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
The Creation of Southeast Asian Peoples and Cultures, 3500 BC to AD 500. This project will make a significant intellectual contribution to enhancing Australia's awareness of the histories of neighbouring populations in Southeast Asia that in total exceed 350 million people. It will thus contribute to a better understanding of our region and the world. The project will also benefit the indigenous populations and future researchers of neighbouring Southeast Asian countries, through training, resea ....The Creation of Southeast Asian Peoples and Cultures, 3500 BC to AD 500. This project will make a significant intellectual contribution to enhancing Australia's awareness of the histories of neighbouring populations in Southeast Asia that in total exceed 350 million people. It will thus contribute to a better understanding of our region and the world. The project will also benefit the indigenous populations and future researchers of neighbouring Southeast Asian countries, through training, research collaboration and the dissemination of original research results, enhancing Australia's status as a supportive neighbour in the region.Read moreRead less
Establishing the provenance of Torres Strait Islander remains: genetics, craniometrics and isotopes. The repatriation of Aboriginal and Torres Strait Islander remains has been a focus of Commonwealth and State Governments for over two decades. It remains as a significant social and cultural issue for many Indigenous Australians. One of the main hurdles to repatriation is the fact that hundreds, and possibly thousands of human remains have very little contextual detail associated with them. A num ....Establishing the provenance of Torres Strait Islander remains: genetics, craniometrics and isotopes. The repatriation of Aboriginal and Torres Strait Islander remains has been a focus of Commonwealth and State Governments for over two decades. It remains as a significant social and cultural issue for many Indigenous Australians. One of the main hurdles to repatriation is the fact that hundreds, and possibly thousands of human remains have very little contextual detail associated with them. A number of techniques have been developed in the field of biological anthropology to reconstruct the history of individual skeletal remains. This innovative project aims to use advances in the fields of ancient DNA, isotope analysis and craniometrics to resolve the provenance of 113 trophy skulls from the Torres Strait Islands.Read moreRead less
Discovery Early Career Researcher Award - Grant ID: DE190100068
Funder
Australian Research Council
Funding Amount
$381,268.00
Summary
Bone metabolism change with lifestyle in ancient Asia-Pacific populations. This project aims to address a significant gap in our current knowledge of global change in skeletal health throughout recent human history. By contributing the first bone microstructural data for archaeological humans from across Asia-Pacific, this project aims to map the ways in which these ancient humans grew and adapted to different lifestyles. The project expects to identify new ways of predicting human bone health r ....Bone metabolism change with lifestyle in ancient Asia-Pacific populations. This project aims to address a significant gap in our current knowledge of global change in skeletal health throughout recent human history. By contributing the first bone microstructural data for archaeological humans from across Asia-Pacific, this project aims to map the ways in which these ancient humans grew and adapted to different lifestyles. The project expects to identify new ways of predicting human bone health response to environmental and cultural change, contributing models for the wellbeing of past, living, and future human generations.Read moreRead less
Archaeology and natural history. This project aims to provide critical new information on the archaeology and natural history of one of the world’s largest unregulated desert river systems. Mithaka country incorporates the highly significant Channel Country on the eastern edge of Australia's arid centre. Preliminary research has identified more than 70 large site complexes that provide critical insights on how the Mithaka people adapted to this unique environment and took part in Australia's mos ....Archaeology and natural history. This project aims to provide critical new information on the archaeology and natural history of one of the world’s largest unregulated desert river systems. Mithaka country incorporates the highly significant Channel Country on the eastern edge of Australia's arid centre. Preliminary research has identified more than 70 large site complexes that provide critical insights on how the Mithaka people adapted to this unique environment and took part in Australia's most extensive long distance trade systems. The project will study the archaeological landscape, artefacts and an extensive in-situ skeletal record in the context of a detailed palaeoenvironmental study. It will provide a new cultural-environmental history of this landscape and provide the Mithaka with multiple strands of connection to their ancestral land and culture and support their aspirations to create employment through rangers programs, education and cultural tourism.Read moreRead less
