- 作者:Mathias Burisch ; mathias.burisch@ifg.uni-tuebingen.de" class="auth_mail" title="E-mail the corresponding author ; Michael A.W. Marks ; Marcus Nowak ; Gregor Markl
- 关键词:Halogen systematic ; Hydrothermal ore ; Metals ; Brittle deformation ; Cl/Br ; Cataclasis ; Water&ndash ; rock interaction
- 刊名:Chemical Geology
- 出版年:2016
- 出版时间:1 September 2016
- 年:2016
- 卷:433
- 期:Complete
- 页码:24-35
- 全文大小:938 K
The modification of the fluid chemistry during water–rock interaction strongly depends on grain-size: leachates (using pure H2O) of fine-grained rock powders have lower Na/Cl and Cl/Br ratios but much higher chlorinities (by a factor of up to 40) compared to leachates from coarse-grained rock powders. The Cl/Br ratios of all leachates are lower than that of their respective whole-rocks. Smaller grain-sizes of the starting materials yield element ratios (Cl/Br and Na/Cl) similar to those found in natural fluids, emphasizing the influence of cataclastic deformation on the fluid chemistry of crustal fluids. During our leaching experiments, Pb, Zn, Cu and W are released by felsic minerals, while biotite alteration releases Ni, As and additional Zn and Cu.
Our experiments confirm that crystalline rocks may serve as metal source for hydrothermal ore deposits. Short-term water–rock interactions along cataclastic fault zones in the brittle crust may influence the geochemical evolution of upper crustal fluids. This is further suggested by low F/Cl and Cl/Br ratios in some of the leachates being very similar to halogen systematics in natural fluid samples.