Estimation of crystallization pressure of granite intrusions

A numerical method is presented to estimate the crystallization pressure of granite intrusions based on two polynomial equations obtained by an analysis of the existing haplogranite ternary phase diagram and associated dataset. The results indicate that the pressure is correlated respectively with n...

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Published inLithos Vol. 286-287; pp. 324 - 329
Main Author Yang, Xue-Ming
Format Journal Article
LanguageEnglish
Published Elsevier B.V 01.08.2017
Subjects
CIPW normative quartz, albite, orthoclase
Crystallization pressure
Emplacement depth
Granite
CIPW normative quartz, albite, orthoclase
Emplacement depth
Crystallization pressure
Granite
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Abstract A numerical method is presented to estimate the crystallization pressure of granite intrusions based on two polynomial equations obtained by an analysis of the existing haplogranite ternary phase diagram and associated dataset. The results indicate that the pressure is correlated respectively with normative quartz (Qtz) content and with normative albite (Ab) plus orthoclase (Or) contents of granitic rocks as follows.(1)P=−0.2426×Qtz3+26.392×Qtz2−980.74×Qtz+12563(2)P=0.2426×Ab+Or3−46.397×Ab+Or2+2981.3×Ab+Or−64224R2=0.9943 where P is pressure in MPa, and R denotes correlation coefficient. It is noted that the procedure of normalizing the sum of CIPW norm (quartz, albite, orthoclase) contents to 100% is required before using Eqs. (1) and (2). The difference in pressure calculations between these two equations is ≤16MPa for the range of normative quartz contents from 15 to 40wt%. An example of how to use these equations to estimate the crystallization pressure of a granite intrusion is also provided to show the validity and convenience of this method. The uncertainty of such pressure estimation is not well known, although it must fall into the uncertainty range of the existing experimental work on pressure constraints. The simplicity of this empirical method is appreciable, although its applicability to natural granitoids needs further test. More experimental work is required to constrain the effects of components, such as CaO, FeO, MgO, F, Cl, CO2, on the granite phase equilibria. These equations, however, can be used for estimating crystallization pressures of water-saturated and quartz-oversaturated granitic systems. •Crystallization pressure of a granite intrusion is a function of its normative quartz (or silica) content.•Two complementary polynomial equations can be readily used for estimation of the crystallization pressures of granite intrusions.•These equations may be applied to granites with normative quartz contents ranging from 15% to 40%.
AbstractList A numerical method is presented to estimate the crystallization pressure of granite intrusions based on two polynomial equations obtained by an analysis of the existing haplogranite ternary phase diagram and associated dataset. The results indicate that the pressure is correlated respectively with normative quartz (Qtz) content and with normative albite (Ab) plus orthoclase (Or) contents of granitic rocks as follows.(1)P=−0.2426×Qtz3+26.392×Qtz2−980.74×Qtz+12563(2)P=0.2426×Ab+Or3−46.397×Ab+Or2+2981.3×Ab+Or−64224R2=0.9943 where P is pressure in MPa, and R denotes correlation coefficient. It is noted that the procedure of normalizing the sum of CIPW norm (quartz, albite, orthoclase) contents to 100% is required before using Eqs. (1) and (2). The difference in pressure calculations between these two equations is ≤16MPa for the range of normative quartz contents from 15 to 40wt%. An example of how to use these equations to estimate the crystallization pressure of a granite intrusion is also provided to show the validity and convenience of this method. The uncertainty of such pressure estimation is not well known, although it must fall into the uncertainty range of the existing experimental work on pressure constraints. The simplicity of this empirical method is appreciable, although its applicability to natural granitoids needs further test. More experimental work is required to constrain the effects of components, such as CaO, FeO, MgO, F, Cl, CO2, on the granite phase equilibria. These equations, however, can be used for estimating crystallization pressures of water-saturated and quartz-oversaturated granitic systems. •Crystallization pressure of a granite intrusion is a function of its normative quartz (or silica) content.•Two complementary polynomial equations can be readily used for estimation of the crystallization pressures of granite intrusions.•These equations may be applied to granites with normative quartz contents ranging from 15% to 40%.
Author Yang, Xue-Ming
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Keywords CIPW normative quartz, albite, orthoclase
Emplacement depth
Crystallization pressure
Granite
Language English
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Snippet A numerical method is presented to estimate the crystallization pressure of granite intrusions based on two polynomial equations obtained by an analysis of the...
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SubjectTerms CIPW normative quartz, albite, orthoclase
Crystallization pressure
Emplacement depth
Granite
Title Estimation of crystallization pressure of granite intrusions
URI https://dx.doi.org/10.1016/j.lithos.2017.06.018
Volume 286-287
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