Counting a Sixth Mass Extinction. This project aims to investigate how values shape conservation science and policy by utilizing a feminist philosophy of science approach. This project expects to generate new biodiversity assessments by adjusting the cultural lenses through which species are counted and conservation status is assigned. Expected outcomes of this project include the creation of an interactive global biodiversity map, in which data changes when values change, which will reveal biod ....Counting a Sixth Mass Extinction. This project aims to investigate how values shape conservation science and policy by utilizing a feminist philosophy of science approach. This project expects to generate new biodiversity assessments by adjusting the cultural lenses through which species are counted and conservation status is assigned. Expected outcomes of this project include the creation of an interactive global biodiversity map, in which data changes when values change, which will reveal biodiversity trends, species, conservation risks and opportunities that currently remain outside conservation attention. This should provide significant benefits to biodiversity, by opening space for diverse values to broaden the scope of conservation science, ethics, and policy.Read moreRead less
Where's the beef? A systems model for taming a wicked environmental problem. Demand for beef is increasing dramatically, particularly in Asia. This project aims to build systems models of local environmental impacts of beef production coupled with models of global beef trade to analyse production and policy scenarios. Beef is the food commodity with the largest ecological footprint, and increased production will have globally significant impacts on land and water resources, biodiversity, and cli ....Where's the beef? A systems model for taming a wicked environmental problem. Demand for beef is increasing dramatically, particularly in Asia. This project aims to build systems models of local environmental impacts of beef production coupled with models of global beef trade to analyse production and policy scenarios. Beef is the food commodity with the largest ecological footprint, and increased production will have globally significant impacts on land and water resources, biodiversity, and climate. The scale of these impacts depends on where and how cattle production occurs. Outcomes of this research include a framework for projecting regional and global ecological impacts of domestic cattle production policies, allowing informed decisions that consider and benefit environmental and socio-economic values.Read moreRead less
Improving the potential of biodiversity offsetting to reconcile development and conservation: will good environmental outcomes counterbalance the bad? Attempts to reduce conflict between development and conservation are increasingly reliant upon environmental offsetting: generating an environmental benefit to compensate for environmental damage elsewhere. However, whether different offset approaches can achieve their goal of ‘no net loss’ of biodiversity is unknown. By building simulations of th ....Improving the potential of biodiversity offsetting to reconcile development and conservation: will good environmental outcomes counterbalance the bad? Attempts to reduce conflict between development and conservation are increasingly reliant upon environmental offsetting: generating an environmental benefit to compensate for environmental damage elsewhere. However, whether different offset approaches can achieve their goal of ‘no net loss’ of biodiversity is unknown. By building simulations of the long-term biodiversity consequences (both intended and unintended) of current offset approaches, This project aims to test how each approach and associated sources of uncertainty influence the long-term persistence of biodiversity. It will identify limitations of biodiversity offsetting, shed new light on the most effective approaches, and help develop global standards for offsetting biodiversity loss.Read moreRead less
Forecasting coral reef recovery with new data-driven dispersal models. This project aims to combine innovative mathematical methods and new genetic data to accurately predict the larval dispersal patterns of reef fish and corals. Larval dispersal is central to the ecology of coral reefs, and has vital implications for conservation. Most marine organisms spend their early life dispersing in the ocean, but our understanding of where these tiny larvae go is limited by sparse data and unvalidated mo ....Forecasting coral reef recovery with new data-driven dispersal models. This project aims to combine innovative mathematical methods and new genetic data to accurately predict the larval dispersal patterns of reef fish and corals. Larval dispersal is central to the ecology of coral reefs, and has vital implications for conservation. Most marine organisms spend their early life dispersing in the ocean, but our understanding of where these tiny larvae go is limited by sparse data and unvalidated models. Applied to extensive case-studies from Australia and across the western Pacific Ocean, these methods will be used to forecast and understand the recovery of fish and coral populations following severe disturbances. This will provide benefits such as enabling us to prioritise conservation actions in the aftermath of severe disturbances, including the catastrophic 2016 mass coral bleaching on the Great Barrier Reef.Read moreRead less
Predicting coastal ecological futures in an era of unprecedented change. This project aims to show how we can predict the future for coastal habitats, fisheries and biodiversity, and validate the reliability of those predictions. Global change means ecosystems are rapidly changing beyond the bounds of historical data, so we can no longer extrapolate past trajectories to predict the future. Reliable predictions are needed to help managers mitigate the risks of future human activities to the envir ....Predicting coastal ecological futures in an era of unprecedented change. This project aims to show how we can predict the future for coastal habitats, fisheries and biodiversity, and validate the reliability of those predictions. Global change means ecosystems are rapidly changing beyond the bounds of historical data, so we can no longer extrapolate past trajectories to predict the future. Reliable predictions are needed to help managers mitigate the risks of future human activities to the environment. Expected outcomes are improved techniques for making predictions that can inform the adaptive management of ecosystems. This is expected to benefit the management of the coastal zone, including fisheries and habitat restoration, which will contribute to enhancing Australia’s valuable ocean economy. Read moreRead less
Transcending language barriers to environmental sciences. This project aims to enhance the global flow of scientific knowledge for biodiversity conservation by tackling the impediment of language barriers. The project draws from literature reviews, modelling and global surveys to shed light on details of biodiversity science published in non-English languages, and how language impedes the use of biodiversity science in decision-making. The project will produce a database and search system for no ....Transcending language barriers to environmental sciences. This project aims to enhance the global flow of scientific knowledge for biodiversity conservation by tackling the impediment of language barriers. The project draws from literature reviews, modelling and global surveys to shed light on details of biodiversity science published in non-English languages, and how language impedes the use of biodiversity science in decision-making. The project will produce a database and search system for non-English conservation studies and recognise the importance of translations to better inform policies and practices. This will benefit national and international environmental sciences and policies by increasing knowledge available for synthesis and facilitating science-led conservation.
