Islands of rocks: geckos as a model system to understand patterns of biodiversity, endemism and speciation in the Kimberley. Australia is renowned for its diversity of lizards, yet a plethora of new "cryptic" gecko species continue to be discovered. The project will densely sample the complex Kimberley to understand the evolution of its geckos, which will shed light on true levels of species diversity and the geological and environmental history of this biodiversity hotspot.
Discovery Early Career Researcher Award - Grant ID: DE120101470
Funder
Australian Research Council
Funding Amount
$375,000.00
Summary
Using social network models to understand the factors driving parasite transmission in bettong populations. Parasitic diseases pose a significant threat to Australia's biodiversity. This project will apply the use of social networks models to understanding how different parasites are spread through endangered bettong populations.
Molecular phylogeny and biodiversity of the plant family Rutaceae: evidence for Australian-New Caledonian biogeography. The results will contribute biological evidence for geological models of the evolution of New Caledonia and the Southwest Pacific region. Analyses will also contribute to improvement of methods and data interpretation in the field of historical biogeography. The molecular phylogeny will be the foundation for a new predictive classification of Australian Rutaceae at the level ....Molecular phylogeny and biodiversity of the plant family Rutaceae: evidence for Australian-New Caledonian biogeography. The results will contribute biological evidence for geological models of the evolution of New Caledonia and the Southwest Pacific region. Analyses will also contribute to improvement of methods and data interpretation in the field of historical biogeography. The molecular phylogeny will be the foundation for a new predictive classification of Australian Rutaceae at the level of tribes and genera. Improved phylogenetic classification underpins the delivery of biodiversity research, goods and services in Australia. Outcomes of improved taxonomy include species identification for ecological studies, identification of rare species, geographic areas of high conservation value and plants for horticulture.Read moreRead less
A predictive phylogenetic classification for Australian acacias and their tropical legume relatives worldwide. The results of this project will provide the foundation for a new predictive classification of Australian acacias and their relatives, among tropical legumes. Improved phylogenetic classification will underpin the delivery of biodiversity research, goods and services in Australia and neighbouring tropical countries. Outcomes of improved taxonomy include species identification and spec ....A predictive phylogenetic classification for Australian acacias and their tropical legume relatives worldwide. The results of this project will provide the foundation for a new predictive classification of Australian acacias and their relatives, among tropical legumes. Improved phylogenetic classification will underpin the delivery of biodiversity research, goods and services in Australia and neighbouring tropical countries. Outcomes of improved taxonomy include species identification and species selection in various industries and environmental programs. Acacias and legumes are used in agro-forestry, as shade trees for crops, fuel wood, stock feed, nitrogen fixation, planting for land reclamation in arid and salinity-affected areas, and as new plantation timber products. Read moreRead less
Resolving the classification and evolutionary history of the eucalypts. This collaborative project addresses the need to achieve a stable classification of the eucalypts, Australia's most ecologically and commercially important trees. The industry partners are lead agencies with responsibility for classification and identification of biodiversity, delivering taxonomic knowledge for end-users. Despite molecular studies in the last decade, the phylogenetic relationships of a number of the major ....Resolving the classification and evolutionary history of the eucalypts. This collaborative project addresses the need to achieve a stable classification of the eucalypts, Australia's most ecologically and commercially important trees. The industry partners are lead agencies with responsibility for classification and identification of biodiversity, delivering taxonomic knowledge for end-users. Despite molecular studies in the last decade, the phylogenetic relationships of a number of the major subgroups of the eucalypts are unknown. We will sequence new regions of DNA and combine this with morphological data to resolve the relationships of the eucalypt lineages, and hence their classification. Phylogenetic analysis also aids identification of high-value areas for conservation of relictual species.Read moreRead less
Resolving the molecular phylogeny and classification of Australian acacias, a major biodiversity resource. This collaboration with the Royal Botanic Gardens Melbourne will resolve the phylogeny of Australia's largest group of flowering plants, the acacias, to form the basis of a new classification. With more than 960 species, Australian acacias are a major biodiversity resource yet their genetic diversity and evolutionary relationships are poorly known. We will determine the main taxonomic gro ....Resolving the molecular phylogeny and classification of Australian acacias, a major biodiversity resource. This collaboration with the Royal Botanic Gardens Melbourne will resolve the phylogeny of Australia's largest group of flowering plants, the acacias, to form the basis of a new classification. With more than 960 species, Australian acacias are a major biodiversity resource yet their genetic diversity and evolutionary relationships are poorly known. We will determine the main taxonomic groups and their relationships by sequencing the DNA of more than 300 species. Acacias are of ecological importance and of use in land reclamation, horticulture, and rural craftwood industries.
