Is restoration working? An ecological genetic assessment. This project aims to assess the success of restoration in terms of ecological and genetic viability for plant species in the Fitzgerald River–Stirling Range region of Western Australia, where significant investment is being made in restoring connectivity at a landscape scale. The project intends to compare reproductive output, pollinator behaviour, mating, genetic diversity and pollen dispersal in restored sites with those of undisturbed ....Is restoration working? An ecological genetic assessment. This project aims to assess the success of restoration in terms of ecological and genetic viability for plant species in the Fitzgerald River–Stirling Range region of Western Australia, where significant investment is being made in restoring connectivity at a landscape scale. The project intends to compare reproductive output, pollinator behaviour, mating, genetic diversity and pollen dispersal in restored sites with those of undisturbed natural vegetation. The project moves measures of restoration success beyond that of population establishment and survival to incorporate the evolutionary processes that provide long-term resilience, persistence and functional integration of restored populations into broader landscapes.Read moreRead less
Discovery Early Career Researcher Award - Grant ID: DE150100460
Funder
Australian Research Council
Funding Amount
$380,000.00
Summary
Role of DNA methylation in response to low nutrient availability in plants. DNA methylation (mC) is a covalent modification of DNA essential for the establishment and maintenance of correct gene expression patterns and recently suggested to be responsive to some environmental cues in plants. Using cutting edge technologies, this project aims to identify nutrient stress-induced mC changes and investigate the role that these changes may play in transcriptional regulation, as well as assessing whet ....Role of DNA methylation in response to low nutrient availability in plants. DNA methylation (mC) is a covalent modification of DNA essential for the establishment and maintenance of correct gene expression patterns and recently suggested to be responsive to some environmental cues in plants. Using cutting edge technologies, this project aims to identify nutrient stress-induced mC changes and investigate the role that these changes may play in transcriptional regulation, as well as assessing whether these changes can be transmitted to the next generation to confer intergenerational stress responsiveness. Altogether this project aims to provide fundamental knowledge of the role of mC in plant gene regulation and stress response as well as paving the way for the next generation of novel crop-improvement strategies.Read moreRead less
Linkage Infrastructure, Equipment And Facilities - Grant ID: LE170100225
Funder
Australian Research Council
Funding Amount
$410,000.00
Summary
Western Australia single-cell isolation and genomics preparation facility. This project aims to give Western Australian researchers direct access to new platforms in single-cell isolation and single-cell RNA, genome and exome sample library preparation, so they can participate in the precision single-cell based research driving biology worldwide. This project will give researchers access to single-cell analysis techniques, integrated with other analysis methods, microscopy, and preclinical imagi ....Western Australia single-cell isolation and genomics preparation facility. This project aims to give Western Australian researchers direct access to new platforms in single-cell isolation and single-cell RNA, genome and exome sample library preparation, so they can participate in the precision single-cell based research driving biology worldwide. This project will give researchers access to single-cell analysis techniques, integrated with other analysis methods, microscopy, and preclinical imaging. The characterisation of rare and complex biological samples is expected to advance effective, socio-economically important research programmes in cell and molecular biology, sports science, plant and crop sciences, agriculture, clean energy (biofuels) resources and production, greenhouse gas reduction, environmental microbiology and marine science.Read moreRead less
Control points in nitrogen uptake: enhancing the response of cereals to nitrogen supply and demand. Vast amounts of nitrogen fertiliser are applied to cereal crops to maintain yields. By uncovering what limits nitrogen uptake in cereals, this project will provide the scientific basis for improving nitrogen use efficiency and decreasing fertiliser use, with significant economic and environmental benefits.