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Evolution, adaptation and resilience of Australian freshwater fishes. This project will integrate comparative ecological genomics (in the wild and in the lab), phenotypic data and spatially-explicit modelling approaches to assess adaptation and vulnerability of aquatic biodiversity to environmental change. It focuses on a family of Australian freshwater fishes that evolved in response to hydrological disturbance and shows contemporary patterns of biodiversity shaped by hydroclimatic variation an ....Evolution, adaptation and resilience of Australian freshwater fishes. This project will integrate comparative ecological genomics (in the wild and in the lab), phenotypic data and spatially-explicit modelling approaches to assess adaptation and vulnerability of aquatic biodiversity to environmental change. It focuses on a family of Australian freshwater fishes that evolved in response to hydrological disturbance and shows contemporary patterns of biodiversity shaped by hydroclimatic variation and anthropogenic pressures. The project expects to disclose a positive correlation between family-wide adaptive capacity and variance in ecological disturbance. This work will address fundamental and novel questions about factors shaping adaptation and resilience along naturally and anthropogenically disturbed ecosystems.Read moreRead less
Understanding marine life-history patterns: an eco-energetics approach. This project aims to determine how temperature affects the energetics of development in marine invertebrates and explain why global distributions of marine organisms show the patterns they do. This project will provide new insights into whether Australia's temperate marine fauna are uniquely vulnerable to future change. Leveraging a new framework, eco-energetics, the project will determine the relative performance of differe ....Understanding marine life-history patterns: an eco-energetics approach. This project aims to determine how temperature affects the energetics of development in marine invertebrates and explain why global distributions of marine organisms show the patterns they do. This project will provide new insights into whether Australia's temperate marine fauna are uniquely vulnerable to future change. Leveraging a new framework, eco-energetics, the project will determine the relative performance of different larval types across every stage of the life history. The project will provide significant benefits such as a new powerful and comprehensive framework for understanding current and predicting future patterns in marine life, providing inferences that extend beyond the species studied in this project.Read moreRead less
Who's calling? Understanding and exploiting signalling system ecology to improve success in trapping cane toads. This project has five major national and community benefits for Australia. It will: 1. provide a much-needed control option for a major pest, 2. actually remove many toads during the course of the study, through trapping at various locations around Australia, 3. support an Australian small business by providing research outcomes that will enable it to develop and market a highly desi ....Who's calling? Understanding and exploiting signalling system ecology to improve success in trapping