Australian Laureate Fellowships - Grant ID: FL120100074
Funder
Australian Research Council
Funding Amount
$2,175,454.00
Summary
Using biological invasions to understand evolutionary processes. The invasion of cane toads through Australia has been devastating for many native species, but created opportunities for others. The rapid evolutionary responses stimulated by toad invasion provide a uniquely powerful model system with which to explore the broader question of how species adapt to novel challenges.
The evolution of host-parasite interactions during a biological invasion. This project aims to elucidate how host organisms and their parasites adapt to each other, exploiting the fact that a biological invasion imposes novel evolutionary challenges. This project expects to generate new knowledge about how the interaction between host and parasite species is affected when the system is exposed to powerful new selective forces. Expected outcomes of this project include development of theory, trai ....The evolution of host-parasite interactions during a biological invasion. This project aims to elucidate how host organisms and their parasites adapt to each other, exploiting the fact that a biological invasion imposes novel evolutionary challenges. This project expects to generate new knowledge about how the interaction between host and parasite species is affected when the system is exposed to powerful new selective forces. Expected outcomes of this project include development of theory, training of students in an emerging field, and a nuanced understanding of this important topic. This should provide significant benefits, such as an enhanced ability for wildlife managers to predict the impact of parasites on species of wildlife that are extending their geographic ranges.Read moreRead less
Species and gene turnover across environmental gradients - a landscape-level approach to quantify biodiversity and resilience for climate adaptation. Biodiversity corridor planning in Australia desperately needs to progress beyond the simple linking up of remnant vegetation, based on aerial maps and start incorporating ecosystem features which will promote climate adaptation. This project will develop a new genomics method to assess ecosystem resilience for use in national biodiversity corridor ....Species and gene turnover across environmental gradients - a landscape-level approach to quantify biodiversity and resilience for climate adaptation. Biodiversity corridor planning in Australia desperately needs to progress beyond the simple linking up of remnant vegetation, based on aerial maps and start incorporating ecosystem features which will promote climate adaptation. This project will develop a new genomics method to assess ecosystem resilience for use in national biodiversity corridor planning.Read moreRead less
Watching evolution in action using transitional forms of lizard pregnancy. By using newly developed epigenomic techniques and two Australian lizards that exhibit egg-laying, pregnancy and a rare transitional form of reproduction, this Project aims to watch “evolution in action” to determine how genetic changes enable the evolution of complex traits. The expected outcomes are a new synthesis of how genomic architecture underpins the transition from egg-laying to live-birth, and the first computat ....Watching evolution in action using transitional forms of lizard pregnancy. By using newly developed epigenomic techniques and two Australian lizards that exhibit egg-laying, pregnancy and a rare transitional form of reproduction, this Project aims to watch “evolution in action” to determine how genetic changes enable the evolution of complex traits. The expected outcomes are a new synthesis of how genomic architecture underpins the transition from egg-laying to live-birth, and the first computational model illustrating how transitional reproductive forms are maintained. The benefits include development of Australian expertise in state-of-the-art technologies, new international collaborations between the University of Sydney and Harvard, and significantly enhanced knowledge of vertebrate evolution and diversity.Read moreRead less
Discovery Early Career Researcher Award - Grant ID: DE180101520
Funder
Australian Research Council
Funding Amount
$365,058.00
Summary
Diet, variance and individual variability in life-history. This project aims to provide biologists with novel statistical tools that will shift analytical paradigms. In many species, dietary restrictions increase average lifespan, and affect average rates of growth and reproduction, also known as ‘life history’. The use of recently developed tools has shown that individual variability in life history also appears to increase under dietary restrictions. This project will explore the effects of di ....Diet, variance and individual variability in life-history. This project aims to provide biologists with novel statistical tools that will shift analytical paradigms. In many species, dietary restrictions increase average lifespan, and affect average rates of growth and reproduction, also known as ‘life history’. The use of recently developed tools has shown that individual variability in life history also appears to increase under dietary restrictions. This project will explore the effects of diet composition on variability in life-history traits, and the factors driving this variation. This is expected to improve the prediction of the effects of changing nutritional environments.Read moreRead less
