Jonathan is a Professorial Research Fellow in the School of Earth and Environmental Sciences (SEES) at The University of Queensland. Originally from New Zealand, he grew up on an active plate boundary where the rocks and types of landscapes he studies are generated. After graduating with a BSc Hons and MSc at the University of Otago and a stint in Antarctica, he studied in Japan as a Monbusho Schol at Niigata University. Following that he came to Australia where he undertook PhD studies at UNE focussing on the tectonic evolution of the New England orogen using radiolarian microfossils to determine the ages of marine rocks and constrain the timing of tectonic events. On completion of his PhD, he participated in the Ocean Drilling Program (ODP) Expedition 126 to the Izu-Bonin-Marianas system as a micropaleontologist to investigate intra-oceanic island arc development. He then returned to Japan to take up a JSPS (Japan Society for the Promotion of Science) postdoctoral fellowship at Kochi University examining radiolarians in subduction complex rocks on the island of Shikoku. After spending five years during the early 1990s at the Department of Geology and Geophysics of the University of Sydney, he moved to the University of Hong Kong in 1995. At HKU he led the HKU Tibet Research Group and has now worked for over two decades on the India-Asia collision system. Most of his work involves using microfossils to constraint the ages of different rocks and thereby deduce the timing of tectonic events. We was Head of the Department of Earth Sciences at HKU from 2003-2009. In 2011, he returned to Australia and the University of Sydney after accepting the Edgeworth David Chair of Geology. Professor Aitchison commenced with UQ as Head of the School of Geography, Planning and Environmental Management in February 2015 until the end of 2016 when this school was merged with Earth Sciences to become the School of Earth and Environmental Sciences. He was busy with duties and responsibilities as head of this very large school from 2017 through 2021. Now free to get on with his research, Jonathan maintains active programs in both micropaleontology and tectonics including: Early Paleozoic radiolarian evolution and development of microCT imaging techniques for microfossils, the India-Asia collision system, tectonics of eastern Gondwana, as well as paleobiogeography in Galapagos and the Indian Ocean. He has recently commenced an exciting investigation into deep recycling of organic carbon and the possibility that 'biodiamond's might occur in ophiolites of the SW Pacific region.
Affiliate of Centre for Geoanalytical Mass Spectrometry
Centre for Geoanalytical Mass Spectrometry
Faculty of Science
Postdoctoral Research Fellow
School of the Environment
Faculty of Science
Availability:
Not available for supervision
Grant has degrees in both Chemistry and Earth Sciences and is presently focused on assessing the environmental impact of fluid-rock interactions on groundwater chemistry. This entails a variety of rock characterisation techniques (elemental, mineralogical, petrophysical), benchtop sequential extraction experiments, and pressure vessel experiments that mimic in-situ conditions deep underground, with data then fed into geochemical modelling software. The analytical equipment that Grant has operated to achieve his research outcomes includes ICP-MS, ICP-OES, SEM-EDS, Microprobe, XRF, Synchrotron XFM beamline, Petrographic Microscopes (both scanning and standard), Gas Permeameter, Helium Pycnometer, Pressure Vessels, etc. Grant also has an active interest in the geological storage of carbon dioxide, both via injection into deep geological formations and direct atmospheric capture facilitated by rock weathering to form stable carbonate rocks (mineral trapping of CO2). In the past, Grant has studied natural carbonate mineralisation (both veins and cement) throughout the Great Artesian Basin, to explore the variety of natural conditions that promote the transformation of CO2 into minerals. Early in his research career, Grant participated in paleo-climate research projects that involved botanically describing and assessing the cell morphology of fossil woods, coal petrography, studying coral cores, and picking foraminifera recovered from the sea floor.
I am a sedimentary geochemist, and I work on a variety of problems in sedimentary geology, paleoclimate, and basin analysis through the use of petrology, elemental geochemistry, and stable isotope geochemistry. I run the Carbonate Research and Geochemistry group at UQ, where we have a variety of facilities for sample petrology, carbonate precipitation under controlled environmental conditions, and geochemical analysis. Several active and potential research areas are outlined below.
