Relationship Between Solidification Depth of Granitic Rocks and Formation of Hydrothermal Ore Deposits

Relationship Between Solidification Depth of Granitic Rocks and Formation of Hydrothermal Ore Deposits

Chemical analysis of biotite in representative granitic rocks in Japan shows that the total Al (TAl) content changes with the metal type of the accompanying hydrothermal ore deposits and increases in the following order: Pb‐Zn and Mo deposits < Cu‐Fe and Sn deposits < W deposits < non‐miner...

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Bibliographic Details
Published in:Resource geology Vol. 57; no. 1; pp. 47 - 56
Main Authors: Uchida, Etsuo, Endo, Sho, Makino, Mitsutoshi
Format: Journal Article
Language:English
Published: Melbourne, Australia Blackwell Publishing Asia 01-03-2007
Subjects:
biotite
geobarometer
granitic rock
hydrothermal ore deposit
solidification depth
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Summary:Chemical analysis of biotite in representative granitic rocks in Japan shows that the total Al (TAl) content changes with the metal type of the accompanying hydrothermal ore deposits and increases in the following order: Pb‐Zn and Mo deposits < Cu‐Fe and Sn deposits < W deposits < non‐mineralized granitic rocks. The TAl content of biotite in granitic rocks may be a useful indicator for distinguishing between mineralized and non‐mineralized granitic rocks. A good positive correlation is seen between the TAl content of biotite and the solidification pressure of the granitic rocks estimated by sphalerite and hornblende geobarometers and the mineral assemblages of the surrounding rocks. These facts suggest that the TAl content of biotite can be used to estimate the solidification pressure (P) of the granitic rocks. The following empirical equation was obtained: where TAl designates the total Al content in biotite on the basis O = 22. According to the obtained biotite geobarometer, it is estimated that Pb‐Zn and Mo deposits were formed at pressures below 1 kb, Cu‐Fe and Sn deposits at 1–2 kb, W deposits at 2–3 kb and non‐mineralized granitic rocks were solidified at pressures above 3 kb.
Bibliography:ark:/67375/WNG-89NBR1G6-W
ArticleID:RGE4
istex:040ADDE631C28C3C593979CA6FCC75675F84D017
ISSN:1344-1698
1751-3928
DOI:10.1111/j.1751-3928.2006.00004.x