Peripheral isolates as hotbeds of adaptive diversity. This project uses cutting edge molecular technology and spatial analyses to predict the location of diversity relevant to managing the impact of climate change. Knowledge generated in this project will open the door to the informed use of genetic translocation in efforts to kerb expected biodiversity losses.
Using genetics to reconstruct the peopling and diversification of Sahul. A recent landmark study has revealed that people who first arrived on Sahul (the landmass connecting Australia with New Guinea) remained largely genetically isolated from subsequent migrations. However, there is still little known about the route(s) taken into Sahul, or how adaptation has shaped the enormous diversity now observed across Indigenous Australians and Papuans. This project aims to look at these issues by applyi ....Using genetics to reconstruct the peopling and diversification of Sahul. A recent landmark study has revealed that people who first arrived on Sahul (the landmass connecting Australia with New Guinea) remained largely genetically isolated from subsequent migrations. However, there is still little known about the route(s) taken into Sahul, or how adaptation has shaped the enormous diversity now observed across Indigenous Australians and Papuans. This project aims to look at these issues by applying phylogenetic and population genetic tools to the largest genetic dataset yet analysed from populations across Australia, New Guinea, and Island South East Asia. The outcomes of the project should reveal both the route(s) taken into Sahul and how adaptation has shaped the diversity now observed in descendants of the colonisation.Read moreRead less
Discovery Early Career Researcher Award - Grant ID: DE140101675
Funder
Australian Research Council
Funding Amount
$395,220.00
Summary
Integrating Evolutionary History into Ecological Modeling. Ecological niche models are used across evolution, ecology and conservation to estimate species' environmental tolerances. However, these methods suffer from a near-universal assumption that may be flawed; that the species is the appropriate evolutionary grouping for study. This project will develop methods for using evolutionary information to improve estimates of species' environmental tolerances, and will demonstrate those methods in ....Integrating Evolutionary History into Ecological Modeling. Ecological niche models are used across evolution, ecology and conservation to estimate species' environmental tolerances. However, these methods suffer from a near-universal assumption that may be flawed; that the species is the appropriate evolutionary grouping for study. This project will develop methods for using evolutionary information to improve estimates of species' environmental tolerances, and will demonstrate those methods in simulation and empirical studies. This will significantly improve our understanding of evolutionary ecology and will also result in improved conservation outcomes, addressing the national priority of an environmentally sustainable Australia and the goal of responding to environmental change and variability.Read moreRead less
Reconstructing the impact of climate change on Australian native species. This project will explore the impact of past climate change on Australian native animals to identify species and ecosystems at greatest potential risk, and to help predict and minimise the effects of future change.
Discovery Early Career Researcher Award - Grant ID: DE140101715
Funder
Australian Research Council
Funding Amount
$395,220.00
Summary
Volcanoes as safe-havens for Antarctic species during ice ages. Understanding how plants and animals responded to past changes in climate can help us to predict what might happen in the future, yet there are key gaps in our knowledge of past processes. Genetic evidence shows that many Antarctic species have been isolated on the continent for millions of years, but during the last Ice Age, Antarctica was blanketed in glaciers. How could species have survived such extreme conditions and how did th ....Volcanoes as safe-havens for Antarctic species during ice ages. Understanding how plants and animals responded to past changes in climate can help us to predict what might happen in the future, yet there are key gaps in our knowledge of past processes. Genetic evidence shows that many Antarctic species have been isolated on the continent for millions of years, but during the last Ice Age, Antarctica was blanketed in glaciers. How could species have survived such extreme conditions and how did they respond to past global warming? This project will analyse genetic diversity patterns to test whether Antarctic species survived ice ages on ice-free land near volcanoes and, capitalising on the unique setting of Antarctica, will give insights into the role of volcanoes in promoting biodiversity in cold regions.Read moreRead less