Thermomechanical models of the Australian plate

Mark Hoggard, James Hazzard, Zachary Sudholz, Fred D Richards, Thomas Duvernay, Jacqueline Austermann, A. Lynton Jaques, Gregory Yaxley, Karol Czarnota, Marcus W. Haynes

Research output: Book/ReportCommissioned reportpeer-review

Abstract

The thickness and thermal structure of continental lithosphere influences the location of seismic and volcanic hazards and is important for predicting long-term evolution of landscapes, sedimentary basins, and the distribution of natural resources. In this project, we have developed new, continental-scale models of the thermomechanical structure of the Australian plate. We begin by compiling an inventory of >15,000 geochemical analyses of peridotitic xenoliths and xenocrysts from across the continent that have been carried up to the surface in volcanic eruptions. We apply thermobarometric techniques to constrain their pressure and temperature of equilibration and perform steady-state heat flow modelling to assess the paleogeotherm beneath these sites. We subsequently use the paleogeotherms as constraints in a Bayesian calibration of anelasticity at seismic frequencies to provide a mapping between seismic velocity and temperature as a function of pressure. We apply this method to several regional-scale seismic tomography models, allowing the temperature to be continuously mapped throughout the Australian lithospheric and asthenospheric mantle. Our models include assessment of uncertainties and can be used to query thermomechanical properties, such as lithospheric thickness, heat flow through the Moho, and the Curie depth.
Original languageEnglish
Place of PublicationCanberra
PublisherCommonwealth of Australia (Geoscience Australia)
Commissioning bodyAustralian Government Geoscience Australia
Number of pages8
VolumeExploring for the Future: Extended Abstracts
DOIs
Publication statusPublished - 11 Aug 2024

Fingerprint

Dive into the research topics of 'Thermomechanical models of the Australian plate'. Together they form a unique fingerprint.

Cite this