Impacts of global environmental change on biodiversity of tropical savannas. This project aims to predict the biodiversity consequences of a global trend of increasing woody cover in tropical savannas. Believed to be driven by a combination of elevated atmospheric CO2 concentration, climate change and management actions including fire suppression and cattle grazing. Expected outcomes are the integration of a range of modelling approaches to predict long-term impacts of environmental change on sa ....Impacts of global environmental change on biodiversity of tropical savannas. This project aims to predict the biodiversity consequences of a global trend of increasing woody cover in tropical savannas. Believed to be driven by a combination of elevated atmospheric CO2 concentration, climate change and management actions including fire suppression and cattle grazing. Expected outcomes are the integration of a range of modelling approaches to predict long-term impacts of environmental change on savanna biodiversity and the identification of land-use and management strategies to best mitigate these impacts. Likely benefits are an improved understanding of trade-offs between alternative land-uses in the savannas, including biodiversity conservation, fire management for carbon credits, and cattle grazing.Read moreRead less
Phyloinformatics and biodiversity: developing bioinformatic tools for understanding the dynamics of extinction and invasion within species assemblages. DNA sequence data provides an exciting new way to study biodiversity, because the genome of each organism records its evolutionary history. By analysing DNA sequences co-existing species, we can reconstruct the ecological and evolutionary history of a biological community. This allows us to track biodiversity changes over time, and examine how th ....Phyloinformatics and biodiversity: developing bioinformatic tools for understanding the dynamics of extinction and invasion within species assemblages. DNA sequence data provides an exciting new way to study biodiversity, because the genome of each organism records its evolutionary history. By analysing DNA sequences co-existing species, we can reconstruct the ecological and evolutionary history of a biological community. This allows us to track biodiversity changes over time, and examine how the state of a species assemblage determines which species are lost through extinction or gained through the invasion of exotic species. Understanding the factors that govern changes in biodiversity over time is essential for planning for future conservation in the face of a rapidly changing environment. Read moreRead less
Understanding responses to climate change: a mechanistic approach integrating functional genetics, physiology and biophysical models for the Common brown butterfly. We will dissect the interaction between an Australian butterfly and changing climate. This will make significant contributions to the national research priorities Responding to climate change and variability and Sustainable use of Australia's biodiversity. We will address the known deficits in standard approaches to predicting futu ....Understanding responses to climate change: a mechanistic approach integrating functional genetics, physiology and biophysical models for the Common brown butterfly. We will dissect the interaction between an Australian butterfly and changing climate. This will make significant contributions to the national research priorities Responding to climate change and variability and Sustainable use of Australia's biodiversity. We will address the known deficits in standard approaches to predicting futures for biota. We will provide an Australian species in which the mechanisms of response to climate change are understood in detail. Our outputs will be directly applicable to other butterflies: 19 threatened taxa in Australia. The novelty of our approach will be of marked international interest, and will train Australian researchers in a new way of predicting biological impacts of climate change.Read moreRead less
Australian Laureate Fellowships - Grant ID: FL160100101
Funder
Australian Research Council
Funding Amount
$2,864,368.00
Summary
Disaggregating and modelling the impacts of land-use change on biodiversity. Disaggregating and modelling the impacts of land-use change on biodiversity. This project aims to systematically analyse contemporary and historical data on agriculture, energy use and urbanisation, to identify the consumption and technology pathways that can most effectively mitigate the future extent and impact of land-use change. This synthesis is expected to develop new forecasting and optimisation tools using an in ....Disaggregating and modelling the impacts of land-use change on biodiversity. Disaggregating and modelling the impacts of land-use change on biodiversity. This project aims to systematically analyse contemporary and historical data on agriculture, energy use and urbanisation, to identify the consumption and technology pathways that can most effectively mitigate the future extent and impact of land-use change. This synthesis is expected to develop new forecasting and optimisation tools using an innovative hierarchical meta-modelling approach. A key outcome would be to resolve inherent global and national trade-offs between ongoing human development and the competing need to conserve habitats, ecosystems, and species.Read moreRead less
