The role of recombination in eucalypt evolution. Meiotic recombination is a key source of the genetic variation upon which evolution thrives. This project aims to exploit new genomic resources to provide the first detailed study of recombination in Australia’s iconic Eucalypts and clarify its evolutionary role. This project will study: variation in the rate of recombination along the 11 Eucalypt chromosomes, and determine genome features which are associated with ‘hotspots’ and ‘coldspots’ of re ....The role of recombination in eucalypt evolution. Meiotic recombination is a key source of the genetic variation upon which evolution thrives. This project aims to exploit new genomic resources to provide the first detailed study of recombination in Australia’s iconic Eucalypts and clarify its evolutionary role. This project will study: variation in the rate of recombination along the 11 Eucalypt chromosomes, and determine genome features which are associated with ‘hotspots’ and ‘coldspots’ of recombination; the patterns of variation in recombination rate between species, genotypes, sexes and chromosomes; and, whether the environment and population history affect recombination and thus evolvability of natural populations.Read moreRead less
The genetics of adaptation: changing developmental trajectories in eucalypts. During their life cycles, many animals and plants undergo genetically programmed changes in form. Such changes may be dramatic and rapid as seen in insect metamorphoses or plant heteroblasty, and may have ecological, evolutionary and even economic consequences. The project aims to identify the genes controlling such transitions in Australia's eucalypts.
A new integrated approach for ecologically sustainable forest management. As harvested regions can maintain high levels of biodiversity, forestry has moved away from conservation in large reserves, and instead focuses on creating a dynamic mosaic of harvested and unharvested forest. However, designing this mosaic poses complex problems. This project aims to identify underlying patterns and processes determining how forest biodiversity is distributed and use this information to develop decision m ....A new integrated approach for ecologically sustainable forest management. As harvested regions can maintain high levels of biodiversity, forestry has moved away from conservation in large reserves, and instead focuses on creating a dynamic mosaic of harvested and unharvested forest. However, designing this mosaic poses complex problems. This project aims to identify underlying patterns and processes determining how forest biodiversity is distributed and use this information to develop decision models to underpin sustainable forest management plans. Existing and new evidence will be used, the latter derived from three innovative approaches for more efficient and cost effective biodiversity assessment: remote sensing of plants, next generation DNA technology of beetles and analysis of acoustic recording of birds.Read moreRead less