Clumped Isotope Reordering and Basin Analysis
Currently we are investigating clumped isotope reordering - the change that occurs in a sample's clumped isotope value as a result of solid-state diffusion of 18O and/or 13C within the crystal lattice of a carbonate mineral. This is important to understand for two reasons. First, if we are trying to get accurate paleoclimate data using clumped isotope paleothermometry, we need to know what conditions (burial depth and heating) allow for primary signals, and under which conditions the primary signal is lost. Second, if we know the kinetics of clumped isotope reordering, we can then apply that knowledge to understand past heat flow in a basin. Combined with a stratigraphic column and burial history for a body of rock, we can reconstruct geothermal gradients, and evaluate tectonic/basin models based on whether they could produce the required heat flux to match observed clumped isotope values. Areas of active research include precipitating model carbonates in the lab to study the effects of different cations, burial diagenesis, and applications to sediment hosted ore bodies/other economic systems.
Carbonate Sedimentation and Diagenesis
Carbonate sedimentation and diagenesis is one of our active research areas, with a focus on combining laboratory experiments, modern analogues, and ancient rocks to understand the long term evolution of carbonates and other sediments. Clumped isotopes are useful here as it turns out they do record the temperature of formation in most cases, and can be applied to a variety of problems, such as contemporary dolomite formation, or the temperature of formation of otherwise engimatic carbonate textures, such as 'beef' calcites. We are also interested in the sedimentation and diagenesis of carbonate reefs, such as the geological history of the Great Barrier Reef, and are currently studying the halogen composition of carbonates, reef rocks and corals, and oceanic sediments in general.
Paleoclimate Research
I have been interested in paleoclimate since I took my first geology class at Northwestern. Since then, I've worked on a variety of timescales and systems, but the common theme has been the application of stable isotopes and clumped isotopes. Clumped isotopes are a wonderful tool for paleoclimate research in situations where the water oxygen isotope composition is uncertain, such as terrestrial and lacustrine settings, deep time where even the oxygen isotopic composition of the ocean is uncertain, or even in (relatively) more modern systems that might be affected by runoff or glacial meltwater. Active projects and areas of interest include Holocene climate change/ENSO, Southern Ocean Cenozoic paleoclimatology, and 'bizzare' climate events such as the Neoproterozoic Snowball Earth glaciations.
Degrees and Positions Held
2008 B.A. Geological Sciences and Integrated Sciences (Honors), Northwestern University, Evanston, Illinois, USA
2014 Ph.D. Geology, University of Michigan, Ann Arbor, Michigan, USA
2014-2017 Postdoctoral Researcher, University of California, Los Angeles, California, USA
2017-2019 Berg-Hughes Postdoctoral Fellow, Texas A&M University, College Station, Texas, USA
2019-Present Lecturer in Geochemistry, University of Queensland
Professor Joan Esterle is the Chair of the Vale-UQ Coal Geoscience Program. Her research interests are varied but focussed on how geological history impacts on coal measures behaviour during mining, processing and utilisation. She also develops 3D models for the distribution of sedimentary strata that can be used to predict geohazards in coal mines or reservoir behaviour in conventional and non conventional gas resources, and for geosequestration. In addition to working with Vale and other industry partners, she conducts multi-client studies through the Australian Coal Research Program (ACARP), The Australian National Low Emissions Coal Research (ANLECRD), and the UQ Centre for Coal Seam Gas (CCSG).
She received her PhD from The University of Kentucky, USA, in 1990. She worked for 17 years with CSIRO, followed by GeoGAS-Runge Group before joining the UQ full time in 2010. Current projects include:
CCSG Surat Geological Framework and Faults and Fractures
ACARP Rangal Supermodel-Bowen Basin and Cenozoic Fault Reactivation
ANLEC Outcrop Analogue Modelling for CO2 Sequestration
ARC Future Fellow and Director, Global Centre for Mineral Security
Sustainable Minerals Institute
Faculty of Engineering, Architecture and Information Technology
Centre Director of Global Centre for Mineral Security
Global Centre for Mineral Security
Faculty of Engineering, Architecture and Information Technology
Availability:
Available for supervision
Media expert
Professor Daniel Franks is Director of the Global Centre for Mineral Security at the University of Queensland’s Sustainable Minerals Institute and is an Australian Research Council Future Fellow. Professor Franks is known internationally for his work on the interconnections between minerals, materials and sustainable development, with a particular focus on the role of minerals in poverty reduction. He has introduced a number of key concepts in development studies including ‘mineral poverty’, ‘mineral security,’ and ‘development minerals;’ and has worked with a wide range of public and private sector partners to implement breakthrough sustainability innovations, such as OreSand to drastically reduce mine waste, and ‘social impact management plans,’ a regulatory tool now adopted throughout the world.
