Modelización geoquímica de los procesos de diferenciación por cristalización
DOI:
https://doi.org/10.3989/egeol.94505-6325Keywords:
Equilibrium cristallization, simple fractional crystallization, in situ crystallizatian, periodically replenished magma chamber, major elements, trace elements, radiogenic isotopes, stable isotopesAbstract
During crystallization processes, major and trace elements and stable isotopes fractionate, whereas radiogenic isotopes do not change. The different equations proposed allow us to reproduce the variation in major and trace elements during these differentiation processes. In the case of simple fractional crystallization, the residual liquid is impoverished in compatible elements faster than it is enriched in incompatible elements as crystallization proceeds. During in situ crystallization the highly incompatible elements evolve in a similar way to the case of simple fractional crystallization but the enrichment rate of the moderately incompatible elements is slower and the compatible element; do not suffer a depletion as strong as the one observed during simple fractional crystallization, even for higher f values. In a periodically replenished magma chamber if all the liquid present is removed at the end of each cycle, the magma follows patterns similar to those generated by simple fractional crystallization. On the contrary, if the liquid fraction that crystallizes during each cycle and the one that is extruded at the end of the cycle are small, the residual liquid shows compositions similar to those that would be obtained by equilibrium crystallization. Crystallization processes modelling is in general less difficult than (or partial melting. If a rock series is the result of simple fractional crystallization, a el CiL - CjL plot in which i is a compatible element and j is highly incompatible, allows us to obtain a good approximation to the initial liquid composition. Additionally, log CiL -log CjL diagrams in which i is a highly incompatible element, allow us to identify steps in the process and to calculate the bulk distribution coefficients of the trace elements during each step.
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Published
1994-12-30
How to Cite
Cebriá, J. M., & López Ruiz, J. (1994). Modelización geoquímica de los procesos de diferenciación por cristalización. Estudios Geológicos, 50(5-6), 309–322. https://doi.org/10.3989/egeol.94505-6325
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