Lord Howe Rise IODP workshop held at University of Sydney

Date: 2015 April 7-10 Venue: The University of Sydney Description: A science meeting at the University of Sydney was held to discuss details of the seven science themes in the Geoscience Australia (GA) – Japan Agency for Marine-Earth Science and Technology (JAMSTEC) initiated Lord Howe Rise IODP Pre-proposal, IODP proposal 871-Pre. The purpose of the meeting was to look … Read more…

Evaluating global paleoshoreline models for the Cretaceous and Cenozoic

Early CretaceousCitation
Heine, C., Yeo, L. G., & Müller, R. D. (2015). Evaluating global paleoshoreline models for the Cretaceous and Cenozoic. Australian Journal of Earth Sciences, (ahead-of-print), 1-13., doi: 10.1080/08120099.2015.1018321.

Summary
Paleoshoreline maps represent the distribution of land and sea through geologic time. These compilations provide excellent proxies for evaluating the contributions non-tectonic vertical crustal motions, such as mantle convection-driven dynamic topography, to the flooding histories of continental platforms. Until now, such data have not been available as a globally coherent compilation. Here, we present and evaluate a set of Cretaceous and Cenozoic global shoreline data extracted from two independent published global paleogeographic atlases. … Read more…

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Tectonic speed limits from plate kinematic reconstructions

Plate velocities summary figureCitation
Zahirovic, S., Müller, R. D., Seton, M., & Flament, N. (2015). Tectonic speed limits from plate kinematic reconstructions. Earth and Planetary Science Letters, 418, 40-52. doi:10.1016/j.epsl.2015.02.037.

Summary
The motion of plates and continents on the planet’s surface are a manifestation of long-term mantle convection and plate tectonics. Present-day plate velocities provide a snapshot of this ongoing process, and have been used to infer controlling factors on the speeds of plates and continents. However, present-day velocities do not capture plate behaviour over geologically representative periods of time. To address this shortcoming, we use a plate tectonic reconstruction approach to extract time-dependent plate velocities and geometries from which root mean square (RMS) velocities are computed, resulting in a median RMS plate speed of ~4 cm/yr over 200 Myr.  … Read more…

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ScienceNews features an article on Pacific plate motions paper

EarthByte paper ‘Revision of Paleogene plate motions in the Pacific and implications for the Hawaiian-Emperor bend‘ is featured in ScienceNews with an article entitled ‘Plate loss gave chain of Pacific islands and seamounts a bend‘. Revision of Paleogene plate motions in the Pacific and implications for the Hawaiian-Emperor bend

Global plate and continental velocities since Pangea breakup

This animation portrays the motion of continents (grey, yellow, orange and red) and oceanic plates (blue) since Pangea breakup from 200 million years ago. The model is a modified version of the Seton et al.Citation Zahirovic, S., R. Müller, M. Seton, and N. Flament (2015), Tectonic speed limits from plate kinematic reconstructions, Earth and Planetary … Read more…

Sabin Zahirovic features in Science Magazine

Congratulations to Sabin, who has made it to the News front page of the Science Magazine with a news article entitled ‘Earth’s tectonic plates skitter about‘ about a recently published paper in Earth and Planetary Science letters: Tectonic speed limits from plate kinematic reconstructions. Well done Sabin! Link to download the paper

Geophysical Research Letters – Ridge subduction sparked reorganisation of the Pacific plate-mantle system 60-50 million years ago

Seton, M., Flament, N., Whittaker, J., Müller, R. D., Gurnis, M., & Bower, D. J. (2015). Ridge subduction sparked reorganization of the Pacific plate‐mantle system 60–50 million years ago. Geophysical Research Letters, 42(6), 1732-1740. doi: 10.1002/2015GL063057. Ridge subduction sparked reorganization of the Pacific plate‐mantle system 60–50 million years ago

A tectonic model reconciling evidence for the collisions between India, Eurasia and intra-oceanic arcs of the central-eastern Tethys

Gibbons etal AgeGrid Vels MagPicks v3 0175Citation
Gibbons, A., Zahirovic, S., Muller, R.D., Whittaker, J., and Yatheesh, V. 2015. A tectonic model reconciling evidence for the collisions between India, Eurasia and intra-oceanic arcs of the central-eastern Tethys. Gondwana Research FOCUS, doi: 10.1016/j.gr.2015.01.001.

