite, NSW
Giant Porphyry Deposits: Characteristics, Distribution, and Tectonic Controls
Sulfide Mineral Precipitation from Hydrothermal Fluids
Abstract The Kasuga mine is located 4 km west of Makurazaki city on the southern tip of Satsuma peninsula, Kagoshima Prefecture. Among several silica bodies scattered in the Kasuga area, Kasuga Honkotai (the main orebody) is the major gold producer; it has a cumulative gold production to date of approximately 9.3 tons (t) of gold. The silica body of the main orebody extends 500 m east- west and 100 m north-south with a thickness of about 80 m (Figs. 1 and 2). The average gold content of the silica body ranges from 2 to 3 ppm, and relatively high-grade ore grades 5 to 10 ppm along fissures or brecciated zones (Urashima et al., 1987).