Crystal Size Distributions and Scaling Laws in the Quantification of Igneous Textures

doi:10.1093/petrology/43.1.85

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Journal of Petrology Volume 43 Number 1 Pages 85-101 2002
© Oxford University Press 2002

Crystal Size Distributions and Scaling Laws in the Quantification of Igneous Textures

M. J. ZIEG and B. D. MARSH^,*

MORTON K. BLAUSTEIN DEPARTMENT OF EARTH AND PLANETARY SCIENCE, JOHNS HOPKINS UNIVERSITY, BALTIMORE, MD 21218, USA

This study demonstrates the value of the combined use of scalinganalysis and crystal size distribution (CSD) measurements inthe interpretation of igneous textures and outlines applicationsof these methods to other fundamentally important problems.Theoretical calculations and measurements of natural samplesare used to characterize the relationship between igneous textureand cooling history. The total number (N_T) and mean length () of crystals in a sample are correlated througha scaling relationship of the form N_T^-1/3 ${propto}$ . This proportionality depends on the mineralogy of the rock,and so a modal normalization factor (C) is introduced. The CSDslope, S, and intercept, ln(n°), are uniquely related toeach other through the equation ln(n°) = 4ln(S) - ln(C),where S = ^-1. This overall relationship allowsthe texture of a rock to be related to the local duration ofcooling through an arbitrary crystal growth model. Quantificationof the link between the texture of a rock and its cooling historymakes it possible to predict spatial variations in texture.We show an example of this method using the Sudbury IgneousComplex, Canada. Additional applications include relating thetextures of volcanic rocks to spatial and temporal variationsin the magma chamber and extracting kinetic parameters fromsuites of comagmatic rocks.

KEY WORDS: crystal size distributions; crystallization kinetics; magmatic processes; texture

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