Discovery Early Career Researcher Award - Grant ID: DE190101423
Funder
Australian Research Council
Funding Amount
$370,000.00
Summary
Revealing the diets of dinosaurs through the complexity and shape of teeth. This project aims to reveal the role of diet in the spread and subsequent dominance of Mesozoic dinosaurs. Previous research has revealed much about dinosaur anatomy and diversity, but their diets remain broadly classified into two categories, herbivores and carnivores. This project will use 3D scans of dinosaur teeth to calculate anatomical indicators of diet, and interpret diet as a continuous variable which will permi ....Revealing the diets of dinosaurs through the complexity and shape of teeth. This project aims to reveal the role of diet in the spread and subsequent dominance of Mesozoic dinosaurs. Previous research has revealed much about dinosaur anatomy and diversity, but their diets remain broadly classified into two categories, herbivores and carnivores. This project will use 3D scans of dinosaur teeth to calculate anatomical indicators of diet, and interpret diet as a continuous variable which will permit unprecedented evolutionary analyses of dinosaur ecology. Anticipated outcomes include an innovative framework with which to reconstruct the ecological diversity of dinosaurs from Australia and around the world and understand the processes that led to their success for over 150 million years.Read moreRead less
Evolutionary dynamics in deep time: faunal turnover during the Ediacaran. This project aims to investigate the world’s oldest faunal succession in the fossil record by determining the presence and extent of a sedimentary gap and confirming the role of time in the control of fossil distribution. Significant breakthroughs and capacity building are expected in the areas of palaeontology, evolutionary biology and geology using a hitherto unrecognised hiatus in the rock succession. Project outcomes i ....Evolutionary dynamics in deep time: faunal turnover during the Ediacaran. This project aims to investigate the world’s oldest faunal succession in the fossil record by determining the presence and extent of a sedimentary gap and confirming the role of time in the control of fossil distribution. Significant breakthroughs and capacity building are expected in the areas of palaeontology, evolutionary biology and geology using a hitherto unrecognised hiatus in the rock succession. Project outcomes include enhanced understanding of the first animal communities on Earth – these should provide significant benefits, such as revealing Australia's unique record of oldest complex organisms, while bringing additional tourism to the region, and increasing the strength of the Flinders Ranges UNESCO World Heritage nomination.Read moreRead less
Discovery Early Career Researcher Award - Grant ID: DE160100247
Funder
Australian Research Council
Funding Amount
$353,706.00
Summary
Out of China? Australia's earliest endemic jawed vertebrate faunas. This project will seek new fossil discoveries from Australian Devonian sediments to address questions of the origins, diversification and biogeographical dispersal of early jawed vertebrates. In particular, there is the potential to test or refine recent evolutionary hypotheses based on fossil finds from the Siluro-Devonian of southern China which served as a likely point of origin for several key vertebrate groups. Likely finds ....Out of China? Australia's earliest endemic jawed vertebrate faunas. This project will seek new fossil discoveries from Australian Devonian sediments to address questions of the origins, diversification and biogeographical dispersal of early jawed vertebrates. In particular, there is the potential to test or refine recent evolutionary hypotheses based on fossil finds from the Siluro-Devonian of southern China which served as a likely point of origin for several key vertebrate groups. Likely finds include fishes that test dermal bone-homologies between osteichthyans and placoderms, jawless fishes that may unveil details of the origin of jaws, and calibration of paleoatmospheric models via the observed size of Early Devonian fossil fishes.Read moreRead less
Island fauna evolution through deep time: the Flores experiment. This project aims to reveal the evolutionary patterns of insular fauna, including hominins, as exemplified by the island of Flores. Through multidisciplinary analyses of securely dated fossils, artefacts and environmental data spanning 1.4 million years, the project expects to provide a deep and broad reconstruction of faunal adaptations to insular conditions and environmental fluctuations through deep geological time. The signific ....Island fauna evolution through deep time: the Flores experiment. This project aims to reveal the evolutionary patterns of insular fauna, including hominins, as exemplified by the island of Flores. Through multidisciplinary analyses of securely dated fossils, artefacts and environmental data spanning 1.4 million years, the project expects to provide a deep and broad reconstruction of faunal adaptations to insular conditions and environmental fluctuations through deep geological time. The significance of this research includes the first comprehensive testing of hypotheses associated with island dwarfing (where megafauna, over time, become smaller), and providing the first palaeo-ecological context for the only known insular hominin, Homo floresiensis.Read moreRead less
Sumatra’s role in ancient human movements and evolution. This project aims to test whether humans moving through Southeast Asia used a savannah corridor, facilitating their migrations into Sumatra and Java, and examine the effect of rainforests on human movements and evolution. This will be accomplished by examining ecological proxies from vertebrate remains found in established and newly identified fossil sites in Sumatra. These results are expected to provide a new understanding of the environ ....Sumatra’s role in ancient human movements and evolution. This project aims to test whether humans moving through Southeast Asia used a savannah corridor, facilitating their migrations into Sumatra and Java, and examine the effect of rainforests on human movements and evolution. This will be accomplished by examining ecological proxies from vertebrate remains found in established and newly identified fossil sites in Sumatra. These results are expected to provide a new understanding of the environmental context of human evolution in Asia, and identify routes ancient people took as they moved south through Asia and into Australia.Read moreRead less
Discovery Early Career Researcher Award - Grant ID: DE130100467
Funder
Australian Research Council
Funding Amount
$374,823.00
Summary
Limbs and wings: reconstructing Australian environmental change through innovative analysis of ancient mammal skeletons. An animal's skeleton is the product of a complex relationship between its habits, habitat and evolutionary history. This project uses a vast resource of World Heritage fossil skeletons from Riversleigh to determine how behaviour and ecology of Australia's mammals have changed over the last 25 million years and will need to adapt in the future.
