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Linkage Infrastructure, Equipment And Facilities - Grant ID: LE0882836
Funder
Australian Research Council
Funding Amount
$160,000.00
Summary
A novel isotope facility to characterise high-molecular-weight fractions of natural organic matter in soils, sediments, water, petroleum and coal. This facility will improve our ability to forecast environmental responses to future climate change, and help Australia manage current threats to its biodiversity. Furthermore, this research will increase the ability to identify crude oil sources, to the benefit of petroleum exploration in Australia. This facility will also contribute to an improved u ....A novel isotope facility to characterise high-molecular-weight fractions of natural organic matter in soils, sediments, water, petroleum and coal. This facility will improve our ability to forecast environmental responses to future climate change, and help Australia manage current threats to its biodiversity. Furthermore, this research will increase the ability to identify crude oil sources, to the benefit of petroleum exploration in Australia. This facility will also contribute to an improved understanding of controls on water quality and will help to protect our precious freshwater resources, already under intense pressure from climate change. Importantly, this project will enable students and young professionals to be trained in state-of-the-art technology, leading to quality scientists ready for employment in industry.
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Linkage Infrastructure, Equipment And Facilities - Grant ID: LE0775650
Funder
Australian Research Council
Funding Amount
$170,000.00
Summary
Advanced multi-purpose analytical pyrolysis facility. Investment by the ARC, two WA universities, a government research agency, a CRC (and idirectly by a water utility) demonstrate the national need for this analytical facility and the broad commitment to maintain Australia's reputation in the field of analytical pyrolysis. An innovative laser micropyrolysis facility will be concurrently used with a recent commercially available unit to support research of present day and palaeo-environmental o ....Advanced multi-purpose analytical pyrolysis facility. Investment by the ARC, two WA universities, a government research agency, a CRC (and idirectly by a water utility) demonstrate the national need for this analytical facility and the broad commitment to maintain Australia's reputation in the field of analytical pyrolysis. An innovative laser micropyrolysis facility will be concurrently used with a recent commercially available unit to support research of present day and palaeo-environmental occurrences of OM, directly assisting an eclectic range of research activities including environmental protection and petroleum exploration. This facility will also aid the chemical fingerprinting of minute forensic evidence, ultimately helping to convict perpetrators of crime.
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Linkage Infrastructure, Equipment And Facilities - Grant ID: LE100100127
Funder
Australian Research Council
Funding Amount
$300,000.00
Summary
High resolution liquid chromatography mass spectrometry (Orbitrap) for analyses of polar compounds in biomass, petroleum, potable and reclaimed water. Climate change and human impact can harm sensitive ecosystems, significantly threatening Australian biodiversity and water resources. Chemical and biological characterisation of aquatic and terrestrial environments is paramount to assessing and responding to these threats, as well as assisting natural resource utilisation. The high structural pola ....High resolution liquid chromatography mass spectrometry (Orbitrap) for analyses of polar compounds in biomass, petroleum, potable and reclaimed water. Climate change and human impact can harm sensitive ecosystems, significantly threatening Australian biodiversity and water resources. Chemical and biological characterisation of aquatic and terrestrial environments is paramount to assessing and responding to these threats, as well as assisting natural resource utilisation. The high structural polarity of many environmentally occurring organics from biological, petroleum and anthropogenic sources, unamenable to gas chromatographic resolution, can now be accommodated by the advanced organic analytical technology sought in this proposal. This project will enable scholars and young professionals to be skilled in state-of-the-art technology, and prepare quality scientists, ready for employment.Read moreRead less
Genetic evaluation of the diversity of the stygobitic fauna of the Pilbara, Western Australia. This study has two main aims, designed to help manage populations of the subterranean invertebrate fauna in an economically important region of Western Australia: 1) to provide phylogenetic and population genetic information on the structure of populations of amphipods and other groundwater fauna in the Pilbara, Western Australia, and 2) to investigate areas of the ecology of the fauna including respon ....Genetic evaluation of the diversity of the stygobitic fauna of the Pilbara, Western Australia. This study has two main aims, designed to help manage populations of the subterranean invertebrate fauna in an economically important region of Western Australia: 1) to provide phylogenetic and population genetic information on the structure of populations of amphipods and other groundwater fauna in the Pilbara, Western Australia, and 2) to investigate areas of the ecology of the fauna including response to changes in water chemistry. The genetic information will be used to gain an understanding of species diversity, distributions, and movement in order to help set conservation priorities in managing resources, habitats, and fauna. The ecological data will be used to study the effects of dewatering and changes in water chemsitry on morphology and survival.Read moreRead less
Management of rehabilitated bauxite mines to accelerate the return of vertebrate fauna. This project will examine the effect of thinning and burning mine-site rehabilitation on the abundance of terrestrial mammals and reptiles. This nationally significant project will provide Resource Managers in Western Australia with measures of impacts of forestry thinning and burning (for timber production and drinking water catchment) on vertebrates, and will provide management tools to conserve biodiversit ....Management of rehabilitated bauxite mines to accelerate the return of vertebrate fauna. This project will examine the effect of thinning and burning mine-site rehabilitation on the abundance of terrestrial mammals and reptiles. This nationally significant project will provide Resource Managers in Western Australia with measures of impacts of forestry thinning and burning (for timber production and drinking water catchment) on vertebrates, and will provide management tools to conserve biodiversity within productive forest environments. Expected outcomes are procedures to accelerate returns of vertebrate fauna to mine-sites, measurements of thinning and burning practices on tree-health, and trial procedures for forest thinning (the 12000 Ha Wungong catchment) that minimise impacts on terrestrial vertebrates.Read moreRead less
