Alternative reproductive tactics and threshold evolution. This research is focussed at the highest level in the field of evolutionary biology; testing recent theory for the evolution of alternative reproductive tactics and using these species to test hypotheses about adaptation. The proposal involves collaborations with high-profile researchers from three European countries and will increase Australia's standing as a world-leader in evolutionary biology. Australian students will benefit from exp ....Alternative reproductive tactics and threshold evolution. This research is focussed at the highest level in the field of evolutionary biology; testing recent theory for the evolution of alternative reproductive tactics and using these species to test hypotheses about adaptation. The proposal involves collaborations with high-profile researchers from three European countries and will increase Australia's standing as a world-leader in evolutionary biology. Australian students will benefit from exposure to high quality international collaborators. We will also increase our understanding of the biology of the European earwig, a pest species in Australia. Reproductive tactics are exciting topics for media attention and this research will reach a wide and interested Australian and world audience.Read moreRead less
Safeguarding honeybees: understanding host-parasite interactions at the level of proteins. Parasites are responsible for dramatic declines of honeybee populations resulting in a loss of pollination services and posing a threat to food production and ecosystem stability. This project will study the honeybee immune system and its interactions with bee parasites on the molecular scale, which will be important to guide future bee breeding.
Safeguarding Honeybees: Increasing parasite treatment effectiveness using nanotechnology. There is increasing concern about the exposure of honeybees to pesticides used to control both agricultural pests and diseases. Emerging reports indicate that these chemicals substantially harm bees and therefore contribute to the dramatic declines reported. A widespread bee pathogen, Nosema, will be used to directly quantify the effectiveness of commercially used pesticides on both parasite and honeybee vi ....Safeguarding Honeybees: Increasing parasite treatment effectiveness using nanotechnology. There is increasing concern about the exposure of honeybees to pesticides used to control both agricultural pests and diseases. Emerging reports indicate that these chemicals substantially harm bees and therefore contribute to the dramatic declines reported. A widespread bee pathogen, Nosema, will be used to directly quantify the effectiveness of commercially used pesticides on both parasite and honeybee viability. Furthermore, state-of-the-art nanotechnology will be used to develop benign treatments with enhanced effectiveness and minimal dosage/exposure to the bees. Outcomes of this project can have major impact on future parasite management in commercial honeybees.Read moreRead less
Evolution and biogeography of Australian idiopid trapdoor spiders: implications for conservation biology and environmental assessment. Trapdoor spiders (family Idiopidae) are poorly studied and there are many new species with restricted distributions in the western and arid parts of the continent. This project will use DNA techniques to study their evolution and provide genetic criteria for their identification, environmental assessment and determining conservation priorities.
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.
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.
Threshold evolution: conceptualising decisions as traits. All organisms make decisions, yet the diversity of decision rules across the spectrum of life can be understood through a few key evolutionary models. This project will test these models and then apply them to understanding topics as diverse as pest outbreaks, human twinning, sex ratio evolution and disease spread as a consequence of climate change.
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.