Chemical fluid transport (CFT): A window into Earth and its development

Gas phase transport according to chemical fluid transport (CFT) in Earth's crust as well as in the solar nebula is characterized by very high transport efficiency. Systematic investigations of mobilization, transport and deposition of gaseous MeX (Me = metal, X = F or Cl) compounds by solid gas equilibrium reactions are suitable to explain numerous extensive accumulations of minerals and ores. More than 40 of the considered chemical elements form volatile MeX compounds. Some elements tend to form MeF compounds, whereas others are more likely to form MeCl compounds. Silicon reacts with HF to form SiF₄ and replaces other elements to form MeF compounds at low temperature ranges. Accumulations caused by SiF₄ transport explain the formation of numerous quartz varieties and silicate minerals in Earth's crust. Iron most likely reacts with HCl to form FeCl₂ as well as FeCl₃ and explain the formation of iron or iron compounds. Thermodynamically directed transport from cool to hot areas in connection with cyclic processes increases the transport efficiency of MeX-species. Such species are SiF₄, Al₂F₆, POF₃, Cu₃Cl₃, SnCl₄, BF₃, GeF₄, GeCl₄, Ga₂Cl₆, ZrF₄, NbF₅ and TiF₄. The transport gases SiF₄ and POF₃ often react with environmental compounds forming pneumatolytic and metasomatical mineral accumulations. CFT is the “motor” of pneumatolytic and metasomatical processes.