Overview
Background
Professor Jonathan C. Aitchison School of the Environment, University of Queensland
Jonathan Aitchison is a Professor in the School of the Environment (SENV) at the University of Queensland (UQ), where he leads research at the intersection of plate tectonics, paleontology, and sedimentary geology. Originally from New Zealand, he grew up on an active plate boundary, an environment that inspired his lifelong fascination with the processes that shape Earth’s dynamic crust.
Professor Aitchison earned his BSc (Hons) and MSc in geology from the University of Otago, including early fieldwork in Antarctica, before moving to Japan as a Monbusho Scholar at Niigata University. He later completed his PhD at the University of New England (Australia), where he reconstructed the tectonic evolution of the New England Orogen using radiolarian microfossils to date marine successions and constrain major tectonic events. This expertise led to his role as a micropaleontologist on Ocean Drilling Program Expedition 126, investigating intra-oceanic island arc development in the Izu–Bonin–Mariana system.
After completing a Japan Society for the Promotion of Science (JSPS) postdoctoral fellowship at Kochi University, Aitchison joined the University of Sydney in the early 1990s, before moving to the University of Hong Kong (HKU) in 1995. At HKU, he established and led the Tibet Research Group, pioneering studies of the India–Asia collision system—research he has pursued for more than three decades. He served as Head of the Department of Earth Sciences at HKU from 2003 to 2009.
In 2011, Aitchison returned to Australia as the Edgeworth David Chair of Geology and Head of the School of Geosciences at the University of Sydney. In 2015 he shifted to Brisbane to take up Headship of the School of Geography, Planning and Environmental Management at UQ. He oversaw the merger that created the School of Earth and Environmental Sciences, leading this school from 2017 to 2021.
His research continues to span multiple frontiers in Earth Science. He maintains active programs in micropaleontology and tectonics, including the evolution of Early Paleozoic radiolarians and the application of synchrotron microCT imaging to microfossils. His long-standing work on the India–Asia collision integrates field studies in northwestern and northeastern India with broader models of Himalayan–Tibetan orogenesis. He also investigates the Paleozoic tectonics of eastern Gondwana.
Recent projects highlight the breadth of his interests: a groundbreaking study of organic carbon recycling that uncovered “bio-diamonds” in ophiolites of the southwest Pacific, and a collaboration with colleagues at the University of Tokyo examining accreted cherts as potential reservoirs of rare earth elements.
Professor Aitchison’s career reflects a commitment to integrating paleontological detail with large-scale tectonic processes, offering new insights into both Earth’s past and its critical resources for the future.
Availability
- Professor Jonathan Aitchison is:
- Not available for supervision
Fields of research
Qualifications
- Doctor of Philosophy, University of New England Australia
Research interests
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Patkai-Bum TTF triple junction - India/Myanmar/China border region
The deep jungles of Namdapha in far NE India conceal a geological treasure trove of information about the migratory evolution of a TTF (trench-trench-fault) triple junction where Indian, Myanmar micro- and Eurasian plates meet. The geology of this are is little studied but its understanding is fundamental to deciphering evolution of the India-Asia collision system. The project involves collaboration between colleagues from Australia, India and Myanmar.
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India-Asia collision
This project began in 1997 and is on-going. It involves study of the greatest tectonic collision on Earth - that between India and Asia, which is responsible for uplift of the Himalaya and Tibetan Plateau. Prior to this collision other tectonic elements within the Tethyan Ocean also collided with either India or Asia and these enigmatic events are of particular interest.
