Half a Genome is Better than None: The Evolution of Haplodiploidy in Mites. It is our normal experience that males and females are about equally common. We also expect both sexes to receive half their genes from each parent. In many successful animal groups, however, these normal expectations are not met: males are rare and have only half as many chromosomes as females (haplodiploidy) or are non-existent. We will investigate multiple origins of haplodiploid and all-female genetic systems in a ....Half a Genome is Better than None: The Evolution of Haplodiploidy in Mites. It is our normal experience that males and females are about equally common. We also expect both sexes to receive half their genes from each parent. In many successful animal groups, however, these normal expectations are not met: males are rare and have only half as many chromosomes as females (haplodiploidy) or are non-existent. We will investigate multiple origins of haplodiploid and all-female genetic systems in a group of mites that includes many useful biocontrol agents and important parasites. The implications of this research have both pure scientific merit and potential practical value in controlling the reproduction of pests.Read moreRead less
How a ubiquitous endosymbiont of insects protects against pathogens. The project intends to determine the mechanism that underpins pathogen protection in insects. Insects harbour microbial communities in their cells and guts and confer a range of benefits on their hosts. One bacterium, Wolbachia, protects insects against co-infecting pathogens. The release of Wolbachia into mosquito populations is currently being tested as a means to reduce dengue virus transmission to humans. Using innovative e ....How a ubiquitous endosymbiont of insects protects against pathogens. The project intends to determine the mechanism that underpins pathogen protection in insects. Insects harbour microbial communities in their cells and guts and confer a range of benefits on their hosts. One bacterium, Wolbachia, protects insects against co-infecting pathogens. The release of Wolbachia into mosquito populations is currently being tested as a means to reduce dengue virus transmission to humans. Using innovative evolutionary and genetic approaches, the project proposes to elucidate the mechanism of pathogen blocking and ascertain its broader consequences for the host. This knowledge may be critical for maintaining the effectiveness of the biocontrol approach in the field by informing the development of resistance management strategies.Read moreRead less
Linkage Infrastructure, Equipment And Facilities - Grant ID: LE150100083
Funder
Australian Research Council
Funding Amount
$540,000.00
Summary
A high throughput phenomics facility for pace of life traits in animals. A high throughput phenomics facility for pace of life traits in animals: This project seeks to create the first high-throughput phenomic facility for animals in Australia. The molecular revolution has brought unprecedented capacity to understand genetic variation. Genetic variation is now better understood and more easily and cheaply characterised than the physical traits that organisms exhibit. Linking phenotypic variation ....A high throughput phenomics facility for pace of life traits in animals. A high throughput phenomics facility for pace of life traits in animals: This project seeks to create the first high-throughput phenomic facility for animals in Australia. The molecular revolution has brought unprecedented capacity to understand genetic variation. Genetic variation is now better understood and more easily and cheaply characterised than the physical traits that organisms exhibit. Linking phenotypic variation to genetic variation represents the major challenge in harnessing the power of the biomolecular age. This facility will accommodate animals from marine, freshwater and terrestrial systems across a diverse array of phyla. It will allow Australian researchers to leverage advances in high throughput genomic technologies to address a major bottleneck in biology.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.
Diversification and conservation of Australian frogs. Australia's 216 known species of frogs are exceptionally diverse, 98 per cent are found nowhere else in the world and many of them are in trouble. This project will test ideas concerning the tempo of Australian frog diversification, identify previously cryptic new species and provide information critical to the conservation of Australia's declining frogs.