Discovery Early Career Researcher Award - Grant ID: DE180100017
Funder
Australian Research Council
Funding Amount
$404,950.00
Summary
A pictorial and geochemical history of Great Barrier Reef changes. This project aims to determine the timing and associated drivers behind dramatic changes in coral communities on reef flat environments since European settlement. It will use Uranium-Thorium dating, palaeoecological and geochemical techniques, as well as spatial elevation surveys to determine the timing and cause of ecological transition for inshore coral communities. This project will contribute baseline knowledge on the timing ....A pictorial and geochemical history of Great Barrier Reef changes. This project aims to determine the timing and associated drivers behind dramatic changes in coral communities on reef flat environments since European settlement. It will use Uranium-Thorium dating, palaeoecological and geochemical techniques, as well as spatial elevation surveys to determine the timing and cause of ecological transition for inshore coral communities. This project will contribute baseline knowledge on the timing and mechanisms associated with dramatic declines in coral cover on inshore reefs of the world heritage listed Great Barrier Reef, and provide a robust scientific foundation for effective monitoring.Read moreRead less
Extricating extinction histories at Lake Callabonna’s megafauna necropolis. This project aims to determine the nature, timing and causes of megafaunal extinction in arid Australia using an extensive fossil necropolis at Lake Callabonna. An approach combining geochronology, morphology and histology studies will be used to generate novel understanding of both the life and death of Australia’s most iconic megafaunal species. Expected outcomes of the project include generating critical new insights ....Extricating extinction histories at Lake Callabonna’s megafauna necropolis. This project aims to determine the nature, timing and causes of megafaunal extinction in arid Australia using an extensive fossil necropolis at Lake Callabonna. An approach combining geochronology, morphology and histology studies will be used to generate novel understanding of both the life and death of Australia’s most iconic megafaunal species. Expected outcomes of the project include generating critical new insights into the globally significant megafauna extinction debate, and enhancing institutional and international collaborations in palaeoecological research. By providing a deep time perspective on Australia’s extinction dynamics, this project will benefit future conservation management strategies.Read moreRead less
Naracoorte caves: a critical window on faunal extinctions and past climates. This project aims to establish an unprecedented record of biodiversity and environmental change at Australia’s richest Quaternary fossil site – Naracoorte Caves. The study will integrate all aspects of the preserved deposits, employing new approaches in geochronology, palaeontology and geochemistry to develop truly comprehensive palaeoecological and palaeoclimate histories. This project will establish a benchmark datase ....Naracoorte caves: a critical window on faunal extinctions and past climates. This project aims to establish an unprecedented record of biodiversity and environmental change at Australia’s richest Quaternary fossil site – Naracoorte Caves. The study will integrate all aspects of the preserved deposits, employing new approaches in geochronology, palaeontology and geochemistry to develop truly comprehensive palaeoecological and palaeoclimate histories. This project will establish a benchmark dataset on past ecological and environmental change, strengthening scientific innovation in key research priority areas. It will have significant implications for understanding megafauna extinctions and past biodiversity responses, and will inform future conservation and climate change adaptation strategies. The project will transform the scientific profile of Naracoorte Caves, ensuring socioeconomic benefits to regional communities through education, ecotourism and knowledge marketing.Read moreRead less