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.
Biodiversity and population genetics of groundwater calcrete ecosystems of central Western Australia. This project will lead to documentation of a unique subterranean ecosystem of world acclaim, representing a significant component of the biodiversity of the Australian arid zone. It will further contribute to sustainable management of groundwater ecosystems and provide information that can be used to predict and monitor how future water use and climate change may impact on these ecosystems. Resu ....Biodiversity and population genetics of groundwater calcrete ecosystems of central Western Australia. This project will lead to documentation of a unique subterranean ecosystem of world acclaim, representing a significant component of the biodiversity of the Australian arid zone. It will further contribute to sustainable management of groundwater ecosystems and provide information that can be used to predict and monitor how future water use and climate change may impact on these ecosystems. Results generated will provide the knowledge base required to improve the efficiency and scientific rigour of the environmental review process for major resource projects, leading to economic benefits to the mining and environmental consultancy industries, and to Australia in general.Read moreRead less
Assessment of the diversity, distribution and uniqueness of subterranean animals from calcrete aquifers in central western Australia. Recently a rich and diverse subterranean invertebrate fauna (stygofauna) was unexpectedly discovered from numerous isolated calcrete aquifers associated with palaeodrainage channels in central Western Australia. Our recent taxonomic and molecular studies have suggested that stygofaunas within each aquifer may be highly endemic. We aim to test this hypothesis by in ....Assessment of the diversity, distribution and uniqueness of subterranean animals from calcrete aquifers in central western Australia. Recently a rich and diverse subterranean invertebrate fauna (stygofauna) was unexpectedly discovered from numerous isolated calcrete aquifers associated with palaeodrainage channels in central Western Australia. Our recent taxonomic and molecular studies have suggested that stygofaunas within each aquifer may be highly endemic. We aim to test this hypothesis by investigating the diversity, distribution and uniqueness of stygofauna from three major calcrete regions. We further aim to document the environmental conditions and variability within the aquifers and to develop rigorous sampling protocols. Such data are essential for the development of appropriate strategies for sustainable management of subterranean water and their ecosystems.Read moreRead less
The ecology of parasite transmission in fauna translocations. Parasitic diseases pose a threat to the conservation management of Australia's biodiversity. This project will improve our understanding of the impact and transmission of parasites in fauna translocations, contributing to the conservation management of Australian ecosystems by government and private agencies.
Phylogenomic assessment of conservation priorities in two biodiversity hotspots: the Pilbara and the Kimberley. This project applies new sequencing and analytical methods to measure how much unique genetic diversity is represented in current and planned reserves across two biodiversity hotspots – the Pilbara and Kimberley of north-west Australia. It combines university, museum and conservation agency researchers to improve ongoing conservation planning.
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.
Inbreeding: what are the reproductive costs and how are they avoided? Inbreeding in animal populations will undoubtedly become more prevalent in the face of increased habitat fragmentation brought on by human activities and climate change. By increasing our understanding of how inbreeding influences reproductive traits, my research will be directly applicable to conservation programs, specifically by providing insights into how Australia's rich biodiversity will respond to climate change and var ....Inbreeding: what are the reproductive costs and how are they avoided? Inbreeding in animal populations will undoubtedly become more prevalent in the face of increased habitat fragmentation brought on by human activities and climate change. By increasing our understanding of how inbreeding influences reproductive traits, my research will be directly applicable to conservation programs, specifically by providing insights into how Australia's rich biodiversity will respond to climate change and variability. This project also addresses critical issues in evolutionary biology, thereby contributing towards Australia's reputation as a world leader in this field. Australian science will further benefit through international collaborations and from the training of young scientists.Read moreRead less
The evolution of female multiple mating: genetic benefits and indirect genetic effects. This work will yield results at the forefront of evolutionary biology, thereby contributing to Australia's reputation as a country where excellent and original research is conducted. A greater understanding of the processes determining offspring viability, paternity success, and the acquisition of genetic quality will also benefit animal breeding and conservation biology. My research will work towards a bette ....The evolution of female multiple mating: genetic benefits and indirect genetic effects. This work will yield results at the forefront of evolutionary biology, thereby contributing to Australia's reputation as a country where excellent and original research is conducted. A greater understanding of the processes determining offspring viability, paternity success, and the acquisition of genetic quality will also benefit animal breeding and conservation biology. My research will work towards a better understanding of an ecologically important Australian native coastal species which supports commercial fisheries. Australian science will further benefit from the training of young scientists and from collaborations with international researchers that will promote excellence in Australian research.Read moreRead less
Causes and consequences of multiple mating: Benefits of polyandry, sperm competition, and reproductive costs. The project will yield results that are at the forefront of research in evolutionary biology and that will have a significant international impact thereby placing Australia at the forefront of the international scientific arena. The undertaking of the project will foster strong linkages between Australian and European researchers that will lead to international collaborations that will p ....Causes and consequences of multiple mating: Benefits of polyandry, sperm competition, and reproductive costs. The project will yield results that are at the forefront of research in evolutionary biology and that will have a significant international impact thereby placing Australia at the forefront of the international scientific arena. The undertaking of the project will foster strong linkages between Australian and European researchers that will lead to international collaborations that will promote excellence in Australian research.
Identifying sperm quality or male viability is a crucial issue for livestock production. A greater understanding of the mechanisms of sperm competition and the benefits of multiple mating can also benefit conservation biology since these issues are being applied to undertake strategic plans for endangered species.Read moreRead less
A biological basis for the efficient breeding of native plants for export markets: a case study with the Australian Goodeniaceae. The native plant family Goodeniaceae exhibits enormous potential for the world potted-plant trade. To provide vital biological information for the efficient breeding of these plants, we will (i) determine the molecular evolutionary relationships of species, (ii) assess chromosomal variation within and among species, (iii) characterise mating patterns in natural popul ....A biological basis for the efficient breeding of native plants for export markets: a case study with the Australian Goodeniaceae. The native plant family Goodeniaceae exhibits enormous potential for the world potted-plant trade. To provide vital biological information for the efficient breeding of these plants, we will (i) determine the molecular evolutionary relationships of species, (ii) assess chromosomal variation within and among species, (iii) characterise mating patterns in natural populations using DNA fingerprinting for paternity analysis, (iv) develop techniques to overcome barriers to wide crossing, and (v) use DNA fingerprinting for the rapid identification of artificial hybrids. Expected outcomes are an understanding of evolution and mating in the Goodeniaceae and the efficient development of horticulturally significant materialRead moreRead less