Australia's oldest jawed fishes: evolution, biostratigraphy and biogeography. The research focusses on a collection of disarticulated remains of placoderms, a group of extinct armoured fishes which dominated Devonian waters (410-354 Mya). The oldest Australian placoderm macroremains so far described are of late Pragian age (400 Mya), and recognized as a highly endemic fauna. An older limestone from New South Wales has yielded new material which includes sclerotic capsules and dermal plates of ....Australia's oldest jawed fishes: evolution, biostratigraphy and biogeography. The research focusses on a collection of disarticulated remains of placoderms, a group of extinct armoured fishes which dominated Devonian waters (410-354 Mya). The oldest Australian placoderm macroremains so far described are of late Pragian age (400 Mya), and recognized as a highly endemic fauna. An older limestone from New South Wales has yielded new material which includes sclerotic capsules and dermal plates of small placoderms. Earliest Devonian (Lochkovian) acanthodians and the new placoderms, unlike the younger taxa, seem closely related to coeval faunas from the circum-Arctic region. The material will help resolve relationships and distribution of these early jawed vertebrates.Read moreRead less
Geomolecular dating with biologically relaxed clocks, and mammal evolution. This project aims to use DNA, fossils and biological cues to synergistically model evolutionary rate changes. Molecular dates allow direct comparison of evolutionary and ecological patterns and processes across the tree of life. However, current models struggle to identify the location and magnitude of molecular clock rate changes on phylogenies, often resulting in wildly inaccurate dates. Expected outcomes include impro ....Geomolecular dating with biologically relaxed clocks, and mammal evolution. This project aims to use DNA, fossils and biological cues to synergistically model evolutionary rate changes. Molecular dates allow direct comparison of evolutionary and ecological patterns and processes across the tree of life. However, current models struggle to identify the location and magnitude of molecular clock rate changes on phylogenies, often resulting in wildly inaccurate dates. Expected outcomes include improved dating accuracy, and a novel statistical framework for morphological data, which allows fossils to be more accurately merged into the tree of life. In turn, the project aims to resolve intense debate on the origins of marsupial and placental mammals, and to trace the responses of these two groups to past environmental changes.Read moreRead less
Sex in the city: social harmony and conflict resolution in insect societies. Explaining the organization of cooperative societies is a significant challenge to the field of evolutionary biology. Insect societies play a pivotal role in achieving this aim, as colonies of many species persist with apparent harmony despite the presence of numerous queens competing for reproductive dominance. This study evaluates alternative hypotheses for the resolution of reproductive conflict and the maintenance a ....Sex in the city: social harmony and conflict resolution in insect societies. Explaining the organization of cooperative societies is a significant challenge to the field of evolutionary biology. Insect societies play a pivotal role in achieving this aim, as colonies of many species persist with apparent harmony despite the presence of numerous queens competing for reproductive dominance. This study evaluates alternative hypotheses for the resolution of reproductive conflict and the maintenance and evolution of cooperative societies, by examining colonies of the Australian multi-queened social wasp genus Ropalidia. Outcomes include robust tests of prominent hypotheses, explanations for cooperation's diversity and persistence, and the development of powerful molecular and behavioral techniques within Australia.
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A molecular/morphological view of animal evolution based on marsupials. This project aims to provide high-accuracy methods of evolutionary inference extendable to nearly all other organisms. It aims to research the evolution of animal diversity and calibrate evolutionary timescales on a case study of marsupial mammals, and differentiate between internal and external factors that govern animals’ ability to adapt and diversify. The project will collate a large, open-source three-dimensional catalo ....A molecular/morphological view of animal evolution based on marsupials. This project aims to provide high-accuracy methods of evolutionary inference extendable to nearly all other organisms. It aims to research the evolution of animal diversity and calibrate evolutionary timescales on a case study of marsupial mammals, and differentiate between internal and external factors that govern animals’ ability to adapt and diversify. The project will collate a large, open-source three-dimensional catalogue of the evolving marsupial skeleton, which could provide a detailed and publicly accessible narrative of the evolutionary past and future adaptability of Australian marsupials. The proposed development of methods to quantify the effect of past and present biodiversity crises (e.g. environmental change) is expected to inform longer-term conservation planning.Read moreRead less
Co-divergence or opportunism: the evolution of trematode parasitism in the sea. This proposal is for fundamental research into how a major group of parasites (trematodes) has evolved in interaction with its hosts. The work is mainly the kind of 'basic science' that underpins other science without having intended immediate community benefit. However, the work depends strongly on the important task of developing better knowledge of trematodes in Australian native animals. Some of these parasite ....Co-divergence or opportunism: the evolution of trematode parasitism in the sea. This proposal is for fundamental research into how a major group of parasites (trematodes) has evolved in interaction with its hosts. The work is mainly the kind of 'basic science' that underpins other science without having intended immediate community benefit. However, the work depends strongly on the important task of developing better knowledge of trematodes in Australian native animals. Some of these parasites are pathogens of bivalves (scallops, giant clams and oysters) but almost nothing is known about them here. Another benefit of the study is in the training of several postgraduate students who will be able to contribute to the further study and management of parasites in Australia.Read moreRead less