Prof Dietmar Müller

Dietmar MüllerGroup Coordinator

dietmar.muller@sydney.edu.au

Phone: +61 2 9351 4255
Fax: +61 2 9351 3644

Madsen Building F09, Room 406
School of Geosciences
The University of Sydney
Sydney, NSW 2006
Australia

View Dietmar's Sydney Uni page

See below for EarthByte content related to Dietmar.

The effect of continental stress on carbon storage sites

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Mitigating global warming by CO2 storage? Check for the continental stressitis. If proposed CO2 sites are not properly assessed for long-term stability,  future civilisations could still suffer the consequences of global warming. Professor Dietmar Müller from the School of Geosciences at the University of Sydney and Scott Dyksterhuis from ExxonMobil have created a computer model … Read more…

Basin Genesis Hub computer model explains Early Cretaceous eastward flow of ancient Murray River

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Murray_RiverAustralia is an outstanding natural laboratory to study the influence of dynamic topography on landscape evolution, having been largely unaffected by tectonic deformation since the Jurassic. Recent studies of the past eastern Australian landscape from present-day longitudinal river profiles and from mantle flow models suggest that the interaction of plate motion with mantle convection accounts for the two phases of large-scale uplift of the region since 120 Ma. … Read more…

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Modelling and visualizing distributed compressional plate deformation using GPlates2.0: The Arctic Eurekan Orogeny

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Gion_etal_figPresent-day distributed plate deformation is being mapped and simulated in great detail, largely based on satellite observations.  In contrast, the modelling of and data assimilation into deforming plate models for the geological past is still in its infancy.  The recently released GPLates2.0 software provides a framework for building plate models including diffuse deformation.  … Read more…

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EarthByte Group develops machine learning recipe to find copper-gold deposits along the Andes

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In a paper just published in the journal Tectonics, EarthByter and Natural Sciences, University of Sydney alumnus Nathaniel Butterworth and colleagues from the School of Geosciences, University of Sydney and Data61/CSIRO have developed a spatio-temporal machine learning recipe to identify subduction zone tectonic environments in which porphyry copper-gold deposits tend to form. The new approach could pave the way for future mineral discoveries.

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Dietmar Müller awarded Vice–Chancellor’s Award for Outstanding Research

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StaffAwards2016_MichaelSpence_RDM.jpgDietmar Müller was awarded one of four 2016 Vice–Chancellor’s Award for Outstanding Research at the University of Sydney’s first annual award ceremony on the 25th of October. The award reflects many years of inspired, highly productive team work by the entire EarthByte Group, without whom this would not have been possible. It’s really an award for all EarthByters! Read more…

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Global plate boundary evolution and kinematics since the late Paleozoic

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Matthews++_SummaryFigCitation

Matthews, K.J., Maloney, K.T., Zahirovic, S., Williams, S.E., Seton, M., and Müller, R.D. (2016). Global plate boundary evolution and kinematics since the late Paleozoic, Global and Planetary Change, 146, 226-250. DOI: 10.1016/j.gloplacha.2016.10.002

Abstract

Many aspects of deep-time Earth System models, including mantle convection, paleoclimatology, paleobiogeography and the deep Earth carbon cycle, require high-resolution plate models that include the evolution of the mosaic of plate boundaries through time. We present the first continuous late Paleozoic to present-day global plate model with evolving plate boundaries, building on and extending two previously published models for the late Paleozoic (410–250 Ma) and Mesozoic-Cenozoic (230–0 Ma). We ensure continuity during the 250–230 Ma transition period between the two models, update the absolute reference frame of the Mesozoic-Cenozoic model and add a new Paleozoic reconstruction for the Baltica-derived Alexander Terrane, now accreted to western North America. This 410–0 Ma open access model provides a framework for deep-time whole Earth modelling and acts as a base for future extensions and refinement.

This model is available with a default mantle reference frame, a hybrid reference frame using moving hotspots and a true polar wander corrected paleomagnetic reference frame (see paper for details) as well as with a paleomagnetic reference frame. For times before 83 Ma, the Pacific is shifted to maintain relative motions with the circum-Pangea continents – largely due to the fact that no paleomagnetic reference frames exist that extend to the birth age of the Pacific Plate. The paleomagnetic reference frame is based on data from Torsvik, T. H., Van der Voo, R., Preeden, U., Mac Niocaill, C., Steinberger, B., Doubrovine, P. V., van Hinsbergen, D. J., Domeier, M., Gaina, C., and Tohver, E., 2012, Phanerozoic polar wander, palaeogeography and dynamics: Earth-Science Reviews, v. 114, no. 3, p. 325-368, DOI: 10.1016/j.earscirev.2012.06.007.

