River systems hold information on tectonic history in their sediment load and their morphology.
Coupled models of tectonics, topography and surface evolution help us to understand continental deformation patterns.
This project uses state-of-the-art tools in models of collision, basin formation and plate boundaries.

The recent over-ice seismic deployments in Antarctica provide datasets that enable exciting opportunities for seismological research. This project involves innovative development in passive seismology methods adapted for challenging icy conditions to unravel ice and solid Earth structure in Antarctica.

Some of the oldest continental building blocks (e.g. cratons) are found in Australia. At depth, the ancient rock record has invaluable information about the dynamics of the Earth. Seismology can provide remarkable views into the deep lithospheric structure using imaging techniques on broadband seismic data.

AusPass is a service dedicated to the acquisition, management, and distribution of passive seismological data in Australia.

Geodynamics occupies a unique position in the solid Earth Sciences. It is primarily concerned with the dynamical processes affecting the Earth, both within its interior and at its surface, although it can also be applied to the interiors and surfaces of other terrestrial planets and their moons.

Project to analyse the pattern of seismic anisotropy beneath the continent utilising data from temporary broadband networks deployed across Australia

This research program uses laboratory experiments and geophysical imaging techniques to constrain the thickness and density structure of continental crust and investigate its relationship to mineral systems.

Congested subduction happens whenever buoyant material such as an oceanic plateau gets caught up on a moving plate and eventually arrives at a subduction zone. The buoyant material may be scraped off or subducted, but it always puts up a fight which leaves characteristic scars on the over-riding plate.

Most of Earth’s volcanism is concentrated at tectonic plate boundaries, where plates move away from one another to create mid-ocean ridges, or where one plate slides beneath another to form a subduction zone. However, an important and widespread class of volcanism occurs within plates, or across plate boundaries....

The objective of this ARC Linkage project with Geoscience Australia and GSWA is to provide a compilation of 3-D models of the crustal and lithospheric structure from new broadband data obtained with deployment of 25 seismometers in Southwest WA.

The base of the Lake George fault scarp defines the edge of the basin and previous surveys suggested the Quaternary fault zone extends at depth. A dense seismic array of 100 nodal seismometers were deployed in late 2020 in the northern section of the basin and collected continuous seismic recordings for ~1 month

The W-phase is a ultra-long period seismic wave that arrives as early as the first-arriving P-wave. It’s early arrival, low amplitude and stability w.r.t. details of earth structure make it ideal for rapid determination of source characteristics especially for large, tsunamigenic earthquakes. We are exploring the...

Earth is a chemically heterogeneous body. While mantle convection can be approximated as a thermally driven process, recent studies indicate that chemical heterogeneities may play an important role in governing the form and planform of mantle dynamics. Additionally, a growing body of geochemical observations argue...

Mantle convection is the principal control on Earth's thermal, chemical and geological evolution. It is central to our understanding of the origin and evolution of tectonic deformation, the thermal and compositional evolution of the mantle and, ultimately, the evolution of Earth as a whole. Plate tectonics and...

The Himalaya are the world’s largest mountain belt formed in response to Cenozoic collision of the Indian continent & the Eurasian plate. This project assesses uplift history of the Himalaya, its erosional landscape response, & the preservation potential of critical mineral systems in this region.