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Arc-continent collisions
The development of collisional systems is an integral part of plate tectonics. many collisional systems are much more complex that initially envisaged. For example the India-Asia collision was preceded one or more arc-continent collisions. Understanding these systems requires detailed and often painstaking field research using basic geological skills such as field mapping that provide the spatial basis for later laboratory based analytical work. Our group is working on tectonic reconstruction of the evolutionary history of collages such as the Tibet-Himalayan system; western and southwestern China, SE Asia, the New England and Lachlan fold belts of eastern Australia and the arc-contient collision system in New Caledonia
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Early Paleozoic radiolarian evolution
The origins and evolution of radiolarians from the Cambrian through to the Permian; using microCT as a tool for 3D imaging of radiolarian fossils
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Radiolarian-bearing shales and unconventional hydrocarbon resources
It appears that many of the exciting new unconventional hydrocarbon plays involve sedimentary facies that include radiolarian-bearing shales (e.g. Longmaxi Formation in the Silurian of the Sichuan Basin and many of the Upper Devonian to Lower Carboniferous rocks of the US mid west). I am interested in interpretation of the development of this facies as well as the influence that siliceous radiolarian skeletons have on facilitating 'frackability' of these rocks.
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REE in ancient deep-sea muds
Anomalous abundances of REE and Yttrium are know from deep-sea muds of the Pacific Ocean. This project seeks to examine inland ancient examples of similar sediments in accretionary complexes as potential REY resources.
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Diamonds and recycled mantle
This exciting project related to IGCP project 649 [http://www.igcp649.com] Several ophiolites within the Tibet-Himalayan-Alpine orogenic system that were once part of the extensive Tethyan ocean contain microscopic diamonds. I am interested to investigate whether this is unique to the Tethyan system or common amongst other ophiolites such as those which have collided with, and been emplaced onto, elements of the eastern margin of Gondwana. In particular ophiolitic rocks in New Caledonia, New Zealand and eastern Australia are being targeted.
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Sedimentary response to intra-oceanic subduction within orogens: A case study of the North Qilian belt
In collaboration with colleagues at the Institute of Geology of the Chinese Academy of Geological Sciences, Beijing I am working on an NSFC-funded project to investigate intra-oceanic subduction is ubiquitous and ongoing in modern oceanic basins, but it is rarely reported in ancient orogenic belts. At present, the identification of ancient intra-oceanic subduction processes is mostly based on the study of igneous rocks, and there has been a lack of sedimentological constraints. As a product of plate convergence, orogenic belts have recorded intra-ocean, ocean-continent subduction and continent-continent collision processes, and are natural laboratories for reshaping ancient subduction processes. The relatively complete Early Paleozoic trench-arc (basin) system outcropped in the North Qilian structural belt was formed in intra-oceanic and ocean-continental subduction, which provides an opportunity for classical research on the sedimentary response to intra-oceanic subduction. This project takes the Cambrian-Ordovician sedimentary basin in North Qilian as the research object, systematically studies the basin filling sequence, sedimentary facies and depositional environment, composition and source area of the filling, and focuses on petrology, clastic mineral structure and age "fingerprint" Combined with regional magmatic, metamorphic, and paleontological data, comprehensively analyze basin types and the evolution of the original Tethys Ocean, reconstruct the history of intraoceanic subduction and sedimentary responses, eliminate the blind spots in the study of intraoceanic subduction sedimentary records in orogenic belts, and try to establish a general The adaptive identification system of paleo-oceanic subduction geological records can make up for the defect that modern oceanic subduction zone studies cannot reveal the complete depositional process of basins, and provide new ideas and methods for the identification of intra-oceanic subduction of orogenic paleo-oceanic basins.
Research impacts
Professor Aitchison's research interests include the evolution of the the India-Asia collision system. This involves the Himalaya and Tibet-Qinghai Plateau and surrounding regions over a variety of time scales. He has a strong interest in tectonics and collision zones especially those involving intra-oceanic island arcs and ophiolites, subduction initiation, continental collision; the Yarlung Tsangpo, Indus, Bangong-Nujiang and Shyok suture zones, as well as the the role of tecotnics in the climatic evolution of Tibet. Recent fieldwork has concentrated in NW India in Ladakh as well as NE India in Arunachal Pradesh and Nagaland and Manipur. He has also been working on the northern margin of the Tibetan Plateau in the Qinling and Qilian regions. He also investigates the evolution of life on Earth, biogeography and extremophile organisms, radiolarian paleoecology and biostratigraphy, the tectonic evolution of East Asia and the tectonic evolution of eastern Australia through the Phanerozoic and island biogeography and the complex interplay between Darwinian biological evolution, and eustatic and subsidence driven sea-level change especially in the Galapagos. Recent paleobiogeographic work has involved Christmas Island and the Wallace Line.