Summary
Despite several decades of investigations, inferences on the timing and nature of collisions along the Mesozoic–Cenozoic Eurasian margin remain controversial. We assimilate geological and geophysical evidence into a plate tectonic model for the India–Eurasia collision that includes continuously– … Read more…

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Ore Geology Reviews – Prospectivity of Western Australian iron ore from geophysical data using a reject option classifier

Merdith, A. S., Landgrebe, T. C., & Müller, R. D. (2015). Prospectivity of Western Australian iron ore from geophysical data using a reject option classifier. Ore Geology Reviews. doi: 10.1016/j.oregeorev.2015.03.014. Prospectivity of Western Australian iron ore from geophysical data using a reject option classifier

Geology – Revision of Paleogene plate motions in the Pacific and implications for the Hawaiian-Emperor bend

Wright, N. M., Müller, R. D., Seton, M., & Williams, S. E. (2015). Revision of Paleogene plate motions in the Pacific and implications for the Hawaiian-Emperor bend. Geology, 43(5), 455-458. doi: 10.1130/G36303.1. Revision of Paleogene plate motions in the Pacific and implications for the Hawaiian-Emperor bend

Earth and Planetary Science Reviews – Absolute plate motions since 130 ma constrained by subduction zone kinematics

Williams, S., Flament, N., Müller, R. D., & Butterworth, N. (2015). Absolute plate motions since 130 Ma constrained by subduction zone kinematics. Earth and Planetary Science Letters, 418, 66-77. doi:10.1016/j.epsl.2015.02.026. Absolute plate motions since 130 Ma constrained by subduction zone kinematics

Research voyage on RV Investigator funded for 2016

Dr Maria Seton and Dr Simon Williams from the School of Geosciences and colleagues from GNS Science and the Geological Survey of New Caledonia were awarded ship time on Australia’s new, state-of-the-art research vessel, the RV Investigator. The supplementary voyage, with Dr Seton as Chief Scientist, will investigate the continuity of Australian terranes into Zealandia … Read more…

GPlates 1.5 software and data sets

GPlates 1.5 Promo

GPlates 1.5 PromoGPlates is a free desktop software for the interactive visualisation of plate-tectonics. The compilation and documentation of GPlates 1.5 data was primarily funded by AuScope National Collaborative Research Infrastructure (NCRIS).

GPlates is developed by an international team of scientists and professional software developers at the EarthByte Project (part of AuScope) at the University of Sydney, the Division of Geological and Planetary Sciences (GPS) at CalTech, the Geodynamics team at the Geological Survey of Norway (NGU) and the Centre for Earth Evolution and Dynamics (CEED) at the University of Oslo.  … Read more…

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Age, spreading rates and spreading asymmetry of the world’s ocean crust

agegrid_ageerror_2008 rategrid_asymgrid_2008We present four companion digital models of the age, age uncertainty, spreading rates and spreading asymmetries of the world’s ocean basins as geographic and Mercator grids with 2 minute resolution. The grids include data from all the major ocean basins as well as detailed reconstructions of back-arc basins.

The age, spreading rate and asymmetry at each grid node is determined by linear interpolation between adjacent seafloor isochrons in the direction of spreading. Ages for ocean floor between the oldest identified magnetic anomalies and continental crust are interpolated by geological estimates of the ages of passive continental margin segments. … Read more…

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Specialised short courses available in April 2015

Coming up in April 2015 we will be running our annual short courses for Honours students and post graduate geoscientists. These courses offer students a unique opportunity to engage in specialised studies aimed at introducing them to some of the powerful computational tools used today in leading-edge research of Geoscience. Below are links to the appropriate information if you wish to enrol:  … Read more…

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Supplementary resources for “Absolute plate motions since 130 Ma constrained by subduction zone kinematics”

Williams et al 2015 figure 3Citation
Williams, S., Flament, N., Müller, R. D., & Butterworth, N. (2015). Absolute plate motions since 130 Ma constrained by subduction zone kinematics. Earth and Planetary Science Letters, 418, 66-77. doi:10.1016/j.epsl.2015.02.026.

Summary
The supplementary data set comprise plate reconstructions from 130 Ma to present-day, designed to be used within the open-source reconstruction software GPlates.

