Testing links between genomic and morphological evolutionary rates. This project aims to identify, understand, and characterise patterns of evolutionary rates across different levels of biological variation. The project expects to generate knowledge about the tempo and mode of evolution by using a phylogenetic approach to test fundamental models of evolutionary rates, including the link between rates of genomic and morphological evolution. Expected outcomes of this project include detailed insig ....Testing links between genomic and morphological evolutionary rates. This project aims to identify, understand, and characterise patterns of evolutionary rates across different levels of biological variation. The project expects to generate knowledge about the tempo and mode of evolution by using a phylogenetic approach to test fundamental models of evolutionary rates, including the link between rates of genomic and morphological evolution. Expected outcomes of this project include detailed insights into the tempo and mode of macroevolution, better modelling of genomic and phenotypic evolution, and improved design of studies in evolutionary genomics. Benefits of the project include greater understanding of the evolutionary processes that have generated the diversity of the Australian biota.Read moreRead less
The role of genome reorganisation in adaptation and speciation. Local adaptation and speciation are fundamental evolutionary processes that rely on changes to the genome. However, the role of genome architecture (e.g. chromosomal rearrangements, gene duplications) in driving these processes is poorly understood. This project will use advanced comparative genomics and bioinformatics to examine the role of chromosome rearrangements in driving adaptation and speciation, and evaluate rates of molec ....The role of genome reorganisation in adaptation and speciation. Local adaptation and speciation are fundamental evolutionary processes that rely on changes to the genome. However, the role of genome architecture (e.g. chromosomal rearrangements, gene duplications) in driving these processes is poorly understood. This project will use advanced comparative genomics and bioinformatics to examine the role of chromosome rearrangements in driving adaptation and speciation, and evaluate rates of molecular evolution between the X-chromosome and autosomes. Utilising Australia’s endemic mammalian fauna as a tractable model system, I will link population processes with macro-evolutionary outcomes to show how genome architecture underpins biodiversity.Read moreRead less
The evolution of multipartite mitochondrial genomes in the cyst-forming nematodes. The cyst-forming nematodes are a serious pest of agricultural crops throughout the world, attacking cereal, root and legume crops. Although sporadically recorded in Australia, they have not become established here. This project will characterize unique sequences from the noncoding portion of the mitochondrial genome of a range of cyst-forming nematodes, facilitating the development of molecular diagnostic screen ....The evolution of multipartite mitochondrial genomes in the cyst-forming nematodes. The cyst-forming nematodes are a serious pest of agricultural crops throughout the world, attacking cereal, root and legume crops. Although sporadically recorded in Australia, they have not become established here. This project will characterize unique sequences from the noncoding portion of the mitochondrial genome of a range of cyst-forming nematodes, facilitating the development of molecular diagnostic screening tools for these crop pests. This program will train a number of young scientists with skills in biotechnology, preparing them to join programs safeguarding our agricultural industries.Read moreRead less
Host-parasite interactions during a biological invasion: toads, frogs and nematodes in tropical Australia. Cane toads were introduced to Australia 70 years ago, and are widely believed to cause major problems for native ecosystems. My work has identified another impact of cane toads: they have brought some of their native-range parasites with them from Central America, and at least one species (a lungworm) now attacks native Australian frogs. This project will explore the impact of the parasit ....Host-parasite interactions during a biological invasion: toads, frogs and nematodes in tropical Australia. Cane toads were introduced to Australia 70 years ago, and are widely believed to cause major problems for native ecosystems. My work has identified another impact of cane toads: they have brought some of their native-range parasites with them from Central America, and at least one species (a lungworm) now attacks native Australian frogs. This project will explore the impact of the parasite on native frogs as well as on the toads themselves, and determine why some (but not all) toad populations in Australia have escaped from these viability-reducing parasites. My work will clarify host-parasite coevolution, the ecological impact of invasive organisms, and the feasibility of using parasites to help control toads within Australia.Read moreRead less
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.
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
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.
Discovery Early Career Researcher Award - Grant ID: DE120100957
Funder
Australian Research Council
Funding Amount
$375,000.00
Summary
Using ancient fossils and new methods to unravel Australian mammal evolution in deep time. This project will explore the evolution of Australia's unique mammal fauna by studying fossil mammals recently discovered at Tingamarra, a 55 million year old fossil site in north-eastern Queensland. In particular, it will help us understand the origin, radiation and diversification of Australia's iconic marsupials.
How are weeds adapting to life in Australia? Quantifying the rate and direction of evolution in introduced species. Introduced plants are a major problem throughout Australia. Introduced species are listed as one of the most severe threats to biodiversity in Australia, and managing them costs Australia around $4 billion per annum. The information we gather in this project will tell us what sort of changes introduced plants undergo when they arrive in Australia; how quickly plants can adapt to a ....How are weeds adapting to life in Australia? Quantifying the rate and direction of evolution in introduced species. Introduced plants are a major problem throughout Australia. Introduced species are listed as one of the most severe threats to biodiversity in Australia, and managing them costs Australia around $4 billion per annum. The information we gather in this project will tell us what sort of changes introduced plants undergo when they arrive in Australia; how quickly plants can adapt to a new environment, and what sort of species are best able to adapt to new conditions. We will also ask whether introduced species are still adapting to Australian conditions. If so, then we might expect even more naturalised species to become problem weeds in the future. This sort of knowledge is fundamental to our ability to develop appropriate control programs.Read moreRead less
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