Eradication of Phytophthora cinnamomi from infested haul roads and rehabilitated bauxite mine sites in the Eucalyptus marginata forest. This project will develop tools to (a) eradicate the devastating soil-borne plant pathogen Phytophthora cinnamomi from natural ecosystems; and (b) confirm this success using molecular and traditional diagnostic tools. The method will allow large areas of previously infested jarrah forest to be returned to a disease-free status post mining.
Dynamics of animal mediated vegetation establishment and persistence in disturbed landscapes. This project aims to provide strategies and commercial products for the best management of animals in plant community restoration. Ensuring effective seed dispersal and minimizing levels of herbivory will reduce resources expended on restoration and ensure sustainable ecosystems. A small reduction in the costs of individual plant protection not only improves the success of rehabilitation programs but sa ....Dynamics of animal mediated vegetation establishment and persistence in disturbed landscapes. This project aims to provide strategies and commercial products for the best management of animals in plant community restoration. Ensuring effective seed dispersal and minimizing levels of herbivory will reduce resources expended on restoration and ensure sustainable ecosystems. A small reduction in the costs of individual plant protection not only improves the success of rehabilitation programs but save millions of dollars throughout the mining industry and rural areas generally. It will also save thousands of dollars in culling programs. An extension of our study will target roadside hazards where kangaroos and traffic have high impact rates.Read moreRead less
Induction of multiple environmental stress tolerance in Australian native species for land rehabilitation using benzoic acid derivatives. The aim of this project is to develop methods to induce abiotic (drought, temperature, salinity) and biotic (die-back disease) stress tolerance in Australian plants by simple treatment using signalling molecules (benzoic acid derivatives) for conservation and land rehabilitation. These molecules occur naturally in plants and non-toxic. Plant establishment in r ....Induction of multiple environmental stress tolerance in Australian native species for land rehabilitation using benzoic acid derivatives. The aim of this project is to develop methods to induce abiotic (drought, temperature, salinity) and biotic (die-back disease) stress tolerance in Australian plants by simple treatment using signalling molecules (benzoic acid derivatives) for conservation and land rehabilitation. These molecules occur naturally in plants and non-toxic. Plant establishment in rehabilitation programs are very low due to exposure to stress. Furthermore, the loss to agricultural and horticultural industries resulting from environmental stresses is very high. Outcome of the project is the availability of plants with multiple stress tolerance enhancing success of rehabilitation programs with flow-through benefits to horticultural and agricultural industries.Read moreRead less
Discovery Early Career Researcher Award - Grant ID: DE220100833
Funder
Australian Research Council
Funding Amount
$386,708.00
Summary
Resilience of forest ecosystems to multiple stressors in a changing climate. This project will examine the influence of multiple stressors including disease, drought and fire, on the resilience of forest ecosystems within Australia. This project expects to generate new knowledge for land managers and the international community, in management of forest health by determining how soil health and soil fungi influence forest recovery after disturbance events. Anticipated outcomes include improved ri ....Resilience of forest ecosystems to multiple stressors in a changing climate. This project will examine the influence of multiple stressors including disease, drought and fire, on the resilience of forest ecosystems within Australia. This project expects to generate new knowledge for land managers and the international community, in management of forest health by determining how soil health and soil fungi influence forest recovery after disturbance events. Anticipated outcomes include improved risk assessment of disturbed forests to future disturbances and significant benefits will include informing climate smart management goals in the recovery of important forest ecosystems, not only for the forest tree species but the animal, plant, insect and microbe communities that depend on these systems.Read moreRead less