Title of article
Mineral chemistry of ore and hydrothermal alteration at the Sossego iron oxide–copper–gold deposit, Carajás Mineral Province, Brazil
Author/Authors
Monteiro، نويسنده , , Lena Virgيnia Soares and Xavier، نويسنده , , Roberto Perez and Hitzman، نويسنده , , Murray W. and Juliani، نويسنده , , Caetano and de Souza Filho، نويسنده , , Carlos Roberto and Carvalho، نويسنده , , Emerson de R.، نويسنده ,
Issue Information
روزنامه با شماره پیاپی سال 2008
Pages
20
From page
317
To page
336
Abstract
The Sossego iron oxide–copper–gold deposit in the Carajás Mineral Province comprises two major orebodies, Sequeirinho and Sossego. Sodic alteration (albite–hematite) and sodic–calcic alteration zones represented by albite, ferro-edenite/hastingsite (up to 3.8 wt.% Cl), actinolite/magnesiohornblende, magnetite, titanite, epidote, and calcite are predominant at Sequeirinho. Magnetite bodies with envelopes of apatite-rich actinolitite were formed with the sodic–calcic event at high temperatures (~ 500 °C at 1.4 kbar). In the Sossego orebody, potassic alteration with orthoclase and Cl-rich biotite (up to 3.1 wt.%) and chloritization are the main alteration types.
lized breccias in both orebodies have coarse-grained zoned actinolite/ferro-actinolite, Cl-apatite, and magnetite within the matrix. Sulfides occur in equilibrium with a paragenetically late calcite–quartz–chlorite–epidote–allanite assemblage. The AlIV contents of the chlorite indicate crystallization at temperatures below 300 °C. Chalcopyrite occurs associated with pyrite (up to 2.3 wt.% Co and 0.2 wt.% Ni), native gold (up to 14.9 wt.% Ag), siegenite, millerite, vaesite, Pd-melonite, and hessite.
on and cooling of the hot metalliferous fluid (> 500 °C) by mixing with meteoric fluids may have been the main mechanisms responsible for the deposition of metals transported as metal chloride complexes in both orebodies of the Sossego deposit.
Keywords
Geothermobarometry , Brazil , Mineral Chemistry , Caraj?s mineral province , Sossego deposit , Iron oxide–copper–gold deposit
Journal title
Ore Geology Reviews
Serial Year
2008
Journal title
Ore Geology Reviews
Record number
2283306
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