Linkage Infrastructure, Equipment And Facilities - Grant ID: LE0668536
Funder
Australian Research Council
Funding Amount
$485,000.00
Summary
Western Australian Facility for High Throughput Biological and Organic Gas Chromatography-Mass Spectrometry. Disciplines such as pharmaceuticals, plant protection, mineral extraction, and conservation all need to separate, identify and quantify molecules. The method of choice for small molecules (< 500 amu) is gas chromatography and mass spectrometry (GC-MS). A broad range of laboratories in WA are using GC-MS, but the equipment is fully utilised, outdated and limiting progress. This applicatio ....Western Australian Facility for High Throughput Biological and Organic Gas Chromatography-Mass Spectrometry. Disciplines such as pharmaceuticals, plant protection, mineral extraction, and conservation all need to separate, identify and quantify molecules. The method of choice for small molecules (< 500 amu) is gas chromatography and mass spectrometry (GC-MS). A broad range of laboratories in WA are using GC-MS, but the equipment is fully utilised, outdated and limiting progress. This application seeks to purchase research grade GC-MS equipment with order-of-magnitude improvements in mass range, sample throughput, discrimination and data handling capacities. This equipment will transform capabilities and will enhance projects supporting the minerals and agricultural industries and enhance biodiversity conservation efforts.Read moreRead less
Rapid delineation of genetic provenance for rehabilitation and revegetation of native plant communities. The rehabilitation and/or revegetation of degraded, remnant or post-mining bushland is an increasingly important activity. Data and general principles for the delineation of genetic provenance are urgently required for effective rehabilitation, as well as for the conservation of genetic diversity. We will apply a new and powerful genetic technique for the rapid delineation of provenance in ....Rapid delineation of genetic provenance for rehabilitation and revegetation of native plant communities. The rehabilitation and/or revegetation of degraded, remnant or post-mining bushland is an increasingly important activity. Data and general principles for the delineation of genetic provenance are urgently required for effective rehabilitation, as well as for the conservation of genetic diversity. We will apply a new and powerful genetic technique for the rapid delineation of provenance in over 30 native plant species in south west Australia. Our aim is to generate provenance guidelines and principles, as well as provenance data for the most important species for bushland rehabilitation, which will be produced for rehabilitation practitioners through a "provenance atlas" book.Read moreRead less
Unravelling community interactions between mammals and fungi, and the role of mycophagy in mediating biodiversity and driving ecosystem processes. Maintenance of Australia's forest biodiversity and healthy forested ecosystems are of national importance. Mammal species that are key to dispersing beneficial fungi in our forests have suffered greatest declines in the past, and further declines may ultimately lead to ecosystem collapse. My research seeks to unravel community relationship between ma ....Unravelling community interactions between mammals and fungi, and the role of mycophagy in mediating biodiversity and driving ecosystem processes. Maintenance of Australia's forest biodiversity and healthy forested ecosystems are of national importance. Mammal species that are key to dispersing beneficial fungi in our forests have suffered greatest declines in the past, and further declines may ultimately lead to ecosystem collapse. My research seeks to unravel community relationship between mammals and fungi, and how interactions within and between these groups maintain diverse communities. My results will enable forest managers to protect forest biodiversity from current and future threats and to restore degraded ecosystems. Through training of early career ecologists, the research also represents a tangible benefit to Australian science.Read moreRead less
Genetic variation of the vulnerable Eucalyptus argophloia, and its development for sustainable hardwood forestry in low rainfall areas. We will examine the biodiversity in a vulnerable species of eucalypt, Eucalyptus argophloia. This species is under threat due to land clearing, and only 1000 trees remain in the wild. E. argophloia has great promise for plantation timber in low rainfall areas of Northern Australia. We will breed superior varieties for plantation forestry designed to cope with cl ....Genetic variation of the vulnerable Eucalyptus argophloia, and its development for sustainable hardwood forestry in low rainfall areas. We will examine the biodiversity in a vulnerable species of eucalypt, Eucalyptus argophloia. This species is under threat due to land clearing, and only 1000 trees remain in the wild. E. argophloia has great promise for plantation timber in low rainfall areas of Northern Australia. We will breed superior varieties for plantation forestry designed to cope with climate change, low rainfall and salinity. This project will help to manage and preserve the species in the wild and create profitable and sustainable timber plantations on marginal lands.Read moreRead less
Restoration of temperate eucalypt woodland: getting it right. Eucalypt woodlands of southern Australia have been heavily cleared for agriculture: much effort and expense is going towards revegetation of these woodlands to conserve biodiversity, and restore ecosystem services they provide. Current restoration methods are purely empirical, with little understanding of why they work. This project will experimentally investigate revegetation practices to uncover ecological processes they utilise, an ....Restoration of temperate eucalypt woodland: getting it right. Eucalypt woodlands of southern Australia have been heavily cleared for agriculture: much effort and expense is going towards revegetation of these woodlands to conserve biodiversity, and restore ecosystem services they provide. Current restoration methods are purely empirical, with little understanding of why they work. This project will experimentally investigate revegetation practices to uncover ecological processes they utilise, and other ecological processes that potentially can be utilised but are currently not. The cost-effectiveness of different practices will be compared. The outcome of the project will be revegetation practices for eucalypt woodlands that are evidence-based and cost-effective, rather than rule of thumb.Read moreRead less
