Functional analysis of Bacillus thuringiensis crystal toxins. Pore-forming toxins, such as anthrax, hemolysin, cholera and diphtheria toxins, are among the most virulent microbial toxins, posing a threat to humans and lifestock. We are using a novel functional approach to test possible lectin and antimicrobial peptide functions of a typical and economically important pore-forming toxin, the crystal endotoxin from Bacillus thuringiensis, to examine why toxicity of the lectin-containing toxin is ....Functional analysis of Bacillus thuringiensis crystal toxins. Pore-forming toxins, such as anthrax, hemolysin, cholera and diphtheria toxins, are among the most virulent microbial toxins, posing a threat to humans and lifestock. We are using a novel functional approach to test possible lectin and antimicrobial peptide functions of a typical and economically important pore-forming toxin, the crystal endotoxin from Bacillus thuringiensis, to examine why toxicity of the lectin-containing toxin is restricted to invertebrates only, while the amphipathic peptide alone is also toxic to many vertebrate cells. The outcome of these experiments has important implications for the sustainable use of biopesticides and for the prevention and containment of infectious diseases.Read moreRead less
Microscale insights into ocean-scale processes: microbial behaviour as a driver of ocean biogeochemistry. Microscopic plankton regulate the ocean's chemical cycles, which ultimately support life on earth. However, the ecological interactions driving these processes are poorly understood. This project will use novel approaches to decipher the behaviours of marine microbes, providing a more complete perception of how ocean ecosystems operate and influence climate.
Ochre archaeomicrobiology: a new tool for understanding Aboriginal exchange. This project aims to identify the origins and movements of Australian archaeological ochre through the development of a novel tool combining genomic and chemical analysis. The geographic distribution of Australian ochre is closely linked to Aboriginal creation stories, while its physical distribution by people is evidence of cultural cooperation. Using this new archaeomicrobiological technique, the project aims to answe ....Ochre archaeomicrobiology: a new tool for understanding Aboriginal exchange. This project aims to identify the origins and movements of Australian archaeological ochre through the development of a novel tool combining genomic and chemical analysis. The geographic distribution of Australian ochre is closely linked to Aboriginal creation stories, while its physical distribution by people is evidence of cultural cooperation. Using this new archaeomicrobiological technique, the project aims to answer significant questions about past human behaviour, in terms of trade, cultural interactions, territoriality and colonisation. The method also has the potential to benefit traditional owners by contributing to repatriation projects. The collaborative detailed recording, sampling and analysis of ochre sources on traditional lands will also assist Aboriginal communities to manage this important aspect of their cultural heritage.Read moreRead less
Carbon costs of plant nutrient and water uptake. This project aims to investigate how much carbon plants need to invest belowground in return for water and nutrients. By using economic principles of supply and demand the project will quantify carbon expenditure for water and nutrients in grasslands and crops under different climate and land management scenarios. This project will use triple and quadruple isotope labelling techniques and explore the dependency of carbon investment on plant-microb ....Carbon costs of plant nutrient and water uptake. This project aims to investigate how much carbon plants need to invest belowground in return for water and nutrients. By using economic principles of supply and demand the project will quantify carbon expenditure for water and nutrients in grasslands and crops under different climate and land management scenarios. This project will use triple and quadruple isotope labelling techniques and explore the dependency of carbon investment on plant-microbial interactions and availability of belowground resources. Expected outcomes include new knowledge to build a universal framework about plant carbon-water-nutrient economics. This will benefit global carbon cycling models and efforts to increase nutrient and water use efficiencies in agricultural crops.Read moreRead less
Keystone microbes and planktonic guilds in Australia's oceans. This project aims to unveil the ocean’s hidden sentinels, “keystone microbes” that underpin precious ecosystem services, and which can be used to monitor and model changes in ocean function. Marine microbes account for 90 per cent of oceanic biomass and every litre of seawater contains ~20,000 different species, but it is not known which species control ocean health and productivity. This project intends to provide definitive evidenc ....Keystone microbes and planktonic guilds in Australia's oceans. This project aims to unveil the ocean’s hidden sentinels, “keystone microbes” that underpin precious ecosystem services, and which can be used to monitor and model changes in ocean function. Marine microbes account for 90 per cent of oceanic biomass and every litre of seawater contains ~20,000 different species, but it is not known which species control ocean health and productivity. This project intends to provide definitive evidence of these keystones’ cellular level biogeochemical and metabolic capacity. Ultimately, this knowledge is expected to predict the resilience of ocean ecosystems and their response to change. The capacity to predict their dynamics will help provide investment clarity and increase healthy outcomes from activities involving human-ocean interactions such as recreation, food production and tourism.Read moreRead less
