Linkage Infrastructure, Equipment And Facilities - Grant ID: LE170100057
Funder
Australian Research Council
Funding Amount
$250,000.00
Summary
A high-resolution X-ray microtomography system. This project aims to establish a Scanco microCT 50 high resolution X-Ray microtomography system, to non-destructively visualise and quantitatively characterise complex samples, including advanced composites, tissue engineering constructs, biological tissues, minerals and fossils. The non-destructive characterisation of these samples is critical to advance research. The versatile system offers high spatial resolution (down to 500 nm voxel size) and ....A high-resolution X-ray microtomography system. This project aims to establish a Scanco microCT 50 high resolution X-Ray microtomography system, to non-destructively visualise and quantitatively characterise complex samples, including advanced composites, tissue engineering constructs, biological tissues, minerals and fossils. The non-destructive characterisation of these samples is critical to advance research. The versatile system offers high spatial resolution (down to 500 nm voxel size) and large sample size (up to 100 mm diameter). The project will enable progress in advanced composites, additive bio-manufacturing, physiology of biological tissues and palaeontology which will benefit Australian science. Additionally, through commercialisation and the formation of new companies, the project could potentially result in economic and health benefits to the wider Australian population and economy.Read moreRead less
Discovery Early Career Researcher Award - Grant ID: DE120101615
Funder
Australian Research Council
Funding Amount
$375,000.00
Summary
How does viviparity evolve? Genetic perspectives from a unique model system. By integrating decades of Australian natural history research with the same technology that allowed researchers to sequence the genome of the woolly mammoth, this project seeks to uncover the genetic mechanisms responsible for the transition from egg-laying to live-bearing in reptiles.
Significance and mechanisms of evaporative water loss control by endotherms. This project plans to examine the novel hypothesis that mammals and birds can control and minimise their evaporative water loss in dry environments. Water balance is fundamental for the survival of mammals and birds. As a large component of total water loss, evaporative water loss is particularly critical for species in arid habitats and areas undergoing desertification and other habitat modifications. Control of water ....Significance and mechanisms of evaporative water loss control by endotherms. This project plans to examine the novel hypothesis that mammals and birds can control and minimise their evaporative water loss in dry environments. Water balance is fundamental for the survival of mammals and birds. As a large component of total water loss, evaporative water loss is particularly critical for species in arid habitats and areas undergoing desertification and other habitat modifications. Control of water loss is a previously unappreciated ability in mammals and birds. Determining the mechanistic basis for evaporative homeostasis would fundamentally change our knowledge of animal function, and may help us to predict and understand the effects of environmental change on survival and distribution limits for Australian fauna.Read moreRead less
New approaches to understanding the forces driving convergent evolution. This project aims to address the evolutionary biology question of what drives convergent evolution of morphological phenotypes. Leveraging previous research on the phylogenetics of Australian reptiles and amphibians, the project will apply new methodological and analytical tools for quantifying and evaluating morphological diversity in a phylogenetic context. The project expects to test the influence of climate, habitat and ....New approaches to understanding the forces driving convergent evolution. This project aims to address the evolutionary biology question of what drives convergent evolution of morphological phenotypes. Leveraging previous research on the phylogenetics of Australian reptiles and amphibians, the project will apply new methodological and analytical tools for quantifying and evaluating morphological diversity in a phylogenetic context. The project expects to test the influence of climate, habitat and evolutionary history on driving convergent morphological evolution across multiple independent animal groups. The project will address fundamental theories on convergent evolution and will improve public awareness of Australia’s unique animals and their history.Read moreRead less
Phenotypic diversity dynamics at a continental scale. This project aims to build on previous research on the phylogenetics of Australian vertebrate animals to apply sophisticated new methodological and analytical tools for modelling species diversification. Australia is famous for the great diversity and uniqueness of its plants and animals, due in part to 40 million years of relative isolation. The project plans to test the influence of historical climate and habitat shifts on morphological evo ....Phenotypic diversity dynamics at a continental scale. This project aims to build on previous research on the phylogenetics of Australian vertebrate animals to apply sophisticated new methodological and analytical tools for modelling species diversification. Australia is famous for the great diversity and uniqueness of its plants and animals, due in part to 40 million years of relative isolation. The project plans to test the influence of historical climate and habitat shifts on morphological evolution and assembly of the Australian biota. This project could showcase Australia as the best place in the World to rigorously test hypotheses concerning rates of biological diversification at a continental scale.Read moreRead less
The link between the angiogenesis of live birth and cancer: a lizard model. The possible link between live birth and cancer will be tested in this project. Lizards that express a growth factor that helps the growth of human cancer tumours will be studied to determine the action of the factor in a whole animal and in human cancer cells.
Evolution of cognition and sociality in vertebrates. This project aims to understand better the selective forces shaping cognition and sociality in animals and to determine if 'social intelligence' theory, which predicts more sophisticated cognition as species become increasingly social, provides a general explanation for the evolution of intelligence.
Scaling of structure, function and energetics of the vertebrate cardiovascular system. The hearts of mammals, reptiles and fish do different amounts of work, depending on the animal’s metabolic rate and body size. This project attempts to understand why hearts are the size and thickness that they are, and whether this results in minimising the work necessary to satisfy the requirements of the animal.
Developing Assisted Reproductive Technologies for the Conservation of Critically Endangered Australian Amphibians. Unprecedented rates of species extinction are of global concern. Although high extinction rates are reported for all vertebrate classes, amphibians are the most severely affected. Captive-breeding programs play a key role in maintaining populations of endangered amphibian species, but in most cases reproductive rates are too low to support long term re-introduction programmes. This ....Developing Assisted Reproductive Technologies for the Conservation of Critically Endangered Australian Amphibians. Unprecedented rates of species extinction are of global concern. Although high extinction rates are reported for all vertebrate classes, amphibians are the most severely affected. Captive-breeding programs play a key role in maintaining populations of endangered amphibian species, but in most cases reproductive rates are too low to support long term re-introduction programmes. This study aims to develop sophisticated Assisted Reproductive Technologies (ART) to enhance the propagation and genetic management of endangered Australian frog species. ART is a powerful new approach to ex situ conservation that, if integrated into existing captive breeding programs, will ensure the preservation of Australia’s unique amphibian biodiversity.Read moreRead less
Cane toads as a model system for demographic analysis and invasive-species control. How do impacts on juvenile stages within a population affect later ages? This project will exploit recently developed methods to control early life-history stages of cane toads to provide a better understanding of population ecology and develop more effective ways to control invasive cane toads.