Leading-edge digital reconstruction and biomechanical modelling meet the Neanderthal skull: So why the long face? Perhaps no other extinct species has excited scientific or popular imagination as has our closest cousin, the Neanderthal. Who were these people? Once presented as the archetypal brute, it is now increasingly clear that these powerful, large brained humans were capable of sophisticated behaviours and that most of us carry Neanderthal DNA. Yet many questions remain. One of the most pe ....Leading-edge digital reconstruction and biomechanical modelling meet the Neanderthal skull: So why the long face? Perhaps no other extinct species has excited scientific or popular imagination as has our closest cousin, the Neanderthal. Who were these people? Once presented as the archetypal brute, it is now increasingly clear that these powerful, large brained humans were capable of sophisticated behaviours and that most of us carry Neanderthal DNA. Yet many questions remain. One of the most persistent is why the distinctive drawn out, prognathous face? The project will address this question, applying and developing recent advances the applicants have made in digital reconstruction and modelling, maintaining Australian research at the leading edge in the fast growing fields of virtual reconstruction and comparative biomechanics.Read moreRead less
The contribution of South Asia to the peopling of Australasia. This project focuses on the human fossil record from three regions critical to understanding the origins of our species, Homo sapiens. Australia is crucial in view of its diverse array of "gracile" and "robust" human remains of Late Pleistocene/early Holocene age. Equally important are South and Southeast Asia as they lined the tropical route between Africa, our species' Late Pleistocene homeland according to the Out of Africa theory ....The contribution of South Asia to the peopling of Australasia. This project focuses on the human fossil record from three regions critical to understanding the origins of our species, Homo sapiens. Australia is crucial in view of its diverse array of "gracile" and "robust" human remains of Late Pleistocene/early Holocene age. Equally important are South and Southeast Asia as they lined the tropical route between Africa, our species' Late Pleistocene homeland according to the Out of Africa theory, and Australia. Osteological and archaeological evidence of the selection pressures that operated on earlier hunter-gatherers will be employed to explain the observed patterns of morphological evolution throughout the study region.Read moreRead less
A New Approach to Studying Whole Bodies and Body Parts Applied to Problems of Forensic Science. To bring to the study of whole humans and human body parts, new methods capable of major advances such as those already provided by DNA technology in the study of human tissues, cells and molecules. This will allow better identification of human groups, geographic populations, gender differences and ageing.
To update facilities in forensic sciences strengthening Australian security systems thus he ....A New Approach to Studying Whole Bodies and Body Parts Applied to Problems of Forensic Science. To bring to the study of whole humans and human body parts, new methods capable of major advances such as those already provided by DNA technology in the study of human tissues, cells and molecules. This will allow better identification of human groups, geographic populations, gender differences and ageing.
To update facilities in forensic sciences strengthening Australian security systems thus helping fight terrorism and crime.
To establish international collaborations for Australia, especially with Asia.
To train young people, through Master's and Doctoral degrees programmes, in handling the new techniques and applying them to problems of forensic science
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A real-time biomechanical study of Neanderthal anterior dentition. This project aims to advance understanding of the evolution of human dentition using an innovative approach that integrates sophisticated 3D digital modelling with engineering tools. Neanderthals are our closest extinct human relatives that inhabited Eurasia from about 230,000 to 28,000 years ago. However, their protruding faces, large noses and big anterior teeth, raise questions about why these people look so different from us. ....A real-time biomechanical study of Neanderthal anterior dentition. This project aims to advance understanding of the evolution of human dentition using an innovative approach that integrates sophisticated 3D digital modelling with engineering tools. Neanderthals are our closest extinct human relatives that inhabited Eurasia from about 230,000 to 28,000 years ago. However, their protruding faces, large noses and big anterior teeth, raise questions about why these people look so different from us. This project aims to fill this gap in human knowledge about our evolutionary history, and to enhance the international visibility of Australian research in palaeoanthropology and dental biomechanics.Read moreRead less
Computer-assisted 3D morphometrics for human identification. This project anticipates the rapid adoption by security services of comparative 3-D facial morphometrics for the identification of "persons of interest" and the concomitant creation of large databases of such characteristics. Anatomical knowledge will be used to refine new Japanese software which semi-automatically matches 3D facial landmarks and morphology between suspect and database and to validate its use in Australia. We build on ....Computer-assisted 3D morphometrics for human identification. This project anticipates the rapid adoption by security services of comparative 3-D facial morphometrics for the identification of "persons of interest" and the concomitant creation of large databases of such characteristics. Anatomical knowledge will be used to refine new Japanese software which semi-automatically matches 3D facial landmarks and morphology between suspect and database and to validate its use in Australia. We build on current collaborative research by the applicants in Australia and Japan with funding provided by both governments. Our research has validated comparative facial morphometrics for suspect identification and underpinned the use of facial scanning by police throughout Japan.Read moreRead less