Forest ecosystem water use: Does species diversity matter? Forest water use and susceptibility to drought are major concerns for forest plantation establishment in Australia. This research will provide fundamental information about how plantation water use and drought tolerance are modified by species diversity. This work has the potential to transform tree plantation establishment practices toward inclusion of greater species diversity or toward species with particular complementary traits. It ....Forest ecosystem water use: Does species diversity matter? Forest water use and susceptibility to drought are major concerns for forest plantation establishment in Australia. This research will provide fundamental information about how plantation water use and drought tolerance are modified by species diversity. This work has the potential to transform tree plantation establishment practices toward inclusion of greater species diversity or toward species with particular complementary traits. It has significant potential to enhance benefits from reforestation projects, including better drought survival, reduced water use, soil bioremediation and enhanced biodiversity. Read moreRead less
Setting and achieving realistic restoration goals in human-dominated ecosystems. Federal and state programs and community and NGO activities increasingly focus on ecosystem restoration as a tool in conservation and natural resource management. Clearer understanding of ecosystem dynamics and better articulation of realistic restoration goals can lead to much improved restoration success and better investment of government and private funds. This project will provide a better understanding of ecos ....Setting and achieving realistic restoration goals in human-dominated ecosystems. Federal and state programs and community and NGO activities increasingly focus on ecosystem restoration as a tool in conservation and natural resource management. Clearer understanding of ecosystem dynamics and better articulation of realistic restoration goals can lead to much improved restoration success and better investment of government and private funds. This project will provide a better understanding of ecosystem dynamics both under current conditions and also as influenced by future environmental changes. The contribution to the theoretical and conceptual development of the field of restoration ecology will increase the profile of Australian science and enhance our reputation as leaders in this field. Read moreRead less
Managing the evolutionary potential of fragmented native plant populations. Many previously widespread plant species now exist in small fragmented populations threatened with extinction due to genetic decline. We will apply a novel and powerful new genetic approach for the assessment of the evolutionary potential of these populations. Through the most detailed characterisation of realized mating yet possible, we will determine if recently fragmented populations are in genetic decline, and how ....Managing the evolutionary potential of fragmented native plant populations. Many previously widespread plant species now exist in small fragmented populations threatened with extinction due to genetic decline. We will apply a novel and powerful new genetic approach for the assessment of the evolutionary potential of these populations. Through the most detailed characterisation of realized mating yet possible, we will determine if recently fragmented populations are in genetic decline, and how anciently fragmented species avoid extinction. Our aim is to generate general principles for the early measurement and/or prediction of genetic decline in species most at risk, that will enable us to determine how and when remediation measures are required.Read moreRead less
The genus Banksia: can ecophysiological traits associated with nutrient acquisition explain species distribution and rarity? We aim to investigate if an important aspect of a specialised mechanism of nutrient acquisition by different species of the genus Banksia (Proteaceae) accounts for their distribution and rarity. This aspect is the pattern of exudates that are produced by their 'proteoid' roots. Different species of the Proteaceae produce different exudates and it is envisaged that variatio ....The genus Banksia: can ecophysiological traits associated with nutrient acquisition explain species distribution and rarity? We aim to investigate if an important aspect of a specialised mechanism of nutrient acquisition by different species of the genus Banksia (Proteaceae) accounts for their distribution and rarity. This aspect is the pattern of exudates that are produced by their 'proteoid' roots. Different species of the Proteaceae produce different exudates and it is envisaged that variation in pattern reflects their capacity to grow on certain soil types. Our studies will provide key information on processes that determine species distribution, with consequences for defining better management regimes for rare and endangered species.Read moreRead less
Complex system dynamics: restoring riparian and riverine ecosystems. Attempts to restore damaged ecosystems reveal inadequacies in theories describing ecosystem structure and function. For rivers, it is unclear whether theories relating to fluvial geomorphology and ecosystem dynamics are adequate to predict system trajectories following restoration. We will use empirical data on a degraded river to develop cross-scale models of system function, and predict ecosystem structure and dynamics follow ....Complex system dynamics: restoring riparian and riverine ecosystems. Attempts to restore damaged ecosystems reveal inadequacies in theories describing ecosystem structure and function. For rivers, it is unclear whether theories relating to fluvial geomorphology and ecosystem dynamics are adequate to predict system trajectories following restoration. We will use empirical data on a degraded river to develop cross-scale models of system function, and predict ecosystem structure and dynamics following restoration. Following revegetation of riparian habitats and replacement of large woody debris in in-stream habitats of the river, we will test theoretical predictions about changes to physical processes, biotic community assemblage rules and food webs to develop improved ecosystem-based restoration guidelines.Read moreRead less