Size matters: elephantoid dispersal, evolution, paleoecology and extinction in Asia. This project will investigate the natural history of the once widespread elephant lineages in Asia by studying their fossils and unlocking chemical archives from their teeth. It will provide new insights into their adaptive responses to climate change and life on islands, interactions with humans and the factors that eventually led to their demise.
New bioarchaeological perspectives on pre-contact lifeways in Sahul . This project aims to establish a new bioarchaeology research program to study socio-economic changes in the Australia-New Guinea continent Sahul and provide new insights into the complexity of societies from diverse environments. Bioarchaeology provides a unique lens for interpreting the past, however research of this nature has largely been inactive due to the sensitivity of studying ancestral remains of Indigenous people. H ....New bioarchaeological perspectives on pre-contact lifeways in Sahul . This project aims to establish a new bioarchaeology research program to study socio-economic changes in the Australia-New Guinea continent Sahul and provide new insights into the complexity of societies from diverse environments. Bioarchaeology provides a unique lens for interpreting the past, however research of this nature has largely been inactive due to the sensitivity of studying ancestral remains of Indigenous people. However, there is growing interest from Aboriginal groups in the narratives that can be reconstructed from their ancestors, and many Aboriginal communities now support research on skeletal remains. In collaboration with Aboriginal communities, the project will apply new developments in bioarchaeology to sensitively assess patterns of mobility and sedentism in three separate populations. This project is expected to initiate a new era of bioarchaeological research and redefine our understanding of the complexity of past Aboriginal and Papuan narratives.Read moreRead less
Early human dispersal: identifying the key environmental drivers. This project aims to investigate if environmental or human evolutionary processes drove the dispersal of early humans eastwards from Africa into Southeast Asia—and beyond into Australia. The project will examine archaeological sediments using an Earth-science approach, providing direct links between cultural and environmental records. The project will reveal the types of environment that were favored by early humans and provide a ....Early human dispersal: identifying the key environmental drivers. This project aims to investigate if environmental or human evolutionary processes drove the dispersal of early humans eastwards from Africa into Southeast Asia—and beyond into Australia. The project will examine archaeological sediments using an Earth-science approach, providing direct links between cultural and environmental records. The project will reveal the types of environment that were favored by early humans and provide a greater understanding of the role of environmental change on the colonisation of new environments. Read moreRead less
Shedding light on Neanderthal histories using luminescence chronologies. This project aims to develop unprecedented reconstructions of Neanderthal evolution, cultural and extinction histories at previously undatable or understudied European archaeology sites using a versatile luminescence dating toolkit. It will integrate multiple dating methods, palaeoclimate proxies and palaeoecological data to provide comprehensive knowledge of the timing, context and nature of Neanderthal evolution. Expected ....Shedding light on Neanderthal histories using luminescence chronologies. This project aims to develop unprecedented reconstructions of Neanderthal evolution, cultural and extinction histories at previously undatable or understudied European archaeology sites using a versatile luminescence dating toolkit. It will integrate multiple dating methods, palaeoclimate proxies and palaeoecological data to provide comprehensive knowledge of the timing, context and nature of Neanderthal evolution. Expected outcomes include unravelling past human responses to climate change, elucidating regional occupation patterns, emergence of complex behaviours, and causes of Neanderthal demise; with benefits for refining our own species deep-time evolutionary trajectory and global expansion across different regions, including Australia.Read moreRead less
Next-generation luminescence dating techniques for Earth and archaeological science applications. Chronology is a critical component of geological and archaeological studies. To reconstruct the evolutionary histories of Homo sapiens and other hominin species in their environmental context, we must establish reliable age estimates for key archaeological sites and Quaternary deposits. This project aims to develop new-generation sediment dating techniques using the non-fading infrared stimulated lu ....Next-generation luminescence dating techniques for Earth and archaeological science applications. Chronology is a critical component of geological and archaeological studies. To reconstruct the evolutionary histories of Homo sapiens and other hominin species in their environmental context, we must establish reliable age estimates for key archaeological sites and Quaternary deposits. This project aims to develop new-generation sediment dating techniques using the non-fading infrared stimulated luminescence (IRSL) signal from potassium feldspars. These improved methods will be able to be applied to sites in Africa, Europe and Asia that contain important human fossils and artefacts, including the unique type localities of ‘Denisovans’ and ‘Hobbits’, to answer fundamental questions about the timing of key turning points in human evolution and dispersal.Read moreRead less