He is the author of more than 160 publications, including 37 publications for the United Nations. His research has appeared in journals such as Nature Sustainability and the Proceedings of the National Academy of Sciences, and is available in 11 languages. He is an Editorial Board Member of the International Journal of Minerals Policy & Economics, as well as Impact Assessment and Project Appraisal and has field experience at more than 100 mining and energy sites and 40 countries.
Affiliate of Centre for Geoanalytical Mass Spectrometry
Centre for Geoanalytical Mass Spectrometry
Faculty of Science
Emeritus Professor
School of the Environment
Faculty of Science
Availability:
Available for supervision
Media expert
Professor Sue Golding's research interests are in the fields of ore deposit geology and geochemistry, application of isotope geochemistry to minerals and energy exploration, coal bed methane, carbon sequestration, geomicrobiology.
Sue Golding received her PhD from The University of Queensland. She has been involved with resource exploration and isotope geochemistry research since 1977, following some 8 years industry experience in Australia and Africa. Building on this industry background Golding has combined field and laboratory studies to build an interdisciplinary research program with emphasis on hydrothermal systems and mineral and fossil fuel resources. This has involved the development of new techniques and methodologies for constraining thermal and fluid flow histories in sedimentary basins, which have provided significant insights into processes associated with evolving mineral and hydrocarbon systems. She also has considerable expertise in the application of stable and radiogenic isotope technologies in mineral and hydrocarbon exploration to evaluate terrain prospectivity, test the models employed and vector to ore based on isotopic haloes that surround many ore deposit types. A significant focus of her research group at the University of Queensland is technology related to environmentally sustainable energy provision. The research spans multiple scales from natural analogue studies of coal basins to determine the origins of coal seam methane and mechanisms that keep carbon dioxide naturally sequestered to experimental studies of the impact of carbon dioxide interaction with sandstones and coals on reservoir properties and groundwater chemistry. Golding was a senior researcher with the CO2CRC from 2006 to 2016.
since 2023: Honorary Associate Professor, School of Mathematics and Physics, The University of Queensland.
2017-2023: Associate Professor, School of Earth and Environmental Sciences, The University of Queensland.
2003-2017: Deputy Director (Software), Earth System Sciences Computational Center (ESSCC) & School of Earth Sciences, The University of Queensland.
2001-2003: Computational Scientist, CSIRO Mathematical and Information Sciences Division, Melbourne, Australia.
2000-2001: Lecturer, Institute of Information and Mathematical Sciences, Massey University at Albany, Auckland, New Zealand.
1996-1999: Research Fellow, Center for Mathematics and its Applications, School of Mathematical Sciences, Australian National University (ANU), Canberra.
1989-1996: Research Scientist, Computing Center, University of Karlsruhe/Germany.
Links:
LinkedIn
researchgate.net
Editor: Geoscientific Model Development Journal (GMD), http://www.geoscientific-model-development.net & EGUsphere https://www.egusphere.net/
My research career began when I recognised that the marine world has a history and pattern that can explain the past, understand the present, and predict the future. I started studying beaches and coral reefs since they are iconic and complex systems where marine, ecological, geological and human processes interact to produce the ecosystems we see today. My goal, and that of my lab (The BeachLab), is to develop tools, gather data, and provide analyses to help coastlines and coral reefs navigate a warmer world. Our projects are focused on fundamental research questions about how coasts and coral reefs change through time. We also have applied research objectives to support the future management of coastal and coral reef systems.
I am now a teacher and researcher in Geography at the School of the Environment at UQ. Prior to my appointment at UQ, I was a teacher and researcher at The University of Sydney (where I completed my Undergraduate and PhD degrees) and in a combined post at The University of Bremen (MARUM) and the Leibniz Center for Tropical Marine Ecology (ZMT). Perhaps equally importantly I grew up on the east coast of Australia and I have a personal and professional passion for beaches, coral reefs, surf, and the ocean.