There are eight sets of reconstructions. In each case, the relative plate motion (RPM) model is unchanged; the differences lie in the absolute plate motion (APM) model. This is expressed in the rotation file as the finite poles of rotation that describe motion of Africa relative to the Earth’s spin-axis. These files were the basis of the results presented in the EPSL paper.  … Read more…

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Earth and Planetary Science Letters – Tectonic speed limits from plate kinematic reconstructions

Zahirovic, S., Müller, R. D., Seton, M., & Flament, N. (2015). Tectonic speed limits from plate kinematic reconstructions. Earth and Planetary Science Letters, 418, 40-52. doi: 10.1016/j.epsl.2015.02.037. Tectonic speed limits from plate kinematic reconstructions

Experimental release of GPlates 1.5+Hellinger

GPlates 1.5 Promo

An experimental release of GPlates 1.5+Hellinger was released this week. This version includes all GPlates 1.5 functionality as well as a Hellinger Tool to calculate best-fitting poles to segmented magnetic pick data points. The tool uses a Python implementation of the FORTRAN program by Chang and others and is compatible with FORTRAN data files which can … Read more…

Paper published in Lithos – Geochemistry and radiogenic isotope characteristics of xenoliths in Archean diamondiferous lamprophyres: Implications for the Superior province cratonic keel

Wyman, D. A., Hollings, P., & Conceição, R. V. (2015). Geochemistry and radiogenic isotope characteristics of xenoliths in Archean diamondiferous lamprophyres: Implications for the Superior Province cratonic keel. Lithos. doi: 10.1016/j.lithos.2015.02.018. Geochemistry and radiogenic isotope characteristics of xenoliths in Archean diamondiferous lamprophyres: Implications for the Superior Province cratonic keel

Tectonophysics – Timing of formation and exhumation of the Montagne Noire double dome, French Massif Central

Roger, F., Teyssier, C., Respaut, J. P., Rey, P. F., Jolivet, M., Whitney, D. L., … & Brunel, M. (2015). Timing of formation and exhumation of the Montagne Noire double dome, French Massif Central. Tectonophysics, 640, 53-69. doi: 10.1016/j.tecto.2014.12.002. Timing of formation and exhumation of the Montagne Noire double dome, French Massif Central

Australian Journal of Earth Sciences – Evaluating global paleoshoreline models for the Cretaceous and Cenozoic

Heine, C., Yeo, L. G., & Müller, R. D. (2015). Evaluating global paleoshoreline models for the Cretaceous and Cenozoic. Australian Journal of Earth Sciences, (ahead-of-print), 1-13. Evaluating global paleoshoreline models for the Cretaceous and Cenozoic Download the Paleocoastline files – zip file

Gondwana Research – Origin of silica and fingerprinting of Australian sedimentary opals

Dutkiewicz, A., Landgrebe, T. C., & Rey, P. F. (2015). Origin of silica and fingerprinting of Australian sedimentary opals. Gondwana Research, 27(2), 786-795. doi: 10.1016/j.gr.2013.10.013. Origin of silica and fingerprinting of Australian sedimentary opals

ANDS-MODC

ANDS logoEarthByte, in collaboration with The University of Sydney Library and ICT department, is involved in an important ANDS-MODC funded project to ensure that EarthByte data collections are supported by a robust data management regime. This is to enhance the sustainability, discoverability and re-use of these resources.  … Read more…

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Australian Journal of Earth Sciences – Uncovering the relationship between subducting bathymetric ridges and volcanic chains with significant earthquakes using geophysical data mining

Landgrebe, T. C. W., & Müller, R. D. (2015). Uncovering the relationship between subducting bathymetric ridges and volcanic chains with significant earthquakes using geophysical data mining. Australian Journal of Earth Sciences, 62(2), 171-180. doi: 10.1080/08120099.2015.1003145. Uncovering the relationship between subducting bathymetric ridges and volcanic chains with significant earthquakes using geophysical data mining

PhD scholarship in Plate Tectonics/ Geodynamics/ Morphodynamics

BasinGensisHub logo

Applications are invited for a PhD scholarship in Plate Tectonics/ Geodynamics/ Morphodynamics working with members of the Basin Genesis Hub (an ARC Industrial Transformation Research Hub) within the EarthByte Group at the School of Geosciences, The University of Sydney. Click here to learn more about the scholarship