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Large fluctuations of shallow seas in low-lying Southeast Asia driven by mantle flow

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Author List: Sabin Zahirovic, Nicolas Flament, Dietmar Müller, Maria Seton, Mike Gurnis. Citation: Zahirovic, S., Flament, N., Müller, R.D., Seton, M., and Gurnis, M. (2016). Large fluctuations of shallow seas in low-lying Southeast Asia driven by mantle flow. Geochemistry, Geophysics, Geosystems. doi:10.1002/2016GC006434 The Sundaland continental promontory, as the core of Southeast Asia, is one of the lowest lying … Read more…

Deep Carbon Modelling Workshop

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Date:  August 29 – 30 2016 Venue: The University of Sydney Description: A two-day workshop bringing together climate and geo-scientists from around Sydney and international collaborators on the DCO-funded Deep Carbon Modelling project. Deep carbon science describes the multi-disciplinary effort to unravel the dynamic interactions of carbon-bearing systems in deep time. The workshop will focus on exploring the interplays … Read more…

Taking the pulse of the global ocean

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sediments_currents_global_oceanWhen organic particles sink from the surface ocean to the seafloor, a small but significant proportion of atmospheric carbon is stored away. Adriana Dutkiewicz and colleagues at the University of Sydney and Data61/CSIRO have now used global data sets collected over decades combined with cutting-edge big data analysis to understand how this process depends on surface ocean environments.   … Read more…

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Controls on the distribution of deep-sea sediments

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Author List: Dr Adriana Dutkiewicz, Dr Simon O’Callaghan, Prof Dietmar Müller Citation: Dutkiewicz, A., O’Callaghan, S., and Müller, R.D. (2016). Controls on the distribution of deep-sea sediments. Geochemistry, Geophysics, Geosystems 17 1–24. doi:10.1002/2016GC006428 Abstract: Deep-sea sediments represent the largest geological deposit on Earth and provide a record of our planet’s response to conditions at the sea surface from … Read more…

Commotion in the deep Southern Ocean

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souther_ocean_circulationCongratulations Adriana Dutkiewicz, Dietmar Müller, Andrew Hogg, and Paul Spence for their recent paper published in Geology. Their paper, Vigorous deep-sea currents cause global anomaly in sediment accumulation in the Southern Ocean, revealed an enormous stretch of the Southern Ocean where sediments are building up at a rate that dwarfs other deep ocean locations. The work has attracted the attention of media internationally. … Read more…

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Vigorous deep-sea currents cause global anomaly in sediment accumulation in the Southern Ocean

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Author List:  Adriana Dutkiewicz, Dietmar Müller, Andy Hogg and Paul Spence. Citation: Dutkiewicz, A., Müller, R. D., Hogg, A. M. & Spence, P. (2016). Vigorous deep-sea currents cause global anomaly in sediment accumulation in the Southern Ocean. Geology, 44(8), 663–666. doi:10.1130/G38143.1 Abstract: The vigorous current systems in the Southern Ocean play a key role in regulating the Earth’s … Read more…

Commotion in the deep Southern Ocean

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Bathymetry of the Southeast indian Ridge, where a major sediment accumulation rate anomaly has been linked to lateral changes in the vigour of bottom water flow.

A team led by the University of Sydney School of Geosciences has found an 8,000-km long sediment pile-up in the middle of the Southern Ocean, making this feature unique in the world. Their study was published today in the leading international journal Geology. … Read more…

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Abrupt plate accelerations shape rifted continental margins

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Author List: Sascha Brune, Simon Williams, Nathaniel Butterworth and Dietmar Müller. Citation: Brune, S., Williams, S.E, Butterworth, N. P., and Müller, R.D. (2016). Abrupt plate accelerations shape rifted continental margins. Nature, 1–4. doi:10.1038/nature18319 Abstract: Rifted margins are formed by persistent stretching of continental lithosphere until breakup is achieved. It is well known that strain-rate-dependent processes control rift evolution, yet quantified extension … Read more…

The pains and strains of a continental breakup in the media

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West_Australian_margin.jpg
View of Australia’s western continental margin, looking eastwards from the Indian Ocean.