Affiliate of Centre for Geoanalytical Mass Spectrometry
Centre for Geoanalytical Mass Spectrometry
Faculty of Science
Associate Professor - Geochemistry
School of the Environment
Faculty of Science
Availability:
Available for supervision
I use geochemistry to investigate the roles of fluids and volatiles in geological processes stretching from the Earth's surface to the deep mantle. I am particularly interested in hydrothermal alteration, metasomatism/metamorphism and magmatism. The common link between these areas, and the aim of my recent research, has been to investigate the longterm exchange of volatiles between the Earth's surface and mantle reservoirs, stretching from the seafloor, through subduction zones and into the mantle. I participated in Expedition 360 of the International Ocean Discovery Program in 2016, to the slow-spreading Atlantis Bank core complex on the SW Indian Ridge, where I acted as shipboard geochemist and crossed the equator by boat for the first time. I have long standing interests in fluid inclusions as tiny recorders of past fluid activity and special interests in the halogen and noble gas groups of elements.
I moved to UQ in 2019 from the Australian National University where I was a continuing Fellow and had held an ARC Future Fellowship. Prior to that I had an ARC QEII Fellowship at the University of Melbourne (2008-2013) and postdoctoral appointments at the University of Melbourne (2004-2008) and the Geological Survey of Norway (2001-2003). I did my PhD at the University of Manchester (2001) and undergraduate studies in Geology at the University of Edinburgh (1996).
My research focuses on reef recovery following disturbances, looking at the interplay between biological, ecological and physical drivers of recovery. After diving in the Galapagos, my interest in the marine environment was piqued, and I began a PhD in reef recovery dynamics in 2016, receiving my doctarate in 2021. My work is interdisplinary, incorporating aspects of marine geology and hydrodynamics to the core focus of marine ecology. I have investigated how coral recruitment is affected by material legacies (rubble) on coral reefs, how these legacies are affected by the physical environment (mobilisation thesholds) and how marine invertebrates consolidate this material, contributing to reef recovery. My research focuses largely on natural recovery potential, but I also investigate the efficacy of reef restoration techniques in the marine environment, such as mesh netting and metal structures, and where they can speed recovery. My work has spanned multiple regions, including the Maldives, the Great Barrier Reef, and the Coral Triangle.
Gilbert Price is a Senior Lecturer in Palaeontology at The University of Queensland. He is a vertebrate palaeoecologist and geochronologist, particularly interested in the evolution and emergence of our planet’s unique ecosystems and fauna, and their response to prehistoric climatic changes. His major research focus has been on the development of palaeoecological models for Australia’s Cenozoic, especially the Quaternary megafauna. Critically, this also involves the production of reliably-dated records for the fossils that he studies. You can follow Gilbert on Twitter (@TheFatWombat) and read his reserach blog at www.diprotodon.com.
Affiliate of Centre for Biodiversity and Conservation Science
Centre for Biodiversity and Conservation Science
Faculty of Science
Associate Professor
School of the Environment
Faculty of Science
Availability:
Available for supervision
Media expert
Research interest: Monitoring ecosystem health of coral reefs and seagrass habitats, integrating field and remote sensing image datasets, and the developing applied cost-effective mapping and monitoring approaches. Developed approaches have been adopted as standard practice globally, making a difference in conservation of these valuable habitats. The long term monitoring studies at Heron and Moreton Bay formed the basis for the development of mapping and monitoring over time and space at local to global scale. See here major research impact
Major projects:
Long term monitoring of benthic composition at Heron Reef (2002-ongoing).
Long term monitoring of seagrass composition and abundance in Moreton bay Marine Park (2000-ongoing).
Smart Sat CRC Hyperspectral Remote Sensing of Seagrass and Coral Reefs 2023-2027.
Developement of Underwater Field Spectrometry and Benthic Photo Collection and Analysis
3D GBR Habitat Mapping Project 2015 - ongoing:
Global habitat mapping project 2019-2023 Allen Coral Atlas .
Current position: Associate Professior in Marine Remote Sensing leading the Marine Ecosystem Monitoring Lab. . Academic Director Heron Island Research Station and affiliated researchers with Centre for Marine Science and Centre for Biodiversity and Conservation Science
Capacity Building and Citizen Science: Capacity: under/post graduate courses; Msc/PhD supervision, workshops/courses; Remote Sensing Educational Toolkit, and online courses (e.g. TNC).Strong supporter of citizen science based projects, as trainer, organiser and advisor for Reef Check Australia, CoralWatch, Great Reef Census and UniDive.
