Contrasting regimes of Cu, Zn and Pb transport in ore-forming hydrothermal fluids

Author:

Zhong Richen,Brugger JoëlORCID,Chen Yanjing,Li Wenbo

Funder

Chinese National Basic Research 973 Program

National Natural Science Foundation

Australian Research Council

Publisher

Elsevier BV

Subject

Geochemistry and Petrology,Geology

Reference102 articles.

1. Zinc in hydrothermal systems: thermodynamic description of hydroxo-, chloride, and hydrosulfide complexes;Akinfiev;Geochem. Int.,2014

2. Thermodynamic description of chloride, hydrosulfide, and hydroxo complexes of Ag(I), Cu(I), and Au(I) at temperatures of 25–500°C and pressures of 1–2000bar;Akinfiev;Geochem. Int.,2001

3. Thermodynamic description of aqueous species in the system Cu–Ag–Au–S–O–H at temperatures of 0–600°C and pressures of 1–3000bar;Akinfiev;Geochem. Int.,2010

4. Composition of Ore Fluid Inclusions from the Viburnum Trend, Southeast Missouri District. United States: Implications for Transport and Precipitation Mechanisms;Appold;Econ. Geol.,2011

5. Causes for large-scale metal zonation around mineralised plutons: Fluid inclusion LA-ICP-MS evidence from the Mole Granite, Australia;Audétat;Econ. Geol.,2000

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