Optimal management of threatened amphibian metapopulations in urbanising landscapes. This project will enable the identification of optimal management strategies for many species threatened by the loss and fragmentation of their habitat, both in Australia and internationally. Our research will contribute to the recovery of the endangered Growling Grass Frog, and drive the conservation of wetland biodiversity on the fringe of Australia's fastest growing city. Both the methods and specific recomme ....Optimal management of threatened amphibian metapopulations in urbanising landscapes. This project will enable the identification of optimal management strategies for many species threatened by the loss and fragmentation of their habitat, both in Australia and internationally. Our research will contribute to the recovery of the endangered Growling Grass Frog, and drive the conservation of wetland biodiversity on the fringe of Australia's fastest growing city. Both the methods and specific recommendations for management that we develop will contribute to the goal of an environmentally-sustainable Australia. This project will expand Australia's capacity to solve conservation problems, and will promote biological diversity in urban environments, to the benefit of their human inhabitants.Read moreRead less
Conservation management of seed-eating birds in the tropical savannas. Biodiversity loss in the savannas indicates unsustainable management. This research will enhance our abilities to effectively manage Australia's tropical savannas, as well as contributing to several State and Territory, Commonwealth and international obligations to maintain biodiversity. Understanding the processes underlying current declines will also make the effects of future management or environment changes easier to pre ....Conservation management of seed-eating birds in the tropical savannas. Biodiversity loss in the savannas indicates unsustainable management. This research will enhance our abilities to effectively manage Australia's tropical savannas, as well as contributing to several State and Territory, Commonwealth and international obligations to maintain biodiversity. Understanding the processes underlying current declines will also make the effects of future management or environment changes easier to predict. Retaining threatened species can benefit remote and regional communities through tourism, and also through the extra employment required to implement the management prescriptions that will be developed from this research.Read moreRead less
Molecular approaches for the exploitation of genetic diversity in subterranean clover (Trifolium subterraneum L.) for profitable Australian farming systems. Subterranean clover is the most widely sown annual pasture legume species in southern Australia. It is native to the Mediterranean basin and has been sown over an estimated area of 22 million ha. This project will provide breeders with a focused core germplasm collection representing the range of genetic diversity of the around 8000 accessio ....Molecular approaches for the exploitation of genetic diversity in subterranean clover (Trifolium subterraneum L.) for profitable Australian farming systems. Subterranean clover is the most widely sown annual pasture legume species in southern Australia. It is native to the Mediterranean basin and has been sown over an estimated area of 22 million ha. This project will provide breeders with a focused core germplasm collection representing the range of genetic diversity of the around 8000 accessions in the original collection. The focused core collection will lead to more efficient and effective breeding of elite cultivars for sustainable and profitable farming systems to benefit wool, meat and grains industries.Read moreRead less
Assessment of the diversity, distribution and uniqueness of subterranean animals from calcrete aquifers in central western Australia. Recently a rich and diverse subterranean invertebrate fauna (stygofauna) was unexpectedly discovered from numerous isolated calcrete aquifers associated with palaeodrainage channels in central Western Australia. Our recent taxonomic and molecular studies have suggested that stygofaunas within each aquifer may be highly endemic. We aim to test this hypothesis by in ....Assessment of the diversity, distribution and uniqueness of subterranean animals from calcrete aquifers in central western Australia. Recently a rich and diverse subterranean invertebrate fauna (stygofauna) was unexpectedly discovered from numerous isolated calcrete aquifers associated with palaeodrainage channels in central Western Australia. Our recent taxonomic and molecular studies have suggested that stygofaunas within each aquifer may be highly endemic. We aim to test this hypothesis by investigating the diversity, distribution and uniqueness of stygofauna from three major calcrete regions. We further aim to document the environmental conditions and variability within the aquifers and to develop rigorous sampling protocols. Such data are essential for the development of appropriate strategies for sustainable management of subterranean water and their ecosystems.Read moreRead less
Ecohydrological feedbacks between vegetation and soil in natural and engineered landforms in arid Australia. We address 'An Environmentally Sustainable Australia'. 1. Water is the binding factor in our project, defining vegetation, geomorphology and hydrology. 2. Rehabilitation is an integral part of the mining business. Our project is instrumental in developing ecological engineering approaches to rehabilitation. 3. Ultimate goal of the project is to develop stable landforms, protecting underly ....Ecohydrological feedbacks between vegetation and soil in natural and engineered landforms in arid Australia. We address 'An Environmentally Sustainable Australia'. 1. Water is the binding factor in our project, defining vegetation, geomorphology and hydrology. 2. Rehabilitation is an integral part of the mining business. Our project is instrumental in developing ecological engineering approaches to rehabilitation. 3. Ultimate goal of the project is to develop stable landforms, protecting underlying rock. 4. We investigate locally adapted native plant species for use in arid-zone land rehabilitation, to preserve biodiversity. 5. The area of study is exposed to long droughts and cyclonic rainfall. Understanding the resilience of the landscape will provide pivotal insight into the impact and potential adaptive response to climate variability.Read moreRead less