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Polymetallic Mineralization at the Suttsu Vein-type Deposit, Southwestern Hokkaido, Japan
Authors:Shuji Ono  Koji Hirai    Hiroharu Matsueda   Taro Kabashima
Affiliation:Graduate School of Environment and Resources Engineering, Hokkaido University, N13, W8, Kita-ku, Sapporo 060–8628, Japan [e-mail: ];The Hokkaido University Museum, Hokkaido University, N10, W8, Kita-ku, Sapporo 060–0810, Japan;Metals Exploration Group, Japan Oil, Gas and Metals National Corporation, 1310 Omiya-cho, Saiwai-ku, Kawasaki 212–8554, Japan
Abstract:Abstract. The Suttsu polymetallic vein-type deposit, hosted by tuff, tuff breccia and shale of the Miocene Kunnui Formation and propylitized hornblende-augite andesite, is located in southwestern Hokkaido, Japan. It has been exploited and explored for Cu, Pb, Zn and Ag until 1962.
In this study, we examined K-Ar ages, ore mineralogical characteristics and fluid inclusions to obtain new data for the deposit.
The K-Ar ages on sericite indicate that the polymetallic mineralization occurred in Late Miocene (8.1–5.7 Ma). The polymetallic banded ore from the Ohkubo vein is characterized by an abundance of Au, Ag, Sn, Bi, in, Se and Te. These metals are mainly ascribed to electrum (30.3–37.8 atom% Ag), Se-bearing pavonite (8.5–9.5 wt% Se), gustavite-lillianite solid solution, Se-bearing bismuthinite (5.0–5.3 wt% Se), kawazulite, cassiterite, Sn-bearing chalcopyrite (3.3–4.2 wt% Sn), In-bearing stannite, stannite-chalcopyrite solid solution, and In- and Sn-bearing sphalerite (2.6–8.4 wt% In and 1.8–4.3 wt% Sn), occurring in narrow bands of the ore. The In- and Sn-bearing sphalerite likely forms a sphalerite-roquesite-stannite solid solution with the contents of roquesite and stannite being about 2–9 and 2-A mole%, respectively. Temperatures and salinities (in wt% NaCl equiv.) of the ore fluids are estimated to be 180-250C and 3–4 wt%, respectively. The Sn-bearing chalcopyrite therefore probably precipitated metastably. The geologic and mineralogical features suggest that pre-Tertiary basement rocks rich in organic material underlie the Miocene Kunnui Formation nearby the deposit and that they contributed to local and temporary reduction of magnetite-series magmas favorable for the early stage tin-polymetallic mineralization.
Keywords:polymetallic mineralization    Suttsu    vein-type    silver    tin    bismuth    indium    selenium    tellurium    stannite-chalcopyrite solid solution
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