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Discovery Early Career Researcher Award - Grant ID: DE170101524
Funder
Australian Research Council
Funding Amount
$372,000.00
Summary
Past and future dynamics in coastal ecosystems. This project aims to understand how humans and nature affect coastal ecosystems. Globally, billions of dollars are spent on understanding ecosystem services and responses to human and natural pressures, but contemporary datasets’ short time-span makes them inadequate, since ecosystems change at multiple spatial and temporal scales. This project will use seagrass archives to reconstruct the history of coastal ecosystems over millennia, identifying b ....Past and future dynamics in coastal ecosystems. This project aims to understand how humans and nature affect coastal ecosystems. Globally, billions of dollars are spent on understanding ecosystem services and responses to human and natural pressures, but contemporary datasets’ short time-span makes them inadequate, since ecosystems change at multiple spatial and temporal scales. This project will use seagrass archives to reconstruct the history of coastal ecosystems over millennia, identifying baseline conditions, the time-course of ecological change, cycles and thresholds of ecosystem dynamics driven by human and natural forces, and determining their role as biogeochemical sinks. Intended outcomes are to manage ecological change and remove constraints on sustainable coastal development.Read moreRead less
Discovery Early Career Researcher Award - Grant ID: DE120101998
Funder
Australian Research Council
Funding Amount
$375,000.00
Summary
Coral reefs, climate change and land-based pollution: past, present and future impacts on coral reef development. Major threats to the Great Barrier Reef (GBR) include climate change and deteriorating water quality. Environmental histories in the skeletons of reef building organisms will be used to determine how past, present and future environmental threats influence the growth and development of the GBR. Findings will help set national water quality targets.
Discovery Early Career Researcher Award - Grant ID: DE160101322
Funder
Australian Research Council
Funding Amount
$371,500.00
Summary
Mapping the water-energy nexus: new knowledge for resources security. This project plans to systematically evaluate energy impacts of urban water security across three interconnected systems: the direct consequences of water supply; the indirect influence of water use in industry and homes; and the remote implications of water security on supply chains. The project intends to use a new, high-resolution, open-access, multi-regional, input-output model of the Australian economy and its resources u ....Mapping the water-energy nexus: new knowledge for resources security. This project plans to systematically evaluate energy impacts of urban water security across three interconnected systems: the direct consequences of water supply; the indirect influence of water use in industry and homes; and the remote implications of water security on supply chains. The project intends to use a new, high-resolution, open-access, multi-regional, input-output model of the Australian economy and its resources use: the Industrial Ecology Virtual Laboratory. It expects to help address escalating energy demands and costs for urban water by identifying alternative and optimal pathways for addressing the energy impacts of water supply.Read moreRead less
Discovery Early Career Researcher Award - Grant ID: DE160101207
Funder
Australian Research Council
Funding Amount
$334,000.00
Summary
Predicting fisheries change from cumulative impacts to aquatic habitats. This project intends to quantify the role that aquatic habitats play in fisheries, and to help identify where to restore degraded aquatic habitats. Fisheries are a globally important resource but their status is declining in many regions, often because of the loss of aquatic habitats. However, the role of habitat in fishery declines is poorly quantified, and new models are needed that integrate existing datasets to attribut ....Predicting fisheries change from cumulative impacts to aquatic habitats. This project intends to quantify the role that aquatic habitats play in fisheries, and to help identify where to restore degraded aquatic habitats. Fisheries are a globally important resource but their status is declining in many regions, often because of the loss of aquatic habitats. However, the role of habitat in fishery declines is poorly quantified, and new models are needed that integrate existing datasets to attribute change in a fishery to change in its habitats. The project aims to develop a new statistical analysis to examine the role of habitat loss in the global status of fisheries and how multiple human impacts to habitats affect fisheries, to decide how we can best protect aquatic habitats.Read moreRead less
Discovery Early Career Researcher Award - Grant ID: DE190101416
Funder
Australian Research Council
Funding Amount
$329,538.00
Summary
The value of model complexity for fisheries management. This project aims to quantify the benefits of using dynamic multi-species models for harvest decisions in the fishing industry. More than 99.8 per cent of fisheries are assessed using single-species models. Since fishers harvest multiple interacting species, not considering these interactions can lead to negative outcomes that reduce food security, eliminate human livelihoods, decrease economic production, and harm the environment. The proj ....The value of model complexity for fisheries management. This project aims to quantify the benefits of using dynamic multi-species models for harvest decisions in the fishing industry. More than 99.8 per cent of fisheries are assessed using single-species models. Since fishers harvest multiple interacting species, not considering these interactions can lead to negative outcomes that reduce food security, eliminate human livelihoods, decrease economic production, and harm the environment. The project is expected to provide guidance for fisheries scientists on when to use multi-species models for management, improved decision making capacity to reduce the risk of fishery collapse, a new method for dynamic model validation in the face of limited data, and enhanced collaboration between modellers and applied agencies. By reducing the risk of ecosystem collapse through better use of complex and simple models. The project will provide major benefits for the environment, humans, and the economy, at national and global scales.Read moreRead less
Discovery Early Career Researcher Award - Grant ID: DE160101306
Funder
Australian Research Council
Funding Amount
$373,848.00
Summary