The main projects he has been working on are as lead CI on an ARC DP funded investigation of "Early Paleozoic radiolarian evolution". This DP is now completed by the research continues and involves examination of incredibly well preserved radiolarian faunas using microCT (and from November 2022) synchrotron technology.
Jonathan is also working on another ARC DP funded project entitled "Diamonds in ophiolite: Recycling deep mantle into supra-subduction zones" examining ophiolitic rocks in New Caledonia, New Zealand and New England. These rocks include diamonds that carry and organic isotopic signature and are unique to supra-subduction zone ophiolites.
Works
Search Professor Jonathan Aitchison’s works on UQ eSpace
2020
Journal Article
Silurian sedimentation in the South Qilian Belt: arc‐continent collision‐related deposition in the NE Tibet Plateau?
Yan, Zhen, Fu, Changlei, Aitchison, Jonathan C., Zhou, Renjie, Buckman, Solomon and Chen, Lei (2020). Silurian sedimentation in the South Qilian Belt: arc‐continent collision‐related deposition in the NE Tibet Plateau?. Acta Geologica Sinica - English Edition, 94 (4) 1755-6724.14551, 901-913. doi: 10.1111/1755-6724.14551
2020
Journal Article
Triassic turbidites in the West Qinling Mountains, NW China: part of the collisional Songpan-Ganzi Basin or an active forearc basin?
Yan, Zhen, Fu, Changlei, Aitchison, Jonathan C., Buckman, Solomon, Niu, Manlan and Cao, Bo (2020). Triassic turbidites in the West Qinling Mountains, NW China: part of the collisional Songpan-Ganzi Basin or an active forearc basin?. Journal of Asian Earth Sciences, 194 104366, 104366. doi: 10.1016/j.jseaes.2020.104366
2020
Journal Article
Skeletal architecture of middle Cambrian spicular radiolarians revealed using micro-CT
Sheng, Jiani, Kachovich, Sarah and Aitchison, Jonathan C. (2020). Skeletal architecture of middle Cambrian spicular radiolarians revealed using micro-CT. Journal of Micropalaeontology, 39 (1), 61-76. doi: 10.5194/jm-39-61-2020
2020
Other Outputs
Virtual field trip to the New England Orogen (Version 1)
Zhou, Renjie and Aitchison, Jonathan C. (2020). Virtual field trip to the New England Orogen (Version 1). The University of Queensland. (Dataset) doi: 10.14264/e050a7f
2020
Journal Article
Middle Ordovician (Darriwilian) radiolarians from the Crawford Group, Scotland
Perera, Siyumini, Aitchison, Jonathan C. and Nothdurft, Linda (2020). Middle Ordovician (Darriwilian) radiolarians from the Crawford Group, Scotland. Geological Magazine, 157 (12) PII S001675682000028X, 1-11. doi: 10.1017/s001675682000028x
2020
Journal Article
Eocene foraminifers of the Naga Hills of Manipur, Indo-Myanmar Range (IMR): Implications on age and basin evolution
Lokho, Kapesa, Aitchison, Jonathan C., Whiso, Kezhakielie, Lhoupenyi, David, Zhou, Renjie and Raju, D.S.N. (2020). Eocene foraminifers of the Naga Hills of Manipur, Indo-Myanmar Range (IMR): Implications on age and basin evolution. Journal of Asian Earth Sciences, 191 104259, 104259. doi: 10.1016/j.jseaes.2020.104259
2020
Journal Article
Unroofing the Ladakh Batholith: constraints from autochthonous molasse of the Indus Basin, NW Himalaya
Zhou, Renjie, Aitchison, Jonathan C., Lokho, Kapesa, Sobel, Edward R., Feng, Yuexing and Zhao, Jian-xin (2020). Unroofing the Ladakh Batholith: constraints from autochthonous molasse of the Indus Basin, NW Himalaya. Journal of the Geological Society, 177 (4), jgs2019-188. doi: 10.1144/jgs2019-188
2020
Journal Article
