Fluid Inclusions Evidence for Fluids Associated with Recrystallization of Quartzites In the EJB Aureole, California
The aureole shows varying degrees of recrystallization and deformation. For example, in the eastern aureole, quartzites closest to the contact show the least amount of recrystallization with preserved rounded quartz grains that lack crystallographic preferred orientations (CPO's). A marble unit that lies between the intrusion and the quartzites may have prevented fluid flow from the pluton or kept the activity of H2O low with the release of CO2. Our hypothesis is that low H2O activity prevented recrystallization of the quartzite. In contrast, farther from the pluton contact, quartzites are more completely recrystallized with few remnant grain shapes and show well-defined CPO's, suggesting a higher activity of H2O.
Both primary and secondary fluid inclusions are analyzed to constrain the compositions of fluids that were responsible for the contrasting styles of deformation and recrystallization. Preliminary results from microthermometry of secondary and pseudo-secondary inclusions in highly recrystallized quartzite samples show H2O-dominated inclusions with about 25% CO2. The amount of CH4 is minor as the lowest first-melting temperature of the carbonic phase is only -57.5º C. On the other hand, the first-melting of the aqueous phase is as low as -41.5º C, indicating the presence of non-sodium salts, including salts of Ca and Mg that may have been derived from dolomitic marbles.