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Sexual selection on female phenotypes and maternal effects as adaptations. Recent work has queried the paradigm that female ornamentation is the consequence of a genetic correlation and non-adaptive. Whilst the circumstances under which male choosiness is expected have widened, the benefits to females of investing in ornamentation, rather than offspring, remain prohibitively small. An alternative explanation may be that sexually antagonistic alleles or social competition amongst females maintain ....Sexual selection on female phenotypes and maternal effects as adaptations. Recent work has queried the paradigm that female ornamentation is the consequence of a genetic correlation and non-adaptive. Whilst the circumstances under which male choosiness is expected have widened, the benefits to females of investing in ornamentation, rather than offspring, remain prohibitively small. An alternative explanation may be that sexually antagonistic alleles or social competition amongst females maintain female ornamentation, however prudent males use this ornamentation for adaptive mating decisions. This proposal addresses the selection pressures on female phenotypes, trade-offs in offspring and ornamentation allocation, maternal effects and the extent to which sex determination mechanisms determine the expression of female ornamentation.Read moreRead less
Discovery Early Career Researcher Award - Grant ID: DE160100035
Funder
Australian Research Council
Funding Amount
$374,000.00
Summary
Why are biodiversity hotspots found where they are? This project aims to develop a method to study how evolution within species shapes the broad-scale distribution of unique biological diversity across landscapes and continents. The distribution of biological diversity is strikingly uneven, with much diversity found only in small ‘hotspots’. What factors determine the locations of these hotspots of endemism? This project aims to answer this question by using three biologically diverse areas as t ....Why are biodiversity hotspots found where they are? This project aims to develop a method to study how evolution within species shapes the broad-scale distribution of unique biological diversity across landscapes and continents. The distribution of biological diversity is strikingly uneven, with much diversity found only in small ‘hotspots’. What factors determine the locations of these hotspots of endemism? This project aims to answer this question by using three biologically diverse areas as test cases. It plans to use a new model to simulate processes of evolution over time, including range shifts, niche evolution, isolation and extinction, to determine how dynamics of divergence evolving within species contribute to broad-scale patterns of diversity. The project intends to improve understanding and management of biodiversity.Read moreRead less
Climate change and cryptic biodiversity in the Australian arid-zone: Molecular phylogeny-based assessment of conservation priorities. Australia's arid zone comprises two thirds of the country yet from a climate change, biodiversity, and conservation point of view it has received little attention relative to eastern Australia. The project will address broad questions in evolutionary biology with unique Australian systems, make a world class contribution to the fields of phylogeography, molecular ....Climate change and cryptic biodiversity in the Australian arid-zone: Molecular phylogeny-based assessment of conservation priorities. Australia's arid zone comprises two thirds of the country yet from a climate change, biodiversity, and conservation point of view it has received little attention relative to eastern Australia. The project will address broad questions in evolutionary biology with unique Australian systems, make a world class contribution to the fields of phylogeography, molecular phylogenetics and conservation genetics and contribute substantially to the continued training of high quality research students and postdoctoral fellows. The project directly addresses two National Priority Research Areas and will supply of critical information to the eight biggest of the 57 Natural Resource Management Regions. Read moreRead less
Comparative phylogeography and conservation genetics of Australia's biodiversity hotspot. Southwestern Australia has been identified as one of the world's 25 biodiversity hotspots. The project will address broad questions in evolutionary biology with unique Australian systems, make a world class contribution to the fields of phylogeography, molecular phylogenetics and conservation genetics and contribute substantially to the continued training of high quality research students. I am a foundation ....Comparative phylogeography and conservation genetics of Australia's biodiversity hotspot. Southwestern Australia has been identified as one of the world's 25 biodiversity hotspots. The project will address broad questions in evolutionary biology with unique Australian systems, make a world class contribution to the fields of phylogeography, molecular phylogenetics and conservation genetics and contribute substantially to the continued training of high quality research students. I am a foundation member of the new ARC Environmental Futures Network: Discovering the Past and Present to Shape the Future. One of its primary listed objectives is "documenting Australia's biodiversity: recognising, understanding and managing key hotspots". My research plan fits in precisely with this research agenda. Read moreRead less