Ecology of fine root endophytes in native and agricultural ecosystems. This project aims to investigate the abundance, diversity and function of fine root endophytes in Australian native and agricultural ecosystems in response to recent genetic data proving they are taxonomically distinct from the well-studied arbuscular mycorrhizal fungi. The project aims to complete a comprehensive field survey, novel molecular analyses and innovative glasshouse experiments. Outcomes should include globally si ....Ecology of fine root endophytes in native and agricultural ecosystems. This project aims to investigate the abundance, diversity and function of fine root endophytes in Australian native and agricultural ecosystems in response to recent genetic data proving they are taxonomically distinct from the well-studied arbuscular mycorrhizal fungi. The project aims to complete a comprehensive field survey, novel molecular analyses and innovative glasshouse experiments. Outcomes should include globally significant insights into fine root endophytes and their role in plant growth. The project will strengthen capacity to predict impacts of global environmental change on ecosystem functions driven by the soil rhizosphere.Read moreRead less
Understanding plant residue decomposition by linking organic matter chemistry and soil microbiology. Soils are an important source or sink for CO2. Currently we lack a fundamental understanding of plant residue decomposition and their transformation into various soil organic carbon (SOC) pools. Since these different pools of soil C are recycled back to atmosphere at different rates, a better understanding of the process is crucial for our ability to manage soil C and to predict the impact of man ....Understanding plant residue decomposition by linking organic matter chemistry and soil microbiology. Soils are an important source or sink for CO2. Currently we lack a fundamental understanding of plant residue decomposition and their transformation into various soil organic carbon (SOC) pools. Since these different pools of soil C are recycled back to atmosphere at different rates, a better understanding of the process is crucial for our ability to manage soil C and to predict the impact of management on SOC. For the first time we will combine detailed chemical analyses of soil organic matter fractions with determination of decomposition rates and microbial community structure; thereby also increasing the knowledge of how Australia's biodiversity is modulated. Read moreRead less
Fires, black carbon, greenhouse gas emissions and the carbon balance of southern sclerophyll forests. Ecologically sustainable forest management requires an understanding of the role of fire in the carbon balance of native forests, and in Australia's overall carbon balance. Fires are crucial to both this carbon balance and to the ecology of the forests. This project will help forest managers make decisions about using prescribed fire to manage fuels while at the same time managing carbon. An ....Fires, black carbon, greenhouse gas emissions and the carbon balance of southern sclerophyll forests. Ecologically sustainable forest management requires an understanding of the role of fire in the carbon balance of native forests, and in Australia's overall carbon balance. Fires are crucial to both this carbon balance and to the ecology of the forests. This project will help forest managers make decisions about using prescribed fire to manage fuels while at the same time managing carbon. An aim of management is to identify fire regimes that will optimise the carbon outcome as well as provide protection to life and property. This project will help managers meet that aim by developing a quantitative understanding of how much stable, black carbon (charcoal) is produced and how it affects other soil processes.Read moreRead less