Fossils, rocks and early Cambrian clocks: calibrating body plan assembly and lineage splits in ancestral animals from Gondwana. The precise timing of when animal body plans evolved and rapidly diversified during the Cambrian Explosion remains mysterious. This project will investigate vast collections of exquisitely preserved early-middle Cambrian fossils from Australia to determine the precise order of evolutionary events at the root of the animal tree of life.
Geomolecular dating with biologically relaxed clocks, and mammal evolution. This project aims to use DNA, fossils and biological cues to synergistically model evolutionary rate changes. Molecular dates allow direct comparison of evolutionary and ecological patterns and processes across the tree of life. However, current models struggle to identify the location and magnitude of molecular clock rate changes on phylogenies, often resulting in wildly inaccurate dates. Expected outcomes include impro ....Geomolecular dating with biologically relaxed clocks, and mammal evolution. This project aims to use DNA, fossils and biological cues to synergistically model evolutionary rate changes. Molecular dates allow direct comparison of evolutionary and ecological patterns and processes across the tree of life. However, current models struggle to identify the location and magnitude of molecular clock rate changes on phylogenies, often resulting in wildly inaccurate dates. Expected outcomes include improved dating accuracy, and a novel statistical framework for morphological data, which allows fossils to be more accurately merged into the tree of life. In turn, the project aims to resolve intense debate on the origins of marsupial and placental mammals, and to trace the responses of these two groups to past environmental changes.Read moreRead less
Discovery Early Career Researcher Award - Grant ID: DE170101325
Funder
Australian Research Council
Funding Amount
$353,705.00
Summary
Opalised fossils and the evolution of Australia's dinosaurs. This project aims to study dinosaur evolution in Australia. Dinosaurs were one of Earth's most successful land vertebrates, but Australia’s perceived poor dinosaur fossil record has stymied significant advances in the field and promoted the view that it was an evolutionary dead-end. This project will challenge this perception by coupling an exceptional but under-valued fossil resource from Lightning Ridge, NSW, with new phylogenetic me ....Opalised fossils and the evolution of Australia's dinosaurs. This project aims to study dinosaur evolution in Australia. Dinosaurs were one of Earth's most successful land vertebrates, but Australia’s perceived poor dinosaur fossil record has stymied significant advances in the field and promoted the view that it was an evolutionary dead-end. This project will challenge this perception by coupling an exceptional but under-valued fossil resource from Lightning Ridge, NSW, with new phylogenetic methodology and synchrotron analyses. The expected result is better understanding of the diversity, biology, and evolutionary relationships of Australian dinosaurs in the context of global dinosaur evolution.Read moreRead less
Australian Sea Anemone Venoms: Bioprospecting & Evolution. Australian sea anemones are a highly promising and largely unexplored source of peptides and proteins with potential therapeutic and diagnostic applications. This project aims to evaluate this potential by undertaking transcriptomic analyses of a number species of anemones from Australian waters and identifying peptides and proteins in their venoms by mass spectrometry. It will also demonstrate the value of transcriptomics in informing t ....Australian Sea Anemone Venoms: Bioprospecting & Evolution. Australian sea anemones are a highly promising and largely unexplored source of peptides and proteins with potential therapeutic and diagnostic applications. This project aims to evaluate this potential by undertaking transcriptomic analyses of a number species of anemones from Australian waters and identifying peptides and proteins in their venoms by mass spectrometry. It will also demonstrate the value of transcriptomics in informing taxonomic classification of anemones. In addition this project will assess toxin diversity within and between species based on nematocyst function from specific tissue sources and provide a clearer understanding of the evolution of venoms in Australian Actiniaria.Read moreRead less
Discovery Early Career Researcher Award - Grant ID: DE130101133
Funder
Australian Research Council
Funding Amount
$375,000.00
Summary
Evolution, breeding biology and extinction of giant fowl in Australia and the Southwest Pacific. New investigation of the extinct giant flightless Australian mihirungs and similar giant fowl of Oceania by analysis of fossils will reveal their relationships and resolve the evolutionary history of fowl globally. This project will provide insight into breeding strategies of these fossil species and the causes and impacts of their extinction.
The developmental genetics of major evolutionary transitions: a multidisciplinary investigation of limb reduction and loss in lizards. The five-toed limb is an iconic evolutionary innovation of land vertebrates, yet has been lost repeatedly. This project will use anatomical, developmental and genetic approaches to understand how vertebrates lose their legs, whether limbs can be reacquired, and the degeneration of limb genes after they lose their function (analogous to 'vestigial organs').
Discovery Early Career Researcher Award - Grant ID: DE200101222
Funder
Australian Research Council
Funding Amount
$392,132.00
Summary
Australia's key role in the evolution of songbirds. This project aims to provide novel insights into the evolutionary history of songbirds, which originated in Australia and now make up over half of the world's birds. The project will combine fossil, morphological, and genomic data to describe early songbird diversity in Australia, reconstruct the evolutionary relationships of fossil species, estimate the timescale of their diversification, and resolve the timing and nature of key evolutionary c ....Australia's key role in the evolution of songbirds. This project aims to provide novel insights into the evolutionary history of songbirds, which originated in Australia and now make up over half of the world's birds. The project will combine fossil, morphological, and genomic data to describe early songbird diversity in Australia, reconstruct the evolutionary relationships of fossil species, estimate the timescale of their diversification, and resolve the timing and nature of key evolutionary changes in songbirds. The project is expected to produce critical new fossil evidence and to strengthen international and multidisciplinary collaborations. Expected outcomes include significant advances in our understanding of a major component of the Australian and global fauna.Read moreRead less
Phylogenomic assessment of conservation priorities in two biodiversity hotspots: the Pilbara and the Kimberley. This project applies new sequencing and analytical methods to measure how much unique genetic diversity is represented in current and planned reserves across two biodiversity hotspots – the Pilbara and Kimberley of north-west Australia. It combines university, museum and conservation agency researchers to improve ongoing conservation planning.
Linkage Infrastructure, Equipment And Facilities - Grant ID: LE110100134
Funder
Australian Research Council
Funding Amount
$160,240.00
Summary
Sydney basin multi-purpose spectral analysis facility for evolutionary and ecological studies. This near infrared spectroscopy facility at The University of New South Wales will serve the Sydney area biological research community. Near infrared spectroscopy provides quick and robust estimates of key properties of animal and plant tissues, such as age, species and chemical composition.
Biodiversity and population genetics of groundwater calcrete ecosystems of central Western Australia. This project will lead to documentation of a unique subterranean ecosystem of world acclaim, representing a significant component of the biodiversity of the Australian arid zone. It will further contribute to sustainable management of groundwater ecosystems and provide information that can be used to predict and monitor how future water use and climate change may impact on these ecosystems. Resu ....Biodiversity and population genetics of groundwater calcrete ecosystems of central Western Australia. This project will lead to documentation of a unique subterranean ecosystem of world acclaim, representing a significant component of the biodiversity of the Australian arid zone. It will further contribute to sustainable management of groundwater ecosystems and provide information that can be used to predict and monitor how future water use and climate change may impact on these ecosystems. Results generated will provide the knowledge base required to improve the efficiency and scientific rigour of the environmental review process for major resource projects, leading to economic benefits to the mining and environmental consultancy industries, and to Australia in general.Read moreRead less