Thank you to our 2019 reviewers
Schildgen, Taylor, Aitchison, Jonathan, Jolivet, Laurent and Rusmore, Margi (2020). Thank you to our 2019 reviewers. Tectonics, 39 (3) e2020TC006136, e2020TC006136. doi: 10.1029/2020tc006136
2020
Journal Article
Micro-CT study of Middle Ordovician Spumellaria (radiolarians) from western Newfoundland, Canada
Kachovich, Sarah and Aitchison, Jonathan C. (2020). Micro-CT study of Middle Ordovician Spumellaria (radiolarians) from western Newfoundland, Canada. Journal of Paleontology, 94 (3), 1-19. doi: 10.1017/jpa.2019.88
2020
Journal Article
Eocene ostracods from southern Tibet: implications for the disappearance of Neo-Tethys
Wang, Tianyang, Li, Guobiao, Aitchison, Jonathan C. and Sheng, Jiani (2020). Eocene ostracods from southern Tibet: implications for the disappearance of Neo-Tethys. Palaeogeography, Palaeoclimatology, Palaeoecology, 539 109488, 109488. doi: 10.1016/j.palaeo.2019.109488
2020
Other Outputs
Late Quaternary lake shorelines and ages, south-central Tibetan Plateau
Jonell, Tara, Aitchison, Jonathan, Li, Guoqiang, Shulmeister, James, Zhou, Renjie and Zhang, Haixia (2020). Late Quaternary lake shorelines and ages, south-central Tibetan Plateau. The University of Queensland. (Dataset) doi: 10.14264/95ccdf2
2020
Journal Article
Time of re-emergence of Christmas Island and its biogeographical significance
Ali, Jason R. and Aitchison, Jonathan C. (2020). Time of re-emergence of Christmas Island and its biogeographical significance. Palaeogeography, Palaeoclimatology, Palaeoecology, 537 109396, 109396. doi: 10.1016/j.palaeo.2019.109396
2020
Other Outputs
Micro-CT 3D models and videos of two middle Cambrian spicular radiolarians recovered from the Georgina Basin, Australia
Sheng, Jiani, Kachovich, Sarah and Aitchison, Jonathan C (2020). Micro-CT 3D models and videos of two middle Cambrian spicular radiolarians recovered from the Georgina Basin, Australia. The University of Queensland. (Dataset) doi: 10.14264/89f20d4
2020
Journal Article
Redrawing Wallace’s Line based on the fauna of Christmas Island, eastern Indian Ocean
Aitchison, Jonathan (2020). Redrawing Wallace’s Line based on the fauna of Christmas Island, eastern Indian Ocean. Biological Journal of the Linnean Society, 130 (1), 225-237. doi: 10.1093/biolinnean/blaa018
2019
Journal Article
Evolution of mid-Cretaceous radiolarians in response to oceanic anoxic events in the eastern Tethys (southern Tibet, China)
Wang, Tianyang, Li, Guobiao, Aitchison, Jonathan C., Ding, Lin and Sheng, Jiani (2019). Evolution of mid-Cretaceous radiolarians in response to oceanic anoxic events in the eastern Tethys (southern Tibet, China). Palaeogeography, Palaeoclimatology, Palaeoecology, 536 109369, 109369. doi: 10.1016/j.palaeo.2019.109369
2019
Journal Article
Thermal history of Early Jurassic eclogite facies metamorphism in the Nagaland Ophiolite Complex, NE India: New insights into pre-Cretaceous subduction channel tectonics within the Neo-Tethys
Rajkakati, M., Bhowmik, S.K., Ao, A., Ireland, T.R., Avila, J., Clarke, G.L., Bhandari, A. and Aitchison, J.C. (2019). Thermal history of Early Jurassic eclogite facies metamorphism in the Nagaland Ophiolite Complex, NE India: New insights into pre-Cretaceous subduction channel tectonics within the Neo-Tethys. Lithos, 346-347 105166, 105166. doi: 10.1016/j.lithos.2019.105166
2019
Journal Article
Retro‐foreland basin development in response to Proto‐Tethyan Ocean closure, NE Tibet Plateau
