Designing and Evaluating Biodiversity Conservation Policies for the Future. Biodiversity loss is a concern worldwide, especially in Australia with one of the world's 25 biodiversity "hot spots". Poor translation of ecology into policy and an absence of policy design principles are significantly impeding our ability to arrest these losses. This project aims to translate current developments in ecological theory into information useful for policy makers, develop and apply an evaluation framework t ....Designing and Evaluating Biodiversity Conservation Policies for the Future. Biodiversity loss is a concern worldwide, especially in Australia with one of the world's 25 biodiversity "hot spots". Poor translation of ecology into policy and an absence of policy design principles are significantly impeding our ability to arrest these losses. This project aims to translate current developments in ecological theory into information useful for policy makers, develop and apply an evaluation framework to current biodiversity policies using this new information, and develop policy design principles based on this evaluation. The project's expected outcomes - a clear translation of ecological theory for policy makers, and evaluation criteria and design principles for biodiversity policies - will contribute to conserving biodiversity. Read moreRead less
Linkage Infrastructure, Equipment And Facilities - Grant ID: LE0989062
Funder
Australian Research Council
Funding Amount
$450,000.00
Summary
Airborne hyper-spectral scanning for advanced monitoring and assessment of vegetation and water properties. The proposed infrastructure will give Australian researchers the most advanced capabilities available world-wide in airborne remote sensing of the environment. By combining hyper-spectral scanning, with full wave-form resolving Light Detection and Ranging (LIDAR), microwave scanning and sythetic aperture RADAR, flown simultaneously on the most cost-efficient and technologically advanced re ....Airborne hyper-spectral scanning for advanced monitoring and assessment of vegetation and water properties. The proposed infrastructure will give Australian researchers the most advanced capabilities available world-wide in airborne remote sensing of the environment. By combining hyper-spectral scanning, with full wave-form resolving Light Detection and Ranging (LIDAR), microwave scanning and sythetic aperture RADAR, flown simultaneously on the most cost-efficient and technologically advanced research aircraft, it will be possible to assess and monitor a wide range of parameters not accessible to airborne methods before.Read moreRead less
Optimizing mine floor ripping strategies for diverse regolith types to enhance rehabilitation success. The aim of the project is to identify poorly structured subsoils developed in regolith materials in rehabilitated bauxite mines and develop procedures for minimising the effects of poor soil structure on tree growth. Well structured regolith types will also be identified as sites requiring less ripping. Large-scale field trials will be established to examine the impact of ripping on different ....Optimizing mine floor ripping strategies for diverse regolith types to enhance rehabilitation success. The aim of the project is to identify poorly structured subsoils developed in regolith materials in rehabilitated bauxite mines and develop procedures for minimising the effects of poor soil structure on tree growth. Well structured regolith types will also be identified as sites requiring less ripping. Large-scale field trials will be established to examine the impact of ripping on different regolith types. Methods will be developed to enable prediction of regolith structure based on instumented rippers, drill hole data and remote sensing. Greater success of revegetation practices and a decrease in annual ripping costs ($1.3 m) are anticipated.Read moreRead less
Linkage Infrastructure, Equipment And Facilities - Grant ID: LE0775642
Funder
Australian Research Council
Funding Amount
$350,000.00
Summary
Stable isotope facility for biological, ecological, and geological applications - West Australian Biogeochemistry Centre. Stable isotope science underpins many disciplines of research, from forensic identification of sources of counterfeit money through to understanding the formation of gold and other mineral deposits. Stable isotope science also provides insights that will improve management of water and land resources, including the impacts of utilisation of groundwater, reducing gaseous emiss ....Stable isotope facility for biological, ecological, and geological applications - West Australian Biogeochemistry Centre. Stable isotope science underpins many disciplines of research, from forensic identification of sources of counterfeit money through to understanding the formation of gold and other mineral deposits. Stable isotope science also provides insights that will improve management of water and land resources, including the impacts of utilisation of groundwater, reducing gaseous emissions from land-use change and knowledge of food webs in marine systems. While a handful of laboratories utilise IRMS around Australia, equipment is fully utilised, outdated and limiting progress. A new IRMS will transform capabilities in WA and enhance projects in terrestrial and marine ecology, ecosystem science and geochemistry of mineral deposits. Read moreRead less
Mitigation of Impacts on Groundwater Dependent Vegetation Through Adaptive Abstraction Regimes. Apart from loss of habitat, biodiversity, ecological function and aesthetics, tree decline and death is a financial burden to land managers. Lost groundwater production from existing borefield infrastructure due to environmental risk also represents a significant economic loss to industry. By adapting borefield operation strategies to be more sympathetic to environmental demands for groundwater, susta ....Mitigation of Impacts on Groundwater Dependent Vegetation Through Adaptive Abstraction Regimes. Apart from loss of habitat, biodiversity, ecological function and aesthetics, tree decline and death is a financial burden to land managers. Lost groundwater production from existing borefield infrastructure due to environmental risk also represents a significant economic loss to industry. By adapting borefield operation strategies to be more sympathetic to environmental demands for groundwater, sustainable use of the resource can be maximized under otherwise 'high-risk' scenarios. This project will result in environmental benefits such as reduced impacts of borefields and economic benefits such as recovery of lost production from 'high-risk' borefields, increased viability of planned schemes and reduced customer cost of water services.Read moreRead less
