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Evolution of halophytes: a phyloinformatic approach to understanding and exploiting the traits underlying salt-tolerance in plants. Salinity is an increasing burden on the Australian economy & environment, with >2 million ha of salt-affected land, at an annual cost to agriculture over $187 million. One solution is to exploit naturally salt-tolerant plants to increase productive agricultural land and restore salt-affected environments. To do this, we must increase basic knowledge of the diversity ....Evolution of halophytes: a phyloinformatic approach to understanding and exploiting the traits underlying salt-tolerance in plants. Salinity is an increasing burden on the Australian economy & environment, with >2 million ha of salt-affected land, at an annual cost to agriculture over $187 million. One solution is to exploit naturally salt-tolerant plants to increase productive agricultural land and restore salt-affected environments. To do this, we must increase basic knowledge of the diversity & distribution of salt-tolerance. This project is the first to use DNA sequences from thousands of species to understand the evolution of salt-tolerance in order to provide the foundation for the development of new crop varieties, selection of species that can be developed for bioremediation, and identification of traits that will be profitable targets for breeding programs. Read moreRead less
Discovery Early Career Researcher Award - Grant ID: DE150101720
Funder
Australian Research Council
Funding Amount
$386,923.00
Summary
Pollination by sexual deception and the evolution of specialisation. Specialised pollination systems are of global scientific importance because they offer unique insights into speciation and are exceptionally vulnerable to anthropogenic change. Fundamental gaps remain in our knowledge of the adaptations required for specialisation, the ecological processes favouring its evolution, and whether specialisation facilitates or constrains floral evolution. This project aims to address these questions ....Pollination by sexual deception and the evolution of specialisation. Specialised pollination systems are of global scientific importance because they offer unique insights into speciation and are exceptionally vulnerable to anthropogenic change. Fundamental gaps remain in our knowledge of the adaptations required for specialisation, the ecological processes favouring its evolution, and whether specialisation facilitates or constrains floral evolution. This project aims to address these questions in a unique and diverse group of Australian orchids that are pollinated by sexual mimicry. This work will apply experimental, ecological and phylogenetic approaches to understand the visual and chemical adaptations to sexual mimicry and their consequences for species diversification, floral evolution and conservation.Read moreRead less
The influence of breeding synchrony on avian reproductive strategies. Australia has a strong international reputation for research on avian evolutionary biology, in part, because of our diverse and unique avifauna. This research will resolve one of the more contentious issues in this field concerning the influence of breeding synchrony on a range of reproductive behaviours. Our experimental approach incorporates a series of new and innovative techniques and will help maintain Australia's leading ....The influence of breeding synchrony on avian reproductive strategies. Australia has a strong international reputation for research on avian evolutionary biology, in part, because of our diverse and unique avifauna. This research will resolve one of the more contentious issues in this field concerning the influence of breeding synchrony on a range of reproductive behaviours. Our experimental approach incorporates a series of new and innovative techniques and will help maintain Australia's leading role in this area. The project will provide intensive training for students and also promote awareness about Australia's bird life to a wide audience, including rural communities who have a critical role in the long-term preservation of many species.Read moreRead less
The evolution of sequential polyandry: An experimental approach. The notion that polyandry has evolved as an adaptive female strategy remains highly controversial because empirical work lags far behind theoretical advances. This study will empirically test current hypotheses for the evolution of polyandry using the Australian frog Pseudophryne bibroni as a model species. Aspects of the reproductive biology of this species make it ideal for critically testing diverse hypotheses that can not be ea ....The evolution of sequential polyandry: An experimental approach. The notion that polyandry has evolved as an adaptive female strategy remains highly controversial because empirical work lags far behind theoretical advances. This study will empirically test current hypotheses for the evolution of polyandry using the Australian frog Pseudophryne bibroni as a model species. Aspects of the reproductive biology of this species make it ideal for critically testing diverse hypotheses that can not be easily tested in groups with internal fertilisation or with simultaneous polyandry. Understanding why females mate with multiple males will have extreme implications for sexual selection and mating system theory.Read moreRead less
Biogenesis of the relict plastid of Apicomplexan parasites: the role of a dynamin-related protein in apicoplast division. The Apicomplexa are a group of intracellular parasites that cause several important diseases. Most Apicomplexa contain an organelle called the apicoplast that is indispensable for their survival and that can only form through the division of pre-existing apicoplasts. This project will examine the molecular mechanisms of how this process occurs.