Valuing the non-market benefits of mine site rehabilitation. This project aims to improve decisions about mine site rehabilitation. Mining causes environmental damage, which mine operators are legally required to rehabilitate. Although companies invest considerably in mine site restoration and biodiversity offsets, we don’t know whether their practices match public preferences for rehabilitation outcomes. Filling this knowledge gap is challenging because the benefits of rehabilitation (eg biodiv ....Valuing the non-market benefits of mine site rehabilitation. This project aims to improve decisions about mine site rehabilitation. Mining causes environmental damage, which mine operators are legally required to rehabilitate. Although companies invest considerably in mine site restoration and biodiversity offsets, we don’t know whether their practices match public preferences for rehabilitation outcomes. Filling this knowledge gap is challenging because the benefits of rehabilitation (eg biodiversity) are not traded in markets. This project aims to address these challenges by estimating, in monetary terms, the values provided by mine site restoration. By identifying these values, the project expects to contribute to improving the design of mine rehabilitation standards, and will enable future policy decisions to be more closely aligned with society’s preferences.Read moreRead less
Discovery Early Career Researcher Award - Grant ID: DE150100328
Funder
Australian Research Council
Funding Amount
$374,000.00
Summary
Minimising transaction costs in Murray-Darling Basin water reform. Transaction costs provide social, economic, environmental and political barriers to the effectiveness of water reallocation policy in Australia. These costs are often difficult to quantify, but potentially are subject to measurement. This project aims to develop a comprehensive transaction cost framework for the Murray-Darling Basin that can be used to capture and measure transaction costs related to water policy. Further, the sc ....Minimising transaction costs in Murray-Darling Basin water reform. Transaction costs provide social, economic, environmental and political barriers to the effectiveness of water reallocation policy in Australia. These costs are often difficult to quantify, but potentially are subject to measurement. This project aims to develop a comprehensive transaction cost framework for the Murray-Darling Basin that can be used to capture and measure transaction costs related to water policy. Further, the scope of the cost measurement will involve a variety of data collection approaches. Outcomes include better water policy and management from arrangements that will span the divide between the Basin Plan and its implementation.Read moreRead less
Discovery Early Career Researcher Award - Grant ID: DE220101129
Funder
Australian Research Council
Funding Amount
$438,479.00
Summary
Assessing the risks of extracting metals for the global energy transition. This project aims to produce the first of its kind online atlas that systematically documents the social, environmental and economic impacts in mining locations around the world. Analysing impacts at the source of metal supply chains is crucial to comprehend the implications of transitioning to metal-intensive low-carbon energy technologies. The project would deliver insights on available pathways to achieve a ‘just’ ener ....Assessing the risks of extracting metals for the global energy transition. This project aims to produce the first of its kind online atlas that systematically documents the social, environmental and economic impacts in mining locations around the world. Analysing impacts at the source of metal supply chains is crucial to comprehend the implications of transitioning to metal-intensive low-carbon energy technologies. The project would deliver insights on available pathways to achieve a ‘just’ energy transition, meaning a transition that successfully tackles climate change without placing unacceptable burden on mining communities and environments. The goal of the research is to generate evidence-based recommendations so that future metal supply can be both reliable and responsible.Read moreRead less
Discovery Early Career Researcher Award - Grant ID: DE140101624
Funder
Australian Research Council
Funding Amount
$394,870.00
Summary
Reconciling development and conservation trade-offs from global and Australian protected area expansion. Driven by recent international commitments, the following eight years are likely to see the greatest expansion of the global protected area network in history, but underlying biases in protected area location could limit the cost-efficiency and conservation value of this expansion. To increase the transparency of decisions underlying protected area expansion, this project will develop and tes ....Reconciling development and conservation trade-offs from global and Australian protected area expansion. Driven by recent international commitments, the following eight years are likely to see the greatest expansion of the global protected area network in history, but underlying biases in protected area location could limit the cost-efficiency and conservation value of this expansion. To increase the transparency of decisions underlying protected area expansion, this project will develop and test spatially-explicit scenarios of expanding human influence at the global scale and the impacts on biodiversity. This information will be then be used to determine the trade-offs and synergies between human development potential and biodiversity benefits from protected area expansion, both globally and in Australia.Read moreRead less
Discovery Early Career Researcher Award - Grant ID: DE190101167
Funder
Australian Research Council
Funding Amount
$410,000.00
Summary
The environmental costs and benefits of special economic zones. This project aims to evaluate the environmental impacts of the spatial concentration of firms. Taking advantage of increasing availability of geo-referenced economic data, the project will evaluate the environmental costs and benefits of policies to promote industrial clusters in China, India, and Colombia. The collected datasets will match trends in firm-level emissions imputed from accounting data to ambient pollution measures der ....The environmental costs and benefits of special economic zones. This project aims to evaluate the environmental impacts of the spatial concentration of firms. Taking advantage of increasing availability of geo-referenced economic data, the project will evaluate the environmental costs and benefits of policies to promote industrial clusters in China, India, and Colombia. The collected datasets will match trends in firm-level emissions imputed from accounting data to ambient pollution measures derived from ground monitors and satellites. This project will investigate the interactions between economic growth and industrial emissions, and provide recommendations based on a better understanding of whether industrial clusters mitigate or exacerbate local and global emissions from manufacturing.Read moreRead less