Discovery Early Career Researcher Award - Grant ID: DE190101338
Funder
Australian Research Council
Funding Amount
$373,711.00
Summary
Building your future: builder-building coevolution in animal architectures. This project aims to reconstruct how animal architectures change throughout time and how this affects body shapes and functions of their builders. By clarifying the biological role of building behaviour this project will assist in predicting long term responses of wildlife, ecosystems and human life to a changing environment. The project expects to be achieved by comparing the structure, assembly and mechanical performan ....Building your future: builder-building coevolution in animal architectures. This project aims to reconstruct how animal architectures change throughout time and how this affects body shapes and functions of their builders. By clarifying the biological role of building behaviour this project will assist in predicting long term responses of wildlife, ecosystems and human life to a changing environment. The project expects to be achieved by comparing the structure, assembly and mechanical performance of animal architectures with animal morphology and performance in a global phylogenetic framework. This is critical for strategic planning of wildlife and landscape management.Read moreRead less
The evolution of generalism: why so many polyphagous fruit flies? This project aims to understand why flies that cause maggoty fruit have so frequently evolved the generalist feeding habitat. Insect herbivores make up 50 per cent of eukaryotic species on earth. Nearly all are host specialists, feeding on only one or very few plant species. In stark contrast, 40 per cent of tropical fruit flies are generalists, feeding across many plant families. This project aims to test specific hypotheses to e ....The evolution of generalism: why so many polyphagous fruit flies? This project aims to understand why flies that cause maggoty fruit have so frequently evolved the generalist feeding habitat. Insect herbivores make up 50 per cent of eukaryotic species on earth. Nearly all are host specialists, feeding on only one or very few plant species. In stark contrast, 40 per cent of tropical fruit flies are generalists, feeding across many plant families. This project aims to test specific hypotheses to explain the high frequency of generalism in Bactrocera. Outcomes will significantly advance understanding of the evolution of generalism, and so greatly advance herbivory theory. As Bactrocera are also globally significant horticultural pests, the project will provide under-pinning science for pest management.Read moreRead less
Unlocking the paradox of imperfect mimicry. This project aims to resolve why some mimics resemble their models closely, whereas others are only superficially similar. The existence of imperfect mimics makes understanding the biology of mimicry difficult. This project addresses the difficulty by evaluating competing hypotheses. It will combine morphometrics, colourmetrics and phylogenomics with predator behaviour across several independent lineages of mimetic arthropods. Predicted outcomes includ ....Unlocking the paradox of imperfect mimicry. This project aims to resolve why some mimics resemble their models closely, whereas others are only superficially similar. The existence of imperfect mimics makes understanding the biology of mimicry difficult. This project addresses the difficulty by evaluating competing hypotheses. It will combine morphometrics, colourmetrics and phylogenomics with predator behaviour across several independent lineages of mimetic arthropods. Predicted outcomes include advancing the understanding of mimicry by distinguishing between competing hypotheses. The project will generate open access genomic, morphological and behavioural databases for the scientific and public communities.Read moreRead less
Mechanisms of colour production and the evolution of animal signals. This project aims to reveal how diverse colours are produced in reptiles and the information these colours convey about individual health, condition and performance. The project evaluates how stress affects both pigment deposition and the nano-structure of cells and tissues, which together produce colour. By comparing similar colours generated by two entirely different classes of pigment (carotenoids and pteridines), this proje ....Mechanisms of colour production and the evolution of animal signals. This project aims to reveal how diverse colours are produced in reptiles and the information these colours convey about individual health, condition and performance. The project evaluates how stress affects both pigment deposition and the nano-structure of cells and tissues, which together produce colour. By comparing similar colours generated by two entirely different classes of pigment (carotenoids and pteridines), this project will provide new insights into the evolution of animal coloration, and will significantly enhance our understanding of pteridines, one of the most prevalent but least understood classes of pigment in vertebrates.Read moreRead less