The Role of the Single-Cell Environment in Microbial Invasion. This project aims to use a single-cell approach to develop a quantitative analysis of single-cell interactions to advance our understanding of complex bacterial behaviour fundamental to ecology, industry, technology and disease. Bacteria are ubiquitous on Earth and play key roles in nutrient cycles, biogeochemistry, pathogenesis, symbiosis and bioremediation among other processes. They exhibit complex behaviour and continuously invad ....The Role of the Single-Cell Environment in Microbial Invasion. This project aims to use a single-cell approach to develop a quantitative analysis of single-cell interactions to advance our understanding of complex bacterial behaviour fundamental to ecology, industry, technology and disease. Bacteria are ubiquitous on Earth and play key roles in nutrient cycles, biogeochemistry, pathogenesis, symbiosis and bioremediation among other processes. They exhibit complex behaviour and continuously invade animals, plants and new habitats. These behaviours are poorly understood in natural communities.Read moreRead less
Physical and Ecological Structure at the Base of Ocean Food Webs. The coastal ocean is a crucial resource to Australia. In founding a research area on coastal food web function we provide international scientific leadership, train scientists in a cutting edge area, and lay the foundation for improved management of fisheries, aquaculture and species invasions. This work boosts Australia's participation in the International Polar Year, and knowledge about Antarctic Territorial waters. Infrastructu ....Physical and Ecological Structure at the Base of Ocean Food Webs. The coastal ocean is a crucial resource to Australia. In founding a research area on coastal food web function we provide international scientific leadership, train scientists in a cutting edge area, and lay the foundation for improved management of fisheries, aquaculture and species invasions. This work boosts Australia's participation in the International Polar Year, and knowledge about Antarctic Territorial waters. Infrastructure benefit comes from the French government paying for an outstanding French scientist to come to Australia 6 months/yr for 5 yrs. This grant acts as the base for larger projects that import EU and American funds.Read moreRead less
The geomicrobiology and (bio)geochemistry of platinum, palladium and rhodium. Few economic (Platinum) Pt, (Palladium) Pd or (Rhodium) Rh deposits are known in Australia despite an abundance of potential host rock. By improving onshore exploration techniques this project will ensure the supply of these strategic metals to the Australian economy. By integrating geochemical, molecular microbial and microanalyses (e.g., synchrotron) techniques this project will also: (i) enhance Australia's status i ....The geomicrobiology and (bio)geochemistry of platinum, palladium and rhodium. Few economic (Platinum) Pt, (Palladium) Pd or (Rhodium) Rh deposits are known in Australia despite an abundance of potential host rock. By improving onshore exploration techniques this project will ensure the supply of these strategic metals to the Australian economy. By integrating geochemical, molecular microbial and microanalyses (e.g., synchrotron) techniques this project will also: (i) enhance Australia's status in the breakthrough science of Geomicrobiology; (ii) secure a leading role for Australian science in the assessment of anthropogenic Pt, Pd and Rh pollution; (iii) access expertise developed overseas by fostering international collaborations; and (iv) explore the transformational capabilities of microbiota for ore-processing of and nano-particle production.Read moreRead less
Role of rhizosphere microorganisms in growth of plants in soils with low P availability. The concentration of available phosphorus in many Australian soils is low compared to the requirement of plants and soil organisms. Plant genotypes differ in their capacity to grow at low P availability but the role of rhizosphere microorganisms in plant P uptake from such soils is largely unknown. We will determine the role of rhizosphere microorganisms in P solubilisation and mobilisation in different crop ....Role of rhizosphere microorganisms in growth of plants in soils with low P availability. The concentration of available phosphorus in many Australian soils is low compared to the requirement of plants and soil organisms. Plant genotypes differ in their capacity to grow at low P availability but the role of rhizosphere microorganisms in plant P uptake from such soils is largely unknown. We will determine the role of rhizosphere microorganisms in P solubilisation and mobilisation in different crop genotypes and native plant species in different Australian soils with low P availability. The results will give a comprehensive picture of the role of rhizosphere microbial ecology in phosphorus acquisition by crop and native plants.Read moreRead less
Motility as a means to understand prokaryotic function in the biosphere. Bacterial processes are crucial to the environment, industry and technology of Australia. This work will open a new area of research to expand our understanding of how bacteria behave and function. This will lay the foundation for improved environmental management and resource utilisation in the critical areas of groundwater purification, coral infections, fisheries yields, petroleum remediation and bioenergy generation. Th ....Motility as a means to understand prokaryotic function in the biosphere. Bacterial processes are crucial to the environment, industry and technology of Australia. This work will open a new area of research to expand our understanding of how bacteria behave and function. This will lay the foundation for improved environmental management and resource utilisation in the critical areas of groundwater purification, coral infections, fisheries yields, petroleum remediation and bioenergy generation. This proposal will train over a dozen new scientists in these crucial areas and bring leading international scientists to Australia in the areas of bioenergy production, microfluidics, advanced microscopy and bioengineering.Read moreRead less