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
Constructing robust climate proxies to explore human and primate evolution. This project will build the requisite foundation to resolve whether variable climate change sparked the origins of humans and our great ape forebears. Scientists endeavor to recover ancient environmental records to examine this influential idea, but have lacked the means to do so at the scale of a human lifespan. This multidisciplinary effort will harness groundbreaking advances pioneered by our collaborative team to pro ....Constructing robust climate proxies to explore human and primate evolution. This project will build the requisite foundation to resolve whether variable climate change sparked the origins of humans and our great ape forebears. Scientists endeavor to recover ancient environmental records to examine this influential idea, but have lacked the means to do so at the scale of a human lifespan. This multidisciplinary effort will harness groundbreaking advances pioneered by our collaborative team to produce the first fine-scaled climate proxies from the teeth of humans’ closest living relatives. Documenting climate variation across diverse landscapes promises to transform studies of prehistoric ecosystems and past behaviour from omnipresent fossilised teeth, providing further insight into humanity’s unprecedented success.Read moreRead less