Gideon Rosenbaum's research interests are in the fields of structural geology and tectonics. He is particularly interested in the geodynamics of convergent plate margins.
Dr Steve Salisbury is an Associate Professor in the School of Biological Sciences at The University of Queensland, where he is head of the UQ Dinosaur Lab and Chair of First Nations Engagement. He is also Research Associate at the Carnegie Museum of Natural History, Pittsburgh, Pennsylvania, USA, Associate Editor for the Journal of Vertebrate Paleontology, and a Scientific Board member of the Jurassic Foundation.
Steve studied biology and geology at the University of Sydney, receiving the Edgeworth David Award for Palaeontology in 1993. He then moved to the University of New South Wales (UNSW), where he completed his Honours thesis on fossil crocodilians from Murgon, south-eastern Queensland. Continuing at the UNSW, Steve travelled to Germany and the UK to complete a PhD on crocodilian locomotor evolution. He returned to Australia in 2000 to pursue a life-long dream of searching for Australian dinosaurs, and joined The University of Queensland in 2003 as a Postdoctoral Fellow.
Steve's research focuses on the evolution of Gondwanan continental vertebrates, in particular dinosaurs and crocodilians. He is also interested in vertebrate biomechanics and using extant animals to better understand the anatomy, behaviour and evolution of extinct ones. His field-based research takes him to various parts of Queensland, the Kimberley, New Zealand and Antarctica.
Faculty of Engineering, Architecture and Information Technology
Availability:
Available for supervision
Katerina is a geologist with a specialization in hyperspectral data analysis as applied to mineral identification and interpretation, with big data integration. She has 15 years of hands-on experience working on both ground-breaking research and commercial activities for greenfield, brownfield and mining projects of various scales around the world. While with Corescan, she pioneered innovation in hyperspectral data acquisition, interpretation, and presentation. She developed and interpreted the results of complex algorithms associated with various mineral hyperspectral signatures. As part of her work, she contributed to geochemical and geotechnical research as applied to hydrothermal mineral alteration patterns associated with several world-class deposits, deposit delineation initiatives, new exploration projects, as well as geoenvironmental studies of acid-rock drainage and mining waste characterization. In her earlier roles, as an exploration geologist, she worked on uranium deposits in Canada, the USA, and Australia, with a focus on the system controls and definition of hydrothermal alteration mineral zonation and spatial patterns. Currently, Katerina is collaborating on several long-term projects with different challenges related to geological and mining industries at the W.H. Bryan Mining and Geology Research Centre, SMI including critical minerals research, mineral and textural characterization as applied to mine waste and tailings, as well as development of educational material and short-course delivery. Specific areas of research and interest include:
Hydrothermal alteration mineralogy and its characterization using high-resolution hyperspectral data in combination with other micro-analytical techniques
Remote sensing techniques and data interpretation
Detailed investigation of a variety of geological environments and mineral deposit settings including epithermal, unconformity-associated uranium, orogenic gold, porphyry, skarn, as well as IOCG
Minerals and mineral groups, their chemical composition and variations, recognizing hydrothermal alteration patterns and identifying vectors to mineralization
Establishment of new mineralogical and hyperspectral reflectance tools for drill core characterization for various mining applications
I am a professional geologist with over 30 years of technical and managerial experience, working for large organisations such as Vale and BHP Billiton, participating and managing complex projects in South America, Australia, and West Africa. Skilled in leading technical services and geological exploration for underground and open pit mines, my career experience includes exploration, mine geology and resource estimations of multiple commodities, geometallurgical studies, mine-to-mill reconciliations, project management and project evaluation.
I have a profound interest in earth sciences and mining. The development and training of junior professionals and geoscientists was one of my passions in the industry. Both interests led me to recently join the academia. My research interests are in the areas of economic geology, exploration geochemistry, geometallurgy and ore body modelling.
I am a volcano scientist with a passion for understanding how magmatic systems work. I develop high-resolution geochemical techniques to interrogate magmatic crystals and their carrier melts, providing a better understanding of past eruptions as a key for future activity. My team aims to constrain the drivers of volcanic eruptions and the processes leading to the accumulation of metals that are critical for the energy transition.