Ecological sustainability and changing land use in the Pilbara. Land use change is frequently associated with large changes in key elements of 'sustainability? ? biodiversity, productivity, and water and nutrient cycles. However, in the Pilbara, fires and flooding rains are so frequent that detecting consequences of land use change is frequently confounded by other ?disturbances?. We aim, through controlled field experiments, to disentangle effects of land use change (e.g. de-stocking of range ....Ecological sustainability and changing land use in the Pilbara. Land use change is frequently associated with large changes in key elements of 'sustainability? ? biodiversity, productivity, and water and nutrient cycles. However, in the Pilbara, fires and flooding rains are so frequent that detecting consequences of land use change is frequently confounded by other ?disturbances?. We aim, through controlled field experiments, to disentangle effects of land use change (e.g. de-stocking of rangelands, altered water availability through mining activity or infrastructure) from those of natural disturbance and variability (both spatially and temporally). This research will improve understanding of key areas in resilience of rangelands and of major processes that are critical for sustainable management.Read moreRead less
Management of fire-prone shrublands in Western Australia: testing the effects of frequent fire. Understanding the impacts of different fire regimes (frequency, intensity, patchiness, size of fires) on high diversity shrublands will help CALM (the land managers) develop fire management prescriptions that ensure the conservation of rare and threatened flora, and maintain biodiversity. The research will identify relationships between weather, fuel and fire behaviour that is currently lacking for s ....Management of fire-prone shrublands in Western Australia: testing the effects of frequent fire. Understanding the impacts of different fire regimes (frequency, intensity, patchiness, size of fires) on high diversity shrublands will help CALM (the land managers) develop fire management prescriptions that ensure the conservation of rare and threatened flora, and maintain biodiversity. The research will identify relationships between weather, fuel and fire behaviour that is currently lacking for shrubland vegetation types. It offers advances in our understanding of ecosystem structure and function, with applied value in fire management for conservation and asset protection. The project contributes to development of ecological theory, and provides a scientific basis for improved management of Australia's unique natural heritage.Read moreRead less
PLAGA: Pastoral Lease Assessment using Geospatial Analysis. This project improves the capacity of Natural Resource Management (NRM) and land administration agencies to record, monitor and communicate changes in land condition across the large spatial scales characteristic of rangelands. Pastoralists also benefit through improved capacity to promote, defend, understand and if necessary change their management activities on the basis of scientific data. By further developing and operationalising t ....PLAGA: Pastoral Lease Assessment using Geospatial Analysis. This project improves the capacity of Natural Resource Management (NRM) and land administration agencies to record, monitor and communicate changes in land condition across the large spatial scales characteristic of rangelands. Pastoralists also benefit through improved capacity to promote, defend, understand and if necessary change their management activities on the basis of scientific data. By further developing and operationalising this new approach to rangeland monitoring in a project integrating human extension expertise, specifically prepared monitoring products, and the associated software, the project will confirm the benefits that satellite technology can provide to land administrators and the grazing industry in monitoring and sustainably managing rangelands.Read moreRead less
Assessing long term change in rangeland health and building models for change, using historical photos and monitoring data. Long-term photo sites and vegetation data will be used to make an assessment of change over the last few decades in the arid pastoral rangelands of Western Australia.
The aims are to: make a judgement about whether the changes have been positive or negative (for particular value systems); make a case for causality; explore links between vegetation data and soil surface, ....Assessing long term change in rangeland health and building models for change, using historical photos and monitoring data. Long-term photo sites and vegetation data will be used to make an assessment of change over the last few decades in the arid pastoral rangelands of Western Australia.
The aims are to: make a judgement about whether the changes have been positive or negative (for particular value systems); make a case for causality; explore links between vegetation data and soil surface, biodiversity and remotely-sensed data; and contribute to the building of models of expected change.
Outcomes will include the meeting of national and international conventions and strategies, and an increased ability of the pastoral industry to access international markets.
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Integrating economics and science for land, water and biodiversity policy. Australian government programs for land and water conservation involve expenditure of billions of dollars, combined with much larger contributions from program participants. However, various problems with these programs have been identified. This research will assist program investors to better target funding, to employ more appropriate policy mechanisms, and to operate in a cost-effective way, achieving the most highly v ....Integrating economics and science for land, water and biodiversity policy. Australian government programs for land and water conservation involve expenditure of billions of dollars, combined with much larger contributions from program participants. However, various problems with these programs have been identified. This research will assist program investors to better target funding, to employ more appropriate policy mechanisms, and to operate in a cost-effective way, achieving the most highly valued environmental outcomes that can be achieved with the available budget. The project will develop improved theories, frameworks and economic models, integrating information from physical, biological and social sciences, and decision tools for use by environmental decision makers.Read moreRead less