Yan, Zhen, Fu, Changlei, Aitchison, Jonathan C., Buckman, Solomon, Niu, Manlan, Cao, Bo, Sun, Yi, Guo, Xianqing, Wang, Zongqi and Zhou, Renjie (2019). Retro‐foreland basin development in response to Proto‐Tethyan Ocean closure, NE Tibet Plateau. Tectonics, 38 (12) 2019TC005560, 4229-4248. doi: 10.1029/2019tc005560
2019
Journal Article
Abyssal and suprasubduction peridotites in the Lajishan ophiolite belt: implication for initial subduction of the Proto-Tethyan Ocean
Fu, Changlei, Yan, Zhen, Aitchison, Jonathan C., Guo, Xianqing and Xia, Wenjing (2019). Abyssal and suprasubduction peridotites in the Lajishan ophiolite belt: implication for initial subduction of the Proto-Tethyan Ocean. The Journal of Geology, 127 (4), 393-410. doi: 10.1086/703488
2019
Journal Article
Adding a new dimension to investigations of early radiolarian evolution
Kachovich, Sarah, Sheng, Jiani and Aitchison, Jonathan C. (2019). Adding a new dimension to investigations of early radiolarian evolution. Scientific Reports, 9 (1) 6450, 6450. doi: 10.1038/s41598-019-42771-0
2019
Journal Article
Tectonic evolution of the western margin of the Burma microplate based on new fossil and radiometric age constraints
Aitchison, Jonathan C., Ao, Aliba, Bhowmik, Santanu, Clarke, Geoffrey L., Ireland, Trevor R., Kachovich, Sarah, Lokho, Kapesa, Stojanovic, Denis, Roeder, Tara, Truscott, Naomi, Zhen, Yan and Zhou, Renjie (2019). Tectonic evolution of the western margin of the Burma microplate based on new fossil and radiometric age constraints. Tectonics, 38 (5) 2018TC005049, 1718-1741. doi: 10.1029/2018tc005049
Funding
Current funding
Past funding
Supervision
Availability
- Professor Jonathan Aitchison is:
- Not available for supervision
Supervision history
Current supervision
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Doctor Philosophy
Diamonds in Ophiolites: recycling deep mantle into supra-subduction zones
Principal Advisor
Other advisors: Dr Renjie Zhou
Completed supervision
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2025
Doctor Philosophy
Understanding early radiolarian evolution: taxonomy, phylogeny and taphonomy through Micro-CT
Principal Advisor
Other advisors: Dr Renjie Zhou
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2022
Doctor Philosophy
Radiolarians during the Ordovician
Principal Advisor
Other advisors: Dr Gilbert Price
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2020
Doctor Philosophy
Extending the Knowledge of Disaster Recovery: an Asia-Pacific Perspective
Principal Advisor
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2018
Doctor Philosophy
Capturing initial skeletal growth in Paleozoic radiolarians
Principal Advisor
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2025
Doctor Philosophy
Geochronological and geochemical constraints on models for convergent Gondwana margins: Delamerian, Mossman and Variscan Orogens
Associate Advisor
Other advisors: Dr Renjie Zhou
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2023
Doctor Philosophy
New radiolarian-based methods for estimating water mass and sea-ice changes in the Southwest Pacific Sector of the Southern Ocean
Associate Advisor
Other advisors: Dr Jason Everett, Professor Helen Bostock
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2023
Doctor Philosophy
Understanding New Zealand and New Caledonia forearc ophiolites using rare accessory minerals
Associate Advisor
Other advisors: Dr Renjie Zhou
Media
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