Congratulations to Dr Sascha Brune, Dr Simon Williams, Dr Nathan Butterworth, and Prof Dietmar Müller on their paper published in Nature earlier this week. The paper,  Abrupt plate accelerations shape rifted continental marginshas been picked up by the media across the globe.

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The pains and strains of a continental breakup

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Every now and then in Earth’s history, a pair of continents draws close enough to form one. There comes a time, however, when they must inevitably part ways. Now scientists at Australia’s EarthByte research group, in collaboration with the German Research Centre for Geosciences, have revealed the underlying mechanics of a continental breakup when this … Read more…

Dietmar Müller finalist for AuScope Excellence in Research Award

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Recently the Australian geoscience community celebrated a decade of AuScope achievements. EarthByte’s very own Prof Dietmar Muller was an award finalist for excellence in scientific research and providing tools (such as GPlates) that enable scientific development in our community. GPlates is an open-source and cross-platform tool that is accessible to high school teachers, research scientists and anyone … Read more…

Ridge-spotting: A new test for Pacific absolute plate motion models

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Author List: Paul Wessel, Dietmar Müller. Citation: Wessel, P., and Müller, R.D. (2016). Ridge-spotting: A new test for Pacific absolute plate motion models. Geochemistry, Geophysics, Geosystems 17 (6): 2408–2420. doi:10.1002/2016GC006404 Abstract: Relative plate motions provide high-resolution descriptions of motions of plates relative to other plates. Yet geodynamically, motions of plates relative to the mantle are required since … Read more…

Ocean Basin Evolution and Global-Scale Plate Reorganization Events Since Pangea Breakup

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Author List: Dietmar Müller, Maria Seton, Sabin Zahirovic, Simon Williams, Kara Matthews, Nicky Wright, Grace Shephard, Kayla Maloney, Nicholas Barnett-Moore, Maral Hosseinpour, Dan Bower and John Cannon. Citation: Müller, R.D., Seton, M., Zahirovic, S., Williams, S.E., Matthews, K.J., Wright, N.M., Shephard, G.E., Maloney, K.T., Barnett-Moore, N., Hosseinpour, M., Bower, D.J., & Cannon, J. (2016). Ocean Basin Evolution and … Read more…

Subduction controls the distribution and fragmentation of Earth’s tectonic plates

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Author List: Claire Mallard, Nicolas Coltice, Maria Seton, Dietmar Müller and Paul Tackley Citation: Mallard, C., Coltice, N., Seton, M., Müller, R. D. & Tackley, P. J. (2016). Subduction controls the distribution and fragmentation of Earth’s tectonic plates. Nature, 535, 140-143. doi:10.1038/nature17992 Abstract: Volcanic hotspot tracks featuring linear progressions in the age of volcanism are typical surface expressions of plate … Read more…

Solving Earth’s giant jigsaw puzzle of tectonic plates

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plate-tesselation
Earth’s plate tesselation through time (150 Myr ago to present)

Plate tectonics drives earthquakes and volcanism, forms precious mineral deposits and controls the planet’s long-term carbon cycle.   But why do we have just a few large plates, and many tiny plates?  Does it matter? These questions have now been answered in a French-Swiss-Australian collaborative paper led by PhD student Claire Mallard at the Univ. Lyon, published on 15 June 2016 in the journal Nature. The paper includes Nicolas Coltice (Lyon), EarthByters Dietmar Müller and Maria Seton, and Paul Tackley (ETH). 

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A rapid burst in hotspot motion through the interaction of tectonics and deep mantle flow

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Author List: Rakib Hassan, Dietmar Müller, Mike Gurnis, Simon Williams and Nicolas Flament Citation: Hassan, R., Müller, R.D., Gurnis, M., Williams, S.E. and Flament, N. (2016). A rapid burst in hotspot motion through the interaction of tectonics and deep mantle flow. Nature, 533, 239-242. doi:10.1038/nature17422 Abstract: Volcanic hotspot tracks featuring linear progressions in the age of volcanism … Read more…

Tectonic evolution of Western Tethys from Jurassic to present day: coupling geological and geophysical data with seismic tomography models

