Disperse or die: the evolution of dispersal ability in a changing climate. Whether or not climate change will affect a species depends upon the ability of ecological communities to track climate change. Species that rapidly shift their range in response to climate change will not be unduly affected, whereas species that are stuck in one place are at extreme risk from a changing climate (they must either adapt, or perish). We need, therefore, a firm understanding of how, and how rapidly, specie ....Disperse or die: the evolution of dispersal ability in a changing climate. Whether or not climate change will affect a species depends upon the ability of ecological communities to track climate change. Species that rapidly shift their range in response to climate change will not be unduly affected, whereas species that are stuck in one place are at extreme risk from a changing climate (they must either adapt, or perish). We need, therefore, a firm understanding of how, and how rapidly, species shift their range. This project will develop a universal framework within which to model species' responses to climate change. As such, the project will contribute greatly to how we plan for, and manage, the effects of climate change.Read moreRead less
Invasive plant species and climate change in Australia: predicting the threat and projecting the future. The interaction between climate change and invasive pest species poses a significant threat to Australia's biodiversity. The need for research on both the independent impacts of climate change and invasive species, as well as their interaction, has been clearly identified by both national and state governments, and is identified as a priority under the National Biodiversity and Climate Change ....Invasive plant species and climate change in Australia: predicting the threat and projecting the future. The interaction between climate change and invasive pest species poses a significant threat to Australia's biodiversity. The need for research on both the independent impacts of climate change and invasive species, as well as their interaction, has been clearly identified by both national and state governments, and is identified as a priority under the National Biodiversity and Climate Change Action Plan (2004-2007). The proposed research will assess exotic plant species' responses to climate change, identify potential hotspots of invasion, and provide a risk assessment framework to enable prioritization of exotic plant management under future climate.Read moreRead less
Advances in Phylogenetic Comparative Methods. An understanding of our biota is impossible without understanding evolution, and developing ways to study it. The outcomes will be useful for biologists conducting theoretically important projects: understanding how and why species have evolved to be the way they are. In addition, the research will be of use to biologists studying more applied questions, such as how to predict whether certain species are likely to become endangered, go extinct, or wh ....Advances in Phylogenetic Comparative Methods. An understanding of our biota is impossible without understanding evolution, and developing ways to study it. The outcomes will be useful for biologists conducting theoretically important projects: understanding how and why species have evolved to be the way they are. In addition, the research will be of use to biologists studying more applied questions, such as how to predict whether certain species are likely to become endangered, go extinct, or whether certain species are likely to become invasive and feral. This research will maintain Australia as a leader in evolutionary biology by cementing strong collaborations with world-leading biologists and statisticians. Read moreRead less
Exploring evolvability: its causes, consequences and practical applications in a changing environment. Are some species better able to adapt to a changing world? This question has been the focus of theoretical debate, but, as the scale of current environmental change becomes apparent, it has increasing practical importance, because it concerns the ability of biological communities to respond to climate change and the potential for agriculture to adapt a changing landscape. This project is the fi ....Exploring evolvability: its causes, consequences and practical applications in a changing environment. Are some species better able to adapt to a changing world? This question has been the focus of theoretical debate, but, as the scale of current environmental change becomes apparent, it has increasing practical importance, because it concerns the ability of biological communities to respond to climate change and the potential for agriculture to adapt a changing landscape. This project is the first of its kind, because it translates theoretical concepts into practical information needed for the development of salt-tolerant crops, new strategies for avoiding the growing problem of resistance in parasites, and new ways of detecting biological communities at risk of extinction and invasion. Read moreRead less
Can coastal floodplains of north Australia survive ferals and rising seas? Tropical Coastal Floodplains are an iconic feature of northern Australia; however, they are experiencing widespread degradation due to complex interactions between feral ungulates and relative sea level rise. Using cross-cultural multidisciplinary methods, this project will discover if feral ungulate control by the Aboriginal Yirralka Rangers will reduce vegetation decline and erosion and enhance floodplain resilience to ....Can coastal floodplains of north Australia survive ferals and rising seas? Tropical Coastal Floodplains are an iconic feature of northern Australia; however, they are experiencing widespread degradation due to complex interactions between feral ungulates and relative sea level rise. Using cross-cultural multidisciplinary methods, this project will discover if feral ungulate control by the Aboriginal Yirralka Rangers will reduce vegetation decline and erosion and enhance floodplain resilience to sea level rise. This project will provide significant new data to inform feral ungulate management strategies as well as coastal carbon models as these processes are likely to create a carbon source rather than sink. Our collaborative science will have local to national benefits for natural and cultural resource management.Read moreRead less