I joined UQ as a Lecturer in July 2016, after holding a postdoctoral fellowship at Trinity College Dublin. I undertook my postgraduate research in Spain and The Netherlands (Vrije Universiteit Amsterdam) and received my PhD from the University of Zaragoza in December 2013. I was born and raised by the sea, in San Sebastián, and I am fortunate to study a wide range of active and past volcanic systems in different tectonic settings around the world.
Faculty of Engineering, Architecture and Information Technology
Availability:
Available for supervision
With >35 years of experience, more than 100 publications on the subject, Jim has built a reputation in petroleum hydrogeology, unconventional hydrocarbons and carbon storage research. He is currently President of Petroleum Hydrogeology International and is also an Honorary Professor at the University of Queensland. He is Science Leader Storage for ANLEC R&D, Chair of the Geotechnical Reference Group for the CTSCo Surat CCS Project and sits on the Science Advisory Committee for the Peter Cook Centre for CCS Research. Previously, Jim was Professorial Chair of Petroleum Hydrodynamics at the University of Queensland with the Centre for Coal Seam Gas. He was General Manager Science for ANLEC R&D with an annual research budget of ~$18 million AUS applied to more than 50 active research projects supporting Australia’s CCS demonstration. He was CSIRO Theme Leader for the Unconventional Petroleum and Geothermal Energy R&D program with more than 50 Full Time Equivalents and an annual budget of ~$16 million/yr AUS. He sat on the Sustainable Energy for the Square Kilometre Array geothermal project control group, the Australian Mirror Committee of ISO for Carbon Capture and Storage and he managed the hydrodynamics and geochemistry discipline group within the Australian Cooperative Research Centre on CO2 (CO2CRC). Recently, Jim’s research has focused on petroleum hydrodynamics of faulted strata and the incorporation of hydrodynamics into seals analysis (both top and fault seal). His research has varied application to conventional and unconventional hydrocarbons, geothermal energy, mining and carbon storage. Jim has an interest in measurement, monitoring and verification (MM&V) systems for assessing reservoir and seal performance. He gained practical field experience on the design and implementation of MM&V strategies for SECARB Cranfield, Otway, Frio and In Salah carbon storage projects. Jim has advised the Canadian, New Zealand, Victorian and West Australian governments and Chevron on carbon storage projects and research programs. Jim has had media training whilst at the University of Queensland and CSIRO, he has experience with community engagement, senate estimates inquiries, and he has worked extensively with executive management teams and Boards of Directors. He has >2100 citations, an h-index of 24 and an i10-index of 51 on Google Scholar.
Jim Linked in: https://www.linkedin.com/pub/jim-underschultz/86/737/553
Jim ResearchGate: https://www.researchgate.net/profile/Jim_Underschultz
Centre Director of Centre for Geoanalytical Mass Spectrometry
Centre for Geoanalytical Mass Spectrometry
Faculty of Science
Professor
School of the Environment
Faculty of Science
Availability:
Available for supervision
Associate Professor Paulo Vasconcelos' research is in the fields of: Low-T Geochemistry, Economic Geology and 40Ar/39Ar Geochronology. He received his PhD from The University of California (Berkeley).
Paolo Vasconcelos research interests cover
Supergene enrichment in ore deposits
Isotopic dating of weathering processes
Exploration geochemistry
Palaeoclimatology and landscape evolution
Application of K-Ar and 40Ar/39Ar and noble gas systematics to ore deposit genesis
Origin and geochemistry of gem deposits
His chief research projects are in the areas of:
Weathering Geochronology, Weathering Geochronology and Landscape Evolution
Mechanisms and timing of silicification in Australia and the genesis of opal deposits
Cenozoic Magmatism in North East Brazil and in South East Queensland
U-He, 40Ar/39Ar, and Re-Os as fingerprints of metal sources in orogenic gold deposits
U-Th/He dating of iron and manganese oxides
Cosmogenic 3He generation and retention in goethite and hematite
Hydrothermal vs. supergene origin of orebodies in banded iron formations in the Hamersley iron province, the Quadrilátero Ferrífero iron province, and the Carajás iron province
Supergene Enrichment in the Kalahari Manganese Fields, South Africa
Timing of topaz, emerald and gold mineralization
40Ar/39Ar geocronological constraints on postulated hominid fossil sites in Cueva Victoria, Spain