Identifying regions of high drought mortality risk for tree species in NSW. Trees define our landscapes and are crucial for ecosystem services including biodiversity, carbon sequestration and prevention of soil erosion. Drought is a major threat to tree survival across Australia and is being exacerbated by rising temperatures and changing rainfall patterns due to climate change. This project aims to calculate the risk of drought mortality for key tree species across New South Wales in current an ....Identifying regions of high drought mortality risk for tree species in NSW. Trees define our landscapes and are crucial for ecosystem services including biodiversity, carbon sequestration and prevention of soil erosion. Drought is a major threat to tree survival across Australia and is being exacerbated by rising temperatures and changing rainfall patterns due to climate change. This project aims to calculate the risk of drought mortality for key tree species across New South Wales in current and future climates. It aims to integrate four independent, complementary research streams to develop robust probabilistic risk profiles that account for variation in drought intensity and species resilience over landscapes. These risk profiles will be fundamental to conservation planning and land management across New South Wales.Read moreRead less
Reconstructing mechanisms of range contraction to avert species extinctions. This project aims to integrate biotic information from fossils and ancient DNA of vertebrates into computational models to establish ecological processes that drive the structure and dynamics of geographical ranges and regulate the severity of species extinction rates from global change. This approach is likely to improve theory on dynamic species borders and expected outcomes include providing a framework for better al ....Reconstructing mechanisms of range contraction to avert species extinctions. This project aims to integrate biotic information from fossils and ancient DNA of vertebrates into computational models to establish ecological processes that drive the structure and dynamics of geographical ranges and regulate the severity of species extinction rates from global change. This approach is likely to improve theory on dynamic species borders and expected outcomes include providing a framework for better allocating resources for endangered species in Australia and beyond. This will have significant benefits, such as providing the first mechanistic explanations for the principal drivers of mega-fauna extinctions during the late Pleistocene and Holocene.Read moreRead less
Comparative studies of invasive plants: a leaf carbon strategy approach. Invasion of communities by exotic plants is a significant threat to biodiversity globally. This proposal is to strengthen collaborative links between the Plant Invasion Research Laboratories of Leishman in Australia and Richardson in South Africa. Their current research seeks to understand strategies of invasive plants in novel environments using the framework of leaf carbon strategies. Australian plants invasive in South A ....Comparative studies of invasive plants: a leaf carbon strategy approach. Invasion of communities by exotic plants is a significant threat to biodiversity globally. This proposal is to strengthen collaborative links between the Plant Invasion Research Laboratories of Leishman in Australia and Richardson in South Africa. Their current research seeks to understand strategies of invasive plants in novel environments using the framework of leaf carbon strategies. Australian plants invasive in South Africa and South African plants invasive in Australia provide an ideal model system. This collaborative research will enable better prediction of potential invaders, as well as providing important input for models of plant, ecosystem and biosphere responses to global change incorporating invasion dynamics.Read moreRead less
Averting the extinction of experience. Humans are an increasingly urban species, with most of us now living in towns and cities separated from direct experiences of the natural world. This project aims to understand and avert this 'extinction of experience' so that we can grow Australia's cities sustainably into the future.
Prioritising habitat restoration for biodiversity and ecosystem service outcomes. An emerging carbon market will provide funds for habitat restoration over the coming decades, but this will only be realised through careful prioritisation and planning. This research will prioritise investments in habitat restoration in order to cost-effectively achieve biodiversity conservation and ecosystem service protection goals.
Practical utility of new classes of species distribution models. This project aims to improve species distribution modelling practice by developing new tools and determining the net value of competing approaches under realistic data-availability scenarios and for real applications. Expected outcomes are clear protocols for using process-based distribution models in biodiversity management. This will have significant benefits, such as equipping researchers, governments and land managers with tool ....Practical utility of new classes of species distribution models. This project aims to improve species distribution modelling practice by developing new tools and determining the net value of competing approaches under realistic data-availability scenarios and for real applications. Expected outcomes are clear protocols for using process-based distribution models in biodiversity management. This will have significant benefits, such as equipping researchers, governments and land managers with tools and guidance necessary for better prediction of distributions, enabling them to efficiently allocate public resources while also protecting biodiversity and natural assets.Read moreRead less