Population genetic structure and habitat specialisation in amphibians. This will be the first study to uncover the initial stages of ecological speciation in a fully natural setting, which will solidify Australia's leading position in evolutionary biology. The project promotes active international collaboration and bolsters the vibrant intellectual community here at home. Many Australian undergraduate and PhD students will participate in cutting-edge science and develop connections with overseas ....Population genetic structure and habitat specialisation in amphibians. This will be the first study to uncover the initial stages of ecological speciation in a fully natural setting, which will solidify Australia's leading position in evolutionary biology. The project promotes active international collaboration and bolsters the vibrant intellectual community here at home. Many Australian undergraduate and PhD students will participate in cutting-edge science and develop connections with overseas colleagues, helping Australia maintain its prominent international reputation in the future. The work also advances knowledge and appreciation of the natural world - a more urgent objective now than ever before. Ecological information is especially critical for amphibians, many of which are declining in Australia.Read moreRead less
Inbreeding and Amphibian Decline: from an Individual to a Global Perspective. Amphibian decline is not a phenomenon unique to overseas continents and countries. In the long line of research papers addressing this issue in the best science journals (e.g., Nature and Science), Australian frog decline has even been singled out for specific coverage. This project targets the interplay between habitat fragmentation, loss of genetic variation (inbreeding), and its effects on UV and pathogen resistance ....Inbreeding and Amphibian Decline: from an Individual to a Global Perspective. Amphibian decline is not a phenomenon unique to overseas continents and countries. In the long line of research papers addressing this issue in the best science journals (e.g., Nature and Science), Australian frog decline has even been singled out for specific coverage. This project targets the interplay between habitat fragmentation, loss of genetic variation (inbreeding), and its effects on UV and pathogen resistance in a laboratory model system. It integrates three disciplines (immunobiology, evolutionary genetics, and conservation biology) to resolve fundamental aspects of the drastic, ongoing disappearance of the most significant ecological indicator taxa known today (amphibians). Read moreRead less
Diversity out of a hybrid zone: the interplay of reinforcement and sexual selection in the formation of new species. How are there so many different species? Understanding how new species arise is a fundamental question because it explains current biodiversity and reveals the processes that will continue to give rise to new species in the future. An integral part of any animal species is who they choose to mate with, but how mate choice evolves to create new species remains poorly understood. He ....Diversity out of a hybrid zone: the interplay of reinforcement and sexual selection in the formation of new species. How are there so many different species? Understanding how new species arise is a fundamental question because it explains current biodiversity and reveals the processes that will continue to give rise to new species in the future. An integral part of any animal species is who they choose to mate with, but how mate choice evolves to create new species remains poorly understood. Here I will be studying the processes that affect the evolution of mate choice in an Australian rainforest frog hybrid zone. This system is uniquely suitable for providing internationally important insights into the evolutionary processes that form new species.Read moreRead less
Forest ecosystem water use: Does species diversity matter? Forest water use and susceptibility to drought are major concerns for forest plantation establishment in Australia. This research will provide fundamental information about how plantation water use and drought tolerance are modified by species diversity. This work has the potential to transform tree plantation establishment practices toward inclusion of greater species diversity or toward species with particular complementary traits. It ....Forest ecosystem water use: Does species diversity matter? Forest water use and susceptibility to drought are major concerns for forest plantation establishment in Australia. This research will provide fundamental information about how plantation water use and drought tolerance are modified by species diversity. This work has the potential to transform tree plantation establishment practices toward inclusion of greater species diversity or toward species with particular complementary traits. It has significant potential to enhance benefits from reforestation projects, including better drought survival, reduced water use, soil bioremediation and enhanced biodiversity. Read moreRead less
Discovery Early Career Researcher Award - Grant ID: DE120101890
Funder
Australian Research Council
Funding Amount
$375,000.00
Summary
Purification of contaminated wastewaters by modified Bayer layered double hydroxides. This project intends to develop enhanced adsorbent materials, prepared from industrial wastewater and seawater, for the decontamination of environments affected by Australian industries. This inexpensive novel material will be applicable to a wide range of purification applications and will reduce the environmental impact of Australian industries.