This dataset contains the supporting information for the article:
	Elastic geobarometry for anisotropic inclusions in anisotropic host minerals: quartz-in-zircon
Published in:
	Journal of Geophysical Research: Solid Earth
Authors:
	Joseph P. Gonzalez, 1; Mattia L. Mazzucchelli, 1,2*; Ross J. Angel, 3; Matteo Alvaro, 1

1 Department of Earth and Environmental Sciences, University of Pavia, Via A. Ferrata, 1, Pavia, 27100, Italy
2 Mainz Institute of Multiscale Modeling and Institute of Geosciences, Johannes-Gutenberg University of Mainz, , J.-J.-Becher-Weg 21, Mainz, 55128, Germany
3 IGG-CNR, Via G. Gradenigo 6, Padova, 35131, Italy 

* Corresponding author (mlmazzucchelli@gmail.com) 

Description:
This dataset contains the supplementary materials to Gonzalez et al.
These supplementary materials provide further details about the elastic properties, axial conventions, and relative orientation of the host zircon and the quartz inclusion. The datasets provide all the results of the quartz-in-zircon calculations in table format. The datasets include the unrelaxed and relaxed strains, and the relaxation tensors. 

Content:
--Supporting_Information_Gonzalez_et_al.pdf
	Details about the elastic properties, axial conventions, and relative orientation of the host zircon and the quartz inclusion used for the calculations.

--ds01_Gonzalez_et_al.xlsx
	Data Set S1. The unrelaxed strain results for all of the quartz-in-zircon models. Model results are grouped according to the P-T of the simulation as described in the text. Strain tensors are represented using the notation of Voigt (1910). 

--ds02_Gonzalez_et_al.xlsx
	Data Set S2. The relaxation tensors calculated using Finite Element Modeling. 
	
--ds03_Gonzalez_et_al.xlsx
	Data Set S3. The relaxed strain results for all of the quartz-in-zircon models. Model results are grouped according to the P-T of the simulation as described in the text. Strain tensors are represented using the notation of Voigt (1910). 