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Author List: Maral Hosseinpour, Simon Williams, Maria Seton, Nicholas Barnett-Moore and Dietmar Müller Citation: Hosseinpour, M., Williams, S., Seton, M., Barnett-Moore, N., and Müller, R.D. (2016). Tectonic evolution of Western Tethys from Jurassic to present day: coupling geological and geophysical data with seismic tomography models. International Geology Review 58 (13): 1616–1645. doi:10.1080/00206814.2016.1183146 Abstract: The geodynamic evolution of the … Read more…

How the Hawaiian-Emperor seamount chain got its spectacular bend

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In a paper published in Nature, Rakib Hassan with fellow EarthByters Dietmar Müller, Simon E. Williams & Nicolas Flament, and Caltech’s Michael Gurnis, proposed a solution to a long standing geological mystery – how the distinct bend in the Hawaiian-Emperor Seamount Chain came to be. Using NCI’s Raijin supercomputer, the research team simulated flow patterns in the Earth’s mantle over the past 100 million years. The convection model suggests that the history of subduction has a profound effect on the time-dependent deformation of the edges of the Large Low-Shear Velocity Province (LLSVP) under the Pacific. The Hawaiian plume originates from the edge of this province and the southward migration of the plume during the formation of the Emperor chain reflects the migration of the northern edge of the LLSVP before ~47 million years ago. 
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Geologists Discover How Australia’s Highest Mountain Formed

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Eastern_australia_topographyCongratulations to Prof Dietmar Müller, Dr Nicolas Flament, Dr Kara Matthews, Dr Simon Williams, and Prof Michael Gurnis on their paper recently published in Earth and Planetary Science Letters. Their paper, Formation of Australian continental margin highlands driven by plate-mantle interaction, has featured in a variety of Australian and international media outlets.

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Geologists Discover How Australia’s Highest Mountain Formed – Media Release

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Eastern_australia_topographyGeologists from the University of Sydney and the California Institute of Technology have solved the mystery of how Australia’s highest mountain – Mount Kosciusko – and surrounding alps came to exist.

Most of the world’s mountain belts are the result of two continents colliding (including the Himalayas) or volcanism. The mountains of Australia’s Eastern highlands – stretching from north-eastern Queensland to western Victoria – are an exception. Until now no one knew how they formed.

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PLOS ONE – The GPlates Portal: Cloud-Based Interactive 3D Visualization of Global Geophysical and Geological Data in a Web Browser

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Author List: Dietmar Müller, Xiaodong Qin, David Sandwell, Adriana Dutkiewicz, Simon Williams, Nicolas Flament, Stefan Maus, Maria Seton Citation: Müller, R. D., Qin, X., Sandwell, D. T., Dutkiewicz, A., Williams, S. E., Flament, N., Maus, S., & Seton, M. (2016). The GPlates Portal: Cloud-Based Interactive 3D Visualization of Global Geophysical and Geological Data in a Web Browser. … Read more…

Earth and Planetary Science Letters – Formation of Australian continental margin highlands driven by plate–mantle interaction

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Author List: Dietmar Müller, Nicolas Flament, Kara Matthews, Simon Williams and Mike Gurnis Citation: Müller, R. D., Flament, N., Matthews, K. J., Williams, S. E., & Gurnis, M. (2016). Formation of Australian continental margin highlands driven by plate–mantle interaction. Earth and Planetary Science Letters, 441, 60–70. http://dx.doi.org/10.1016/j.epsl.2016.02.025 Formation of Australian continental margin highlands driven by plate–mantle … Read more…

Geophysical Research Letters – Alignment between seafloor spreading directions and absolute plate motions through time

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Author List: Simon Williams, Nicolas Flament and Dietmar Müller Citation: Williams, S., Flament, N., & Müller, R. D. (2016). Alignment between seafloor spreading directions and absolute plate motions through time. Geophysical Research Letters, 43, 1472–1480, doi:10.1002/2015GL067155. Alignment between seafloor spreading directions and absolute plate motions through time

Earth-Science Reviews – The Late Cretaceous to recent tectonic history of the Pacific Ocean basin

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Wright, N. M., Seton, M., Williams, S. E., & Müller, R. D. (2016). The Late Cretaceous to recent tectonic history of the Pacific Ocean basin. Earth-Science Reviews, 154, 138–173. http://dx.doi.org/10.1016/j.earscirev.2015.11.015 The Late Cretaceous to recent tectonic history of the Pacific Ocean basin