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.
Dr Annie Lau is a coastal geomorphologist with a primary research interest in analysing past occurrences of coastal hazards, in particular extreme waves generated by storms and tsunamis, through sedimentary, geomorphological and historical records for assessing the future threat in coastal areas. For example, she has specialised in using the characteristics of large coastal boulders (e.g. size and distribution of rocks) to estimate the strength of extreme waves and to reconstruct the history of extreme events in the past millennia at a few tropical islands in the Asia-Pacific area. More recently, Annie investigates coastline evolution of the sandy Central to Southern Queensland coasts in the late Quaternary - Holocene by analysing sediments and using OSL quartz dating.
Annie teaches a range of courses in Geography, Marine Science, and Geoscience disciplines. She is interested in all types of natural hazards and disaster management, some research areas that she's expanding into since acquiring in-depth knowledge through leading the "Environmental Hazards" course. Students who are interested in researching hazard topics are encouraged to discuss their research ideas with Annie.
She is a project leader of the following research networks:
IGCP Project 725 - Forecasting Coastal Change: "From Cores to Code: Bringing together scientists from coastal geology and numerical modelling to improve the predictive capacity of numerical models to fore- and hind-cast coastal change"
ISROC - Inundation Signatures on Rocky Coastlines: This network serves as a focal point for researchers, educators, and students to understand Coastal Boulder Deposits (CBD) and the storms and tsunamis that generate them.
Faculty of Engineering, Architecture and Information Technology
Availability:
Available for supervision
Media expert
Dr Mason began at The University of Queensland in late 2014 after holding academic positions at The University of Sydney and QUT. Prior to joining UQ he also worked as a catastrophe risk researcher for the industry-focused research centre, Risk Frontiers at Macquarie University. Matthew’s key areas of interest and expertise lie in the fields of:
Wind Engineering
Stochastic modelling of hazards, including convective storms and tropical cyclones
Probabilistic modelling of structural and infrastructure vulnerability to wind, water and hail
Catastrophe loss modelling for natural hazards
Modelling and observation of the atmospheric boundary layer
Wind tunnel testing and analysis
Disaster insurance
Dr Mason is currently the Chair of the Standards Australia wind loading sub-committee responsible for maintenance of AS/NZS1170.2.
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
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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
Current projects:
1) Long term monitoring of benthic composition at Heron Reef (2002-ongoing). Annual photoquadrate surveys are being collected at Heron Reef, Southern Great Barrier Reef. Initiated to develop remote sensing mapping approaches and assess coral composition over time. The resulting Maps, photo quadrate and benthic data, spectral reflectance are accessible online.
2) Long term monitoring of seagrass composition and abundance in Moreton bay Marine Park (2000-ongoing). For Eastern Banks it included monitoring seagrass species, cover and biomass 15x times since 2004 using photoquadrate survey and satelite imagery and for Moreton Bay it included seagrass extent and cover (2004, 2009, 2015, 2021, 2022), all data accessible via Moreton Bay Research Station.
3) Smart Sat CRC Hyperspectral Remote Sensing of Seagrass and Coral Reefs 2023-2027. Collaborative effort with CSIRO, Adelaide University, DES Adelaide Coastal Waters.
4) 3D GBR Habitat Mapping Project 2015 - ongoing: Mapping and monitoring geomorphic zonation, bottom type and predicted coral type habitat for every Great Barrier Reef within the Marine Park.
5) Global habitat mapping project 2019-2023 Developed and implemention of global habitat mapping as part of the Allen Coral Atlas resulting in extent, geomorphic and benthic maps for reefs globally, funded through with Vulcan Philanthropies in partnership with; Planet; the Arizona State University and the National Geographic Society.
Other projects: Advisor for Reef Cloud Australian Institute of Marine Science and Coordinated Global Research Assessment of Seagrass System (C-GRASS).
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
Citizen science: Strong supporter of citizen science based projects, as trainer, organiser and advisor for Reef Check Australia, CoralWatch, Great Reef Census and UniDive.
Queensland Alliance for Agriculture and Food Innovation
Availability:
Not available for supervision
Dr Yan Zhao is a dedicated researcher in the field of agricultural systems, utilizing remote sensing observations to unveil spatial and temporal patterns and advance earth observation techniques and modelling. He is an integral member of a multi-disciplinary predictive agriculture research group based at QAAFI.
Currently, Dr Zhao's focus lies in the intricate integration of spatial technologies, crop modelling, and climate forecasting systems at various scales. His primary objective is to leverage remote sensing and crop simulation techniques for a comprehensive understanding of Australia's dryland cropping system. In pursuit of this goal, he has successfully developed pipelines for handling volumetric spatial datasets and delivering crucial information on crop types, production, and phenology, spanning from local to national scales.
Engaging actively with agri-business companies, government departments, and local growers, Dr Zhao collaborates closely with stakeholders to validate and implement his research findings in practical applications.
Dr Zhao earned his Doctoral Degree in Natural Science, with a specialized focus on Cartography and Geographic Information Systems. He completed his doctoral research at the Institute of Remote Sensing and Digital Earth, Chinese Academy of Sciences, in 2013.
Affiliate of Centre for Geoanalytical Mass Spectrometry
Centre for Geoanalytical Mass Spectrometry
Faculty of Science
Senior Lecturer in Geochronology and Tectonics
School of the Environment
Faculty of Science
Availability:
Available for supervision
Media expert
I am a Senior Lecturer in Geochronology and Tectonics. I am also an Advance Queensland Industry Research Fellow working on using geochronology (and thermochronology) and micro-analysis to improve knowledge in geoscience related to critical minerals. This Fellowship project is a key activity in my research group and I am always looking for motivated students and ECRs to join this research. It is sponsored by Queensland State Government and in collaboration with leading companies in the critical minerals industry.
Here's my recent seminar on some of the work in my group: https://youtu.be/twNcLECCqPg?si=501qcfSA2mJdHxUh
Broadly speaking, my research advances fundamentals of Plate Tectonics, the unique and unifying theory for our home planet. My group uses a set of field, laboratory, and computational approaches to reveal the geologic history of modern and ancient plate boundaries, focusing on reconstructing the evolution of plate-margin mountains and basins. Such regions are among the most dynamic in the Earth system: their development alters regional and global climate, impacts biogeographic evolution, triggers earthquakes and other geologic hazards, and determines formation and distribution of natural resources such as critical minerals. I have been fortunate to work in some of the most rewarding areas for geologists, including the Himalaya-Tibetan Plateau, Central Andes, eastern Australia, New Zealand, and Pacific Islands. Check out some of my field photos here. I am the lead of UQ Thermochronology Lab. As an in-depth user of UQ RIF (Radiogenic Isotope Facility), I also work with laser ablation ICP-MS with recent work around laser ablation geochronology and geochemistry.
---- New projects in 2024 ----
Recruiting new research students: I am always looking for highly motivated PhD and MPhil students to join my group to work on a range of research topics around geochronology and its applications to critical minerals, global tectonics, and past environmental changes. Please email me for details on projects, funding, and application timelines.
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Editorial activities: I am a Subject Editor for Journal of the Geological Society and a member of the Editorial Board for Results in Earth Sciences. I am the lead Editor for issue 'Geochronology and Critical Minerals Systems' at Ore Geology Reviews. More information could be found here.
Teaching activities: My teaching duties range from delivering introductory courses, upper-year disciplinary courses, to research training courses. Here's a YouTube video of one of my courses: https://youtu.be/31TV3wUOv1Q