Testing our knowledge on the dawn of animal life: evidence from the fossil record against modern ecological and morphological analogues. The Cambrian 'Explosion', half a billion years ago, is regarded as one of the most important events in the history of the Earth, when most major animal groups first appear in the rock record, and for which South Australia has recently become a significant source of spectacular fossils. However, important questions remain regarding their Ediacaran roots, the spe ....Testing our knowledge on the dawn of animal life: evidence from the fossil record against modern ecological and morphological analogues. The Cambrian 'Explosion', half a billion years ago, is regarded as one of the most important events in the history of the Earth, when most major animal groups first appear in the rock record, and for which South Australia has recently become a significant source of spectacular fossils. However, important questions remain regarding their Ediacaran roots, the speed of evolution at the time, and the environments in which the radiation took place. Studying the fossil evidence in the light of present-day ecological frameworks, and in comparison with modern behavioural and morphological analogues, as well as living relatives, can help us better assess our understanding of this first radiation of animals.Read moreRead less
Resolving how five million years of dramatic climatic changes shaped Australia's unique fauna. Australia’s biota is a product of its unique heritage, tectonic history and most especially its climate. Over the past five million years it has been beset by a series of intense climatic shifts driven by a combination of global and regional factors. This project will be the first to track faunal responses to environmental changes across this critical interval. It will establish the dynamics of the ori ....Resolving how five million years of dramatic climatic changes shaped Australia's unique fauna. Australia’s biota is a product of its unique heritage, tectonic history and most especially its climate. Over the past five million years it has been beset by a series of intense climatic shifts driven by a combination of global and regional factors. This project will be the first to track faunal responses to environmental changes across this critical interval. It will establish the dynamics of the origin of the modern southern vertebrate fauna, analysing changes in diversity, diet and community structure. By exploring associations between phases of faunal turnover and key climatic transitions, it will bring a Southern Hemisphere perspective to evolutionary models of Cenozoic faunal change largely generated to date from Northern Hemisphere data.Read moreRead less
Stories from the past: the impact of industrialisation on the human microbiome. This project aims to explore the history and origin of ‘Industrial’ diseases such as obesity, diabetes, heart disease and autism. Non-communicable, ‘Industrial’ diseases are rising at an alarming rate in Australia, and changes to the beneficial microorganisms within the human body (microbiota) may be to blame. This project will explore how human microbiota have changed over the past 100 years in response to cultural, ....Stories from the past: the impact of industrialisation on the human microbiome. This project aims to explore the history and origin of ‘Industrial’ diseases such as obesity, diabetes, heart disease and autism. Non-communicable, ‘Industrial’ diseases are rising at an alarming rate in Australia, and changes to the beneficial microorganisms within the human body (microbiota) may be to blame. This project will explore how human microbiota have changed over the past 100 years in response to cultural, environmental, and lifestyle factors linked with Industrialisation. This approach will allow stories from the past to inform modern medical treatment strategies and public health decisions in the future. The project will identify changes in environment, diet, hygiene, and medicine that have altered human microbiota in the past and sparked the Industrial disease epidemic in Australia today.Read moreRead less
Using ancient fish ear bones to overcome the shifting baseline syndrome in freshwater fish populations. Chemical tracers in fish ear bones from 5,500 years ago through to modern times will provide information on changes in fish ecology over centuries and identify why freshwater fish populations have declined. Outcomes will provide knowledge of how fish populations would react to altered fishing pressure and restoration of environments.