Factors effecting the stability field of Ca-poor pyroxene and the origin of the Ca-poor minimum in Ca-rich pyroxenes from tholeiitic intrusions |
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Authors: | I. H. Campbell J. Nolan |
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Affiliation: | 1. School of Geology, University of Melbourne, 3052, Parkville, Victoria, Australia 2. Department of Geology, Imperial College of Science and Technology, S.W. 7, London
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Abstract: | Ca-poor pyroxene ceases to crystallise towards the end of fractionation in tholeiitic intrusions and is usually replaced by Fe-rich olivine. Using the data of Nicholls et al. (1971), the (a_{{text{SiO}}_2 }) at which olivine and pyroxene can coexist has been calculated at different temperatures and pressures. From these calculations it is clear that the Fe/Mg ratio of the last Ca-poor pyroxene to crystallise from a melt is increased by raising the temperature or pressure of crystallisation. The Ca-poor pyroxene-Fe-rich olivine relationship is also dependent on the (a_{{text{SiO}}_2 }) of the melt. In magmas which crystallise Fe-rich olivine before quartz, inicreasing their (a_{{text{SiO}}_2 }) will raise the Fe/Mg ratio of the last Ca-poor pyroxene to crystallise. If the (a_{{text{SiO}}_2 }) of the magma is so high that SiO2 saturation is reached before the appearance of cumulus Fe-rich olivine, any further increase in the (a_{{text{SiO}}_2 }) of the melt will not influence the stability field of Ca-poor pyroxene. The replacement of Ca-poor pyroxene by Fe-rich olivine requires the magma to reach a high level of a FeO late in its fractionation. If a magma fractionates with an FeO depletion trend, Ca-poor pyroxene is replaced by Ca-rich pyroxene. The reaction is initiated by the appearance of cumulus K-feldspar which results in a marked reduction in the amount of anorthite crystallising from the magma. This increases the a CaO of the melt so that Ca-poor pyroxene is replaced by Ca-rich pyroxene. |
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