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Going beyond genetics: the shape of marsupial evolution and conservation. This project aims to explain the past and protect the present biodiversity of endangered marsupial mammals such as bilbies and koalas. It will generate new knowledge using an interdisciplinary combination of 3D analysis of skull shape, reflecting a mammal’s ability to feed and sense its surrounds, with the fast-moving fields of marsupial conservation and evolutionary genetics. This will help to anticipate if, and how, chan ....Going beyond genetics: the shape of marsupial evolution and conservation. This project aims to explain the past and protect the present biodiversity of endangered marsupial mammals such as bilbies and koalas. It will generate new knowledge using an interdisciplinary combination of 3D analysis of skull shape, reflecting a mammal’s ability to feed and sense its surrounds, with the fast-moving fields of marsupial conservation and evolutionary genetics. This will help to anticipate if, and how, changing environments and declining numbers reduce these species’ ability to adapt. Benefits include better information to support improved conservation decisions and identification of genes underlying the evolution of marsupial skull diversity.Read moreRead less
The adaptive evolution of key methane-utilising microorganisms. This project aims to characterise the evolutionary adaptations of a group of microorganisms with a key role in mitigating the release of methane into the atmosphere. Innovative molecular and visualisation-based approaches will be applied to uncover their metabolic diversity and evolutionary history. An important outcome of this study will be the comprehensive understanding of the contribution and impact these microorganisms have on ....The adaptive evolution of key methane-utilising microorganisms. This project aims to characterise the evolutionary adaptations of a group of microorganisms with a key role in mitigating the release of methane into the atmosphere. Innovative molecular and visualisation-based approaches will be applied to uncover their metabolic diversity and evolutionary history. An important outcome of this study will be the comprehensive understanding of the contribution and impact these microorganisms have on the global carbon cycle, which will importantly inform accurate climate change models. This has clear benefits for society, given the precision of such models is essential in our ability to minimise the impact and associated cost of global warming.Read moreRead less
Uncovering new microbial players and processes in the global methane cycle. This project aims to utilise multiple analytical strategies (including metagenomics and metatranscriptomics) to substantially expand our understanding of the key microorganisms, metabolic strategies, and interspecies relationships involved in the formation and consumption of methane. The global methane cycle is controlled by microorganisms that produce and consume this important greenhouse gas, however it is now recognis ....Uncovering new microbial players and processes in the global methane cycle. This project aims to utilise multiple analytical strategies (including metagenomics and metatranscriptomics) to substantially expand our understanding of the key microorganisms, metabolic strategies, and interspecies relationships involved in the formation and consumption of methane. The global methane cycle is controlled by microorganisms that produce and consume this important greenhouse gas, however it is now recognised that there are many as-yet undiscovered methane-metabolising microorganisms in the environment. The project will lead to a greater understanding of the contribution of these novel microorganisms to global carbon cycling and their links to climate change. This will directly benefit modelling efforts to understand future climate change scenarios.Read moreRead less
What's the catch? Social and environmental sustainability of seafood. This project aims to improve the social and environmental sustainability of wild caught seafood globally. This project expects to generate new knowledge in the area of seafood trade and sustainability using interdisciplinary approaches that account for social sustainability concepts and the displacement of fishing impacts. Expected outcomes include innovative approaches that can improve the traceability and sustainability of s ....What's the catch? Social and environmental sustainability of seafood. This project aims to improve the social and environmental sustainability of wild caught seafood globally. This project expects to generate new knowledge in the area of seafood trade and sustainability using interdisciplinary approaches that account for social sustainability concepts and the displacement of fishing impacts. Expected outcomes include innovative approaches that can improve the traceability and sustainability of seafood and new international collaborations. This should provide significant benefits to the ocean, by proposing innovative ways for protecting the ocean through improving the sustainability of trade policies, and to the billions of people that depend on a healthy ocean for their health and livelihood. Read moreRead less