Evolution in action or the demise of iconic Australian flora? The project aims to investigate the evolutionary history and conservation status of a group of closely related Grevillea species, in the light of increasing pressure from landscape modification. This project will incorporate leading methodologies for massively parallel sequencing, pollinator preference and breeding capacity in order to detect the patterns and processes underpinning divergence in widely distributed species. A phylogene ....Evolution in action or the demise of iconic Australian flora? The project aims to investigate the evolutionary history and conservation status of a group of closely related Grevillea species, in the light of increasing pressure from landscape modification. This project will incorporate leading methodologies for massively parallel sequencing, pollinator preference and breeding capacity in order to detect the patterns and processes underpinning divergence in widely distributed species. A phylogenetic framework will provide the evolutionary relationships among taxa. This project is expected to inform requirements for long-term species persistence and, for threatened species within the group, guide the decision making of biodiversity managers as to what actions are required and where best to invest limited funds.Read moreRead less
Coevolution of sundew bugs and sundews. This project aims to conduct a study of insect-plant interactions to determine if insects and plants coevolve or if they diversify by other evolutionary processes. Insect-plant coevolution is a hotly contested field in evolutionary biology. In Australia, a remarkable interaction exists between carnivorous plants and a group of bugs that steal the plant’s prey. This system offers a great opportunity to test competing coevolutionary theories through a combin ....Coevolution of sundew bugs and sundews. This project aims to conduct a study of insect-plant interactions to determine if insects and plants coevolve or if they diversify by other evolutionary processes. Insect-plant coevolution is a hotly contested field in evolutionary biology. In Australia, a remarkable interaction exists between carnivorous plants and a group of bugs that steal the plant’s prey. This system offers a great opportunity to test competing coevolutionary theories through a combination of historical and ecological approaches. The project expects to showcase the evolution and uniqueness of Australia’s native biota.Read moreRead less
Mobility, stasis or extinction? The response of plants to long-term environmental change. This study of Australian plants will improve our ability to predict how plants and vegetation will respond to climate change by investigating the ability of plants to survive climate change. In particular, this project is designed to generate simple principles that can be used in management of species and vegetation at risk from climate change.
Reconstructing the human colonisation of the Pacific using modern and ancient chicken DNA. We will reconstruct one of the last great human migrations, from Island Southeast Asia across the Pacific to Hawaii and Easter Island, using DNA from the domestic chicken, which was carried on the voyage. Ancient and modern DNA, and archaeological data will be used to reveal the source, route, timing, and whether contact was made with South America
Discovery Early Career Researcher Award - Grant ID: DE140101879
Funder
Australian Research Council
Funding Amount
$309,660.00
Summary
Dispersal, diversity and survival: lessons from the fossil record. The ability of organisms to spread their genes may be key to their long-term survival. For example, birds survived the mass extinction of 65 million years ago, but their non-flying dinosaurian relatives did not. This project will use the fossil record to establish whether swimming or flying are key traits in long-term survival. This will be done by producing the first family tree for all extinct terrestrial vertebrates onto which ....Dispersal, diversity and survival: lessons from the fossil record. The ability of organisms to spread their genes may be key to their long-term survival. For example, birds survived the mass extinction of 65 million years ago, but their non-flying dinosaurian relatives did not. This project will use the fossil record to establish whether swimming or flying are key traits in long-term survival. This will be done by producing the first family tree for all extinct terrestrial vertebrates onto which geographic data will be mapped before a novel computational analysis shows how species moved between continents over the last 400 million years. The results may inform modern conservation issues, as changing climate means an organism's survival could be dependent on its ability to physically track shifting environments.Read moreRead less