Evolution in a changing environment. Climate change is having dramatic effects on wild animal populations. This project will investigate how and why these effects occur, and whether populations will be able to evolve to adapt to a changing environment.
Were the Tertiary radiations of the Australian flora synchronous? A molecular phylogenetic approach. The fossil record shows that in a short period from about 20 Mya, the ancestral Gondwanan rainforest gave way to the unique Australian ?sclerophyll? flora dominated by eucalypts, acacias and casuarinas. This coincided with a drying climate and the advent of fire. It is hypothesized that ?explosive? evolutionary radiations rapidly increased the number of sclerophyll species, rather than a mere r ....Were the Tertiary radiations of the Australian flora synchronous? A molecular phylogenetic approach. The fossil record shows that in a short period from about 20 Mya, the ancestral Gondwanan rainforest gave way to the unique Australian ?sclerophyll? flora dominated by eucalypts, acacias and casuarinas. This coincided with a drying climate and the advent of fire. It is hypothesized that ?explosive? evolutionary radiations rapidly increased the number of sclerophyll species, rather than a mere range expansion of pre-existing species. In a novel approach, molecular phylogenies of several distantly related plant groups will be used to test whether explosive evolutionary radiations took place simultaneously and to identify the environmental triggers.Read moreRead less
Improving plant productivity and human health using next generation biotechnology approaches. Both medical and plant sciences face similar technological problems in harnessing the power of modern DNA sequencing for accelerating the pace of beneficial gene function discovery. Plant and animal researchers will collaborate in this program to meet this common challenge. The research outcomes envisaged in this proposal will benefit human health by enabling more rapid discovery of genes related to obe ....Improving plant productivity and human health using next generation biotechnology approaches. Both medical and plant sciences face similar technological problems in harnessing the power of modern DNA sequencing for accelerating the pace of beneficial gene function discovery. Plant and animal researchers will collaborate in this program to meet this common challenge. The research outcomes envisaged in this proposal will benefit human health by enabling more rapid discovery of genes related to obesity, immunity, fertility, neurological function and cancer. In the plant sphere, the outcomes will shed new light on plant functions related to plant energy metabolism, vitamin biosynthesis drought tolerance and water use by crops. The research will benefit both human health and agricultural food production and quality.Read moreRead less
The biosynthesis and evolution of novel semiochemicals in orchids. This project aims to discover new enzymes and genes, unlocking new tools for producing useful chemicals. Many plants secure pollination by attracting animal pollinators. How these crucial interactions evolved remains a mystery. Australia is a world centre for pollination by sexual deception in which hundreds of orchids use novel semiochemicals to sexually attract specific pollinators. In this study we aim to: characterise the bio ....The biosynthesis and evolution of novel semiochemicals in orchids. This project aims to discover new enzymes and genes, unlocking new tools for producing useful chemicals. Many plants secure pollination by attracting animal pollinators. How these crucial interactions evolved remains a mystery. Australia is a world centre for pollination by sexual deception in which hundreds of orchids use novel semiochemicals to sexually attract specific pollinators. In this study we aim to: characterise the biosynthetic pathway and molecular basis of these unique semiochemicals; investigate speciation processes with robust orchid phylogenies; and reveal new insights into the evolution of animal pollination. This should also lead to better design options for managing endangered orchids and developing resilient populations.Read moreRead less
Adapting to a changing world: mothers as drivers of evolutionary change. This project will improve our understanding of how organisms will adapt to the unprecedented speed and magnitude of human-induced environmental change. By identifying how mothers modify their offspring to better match the prevailing environment, it will address the role of mothers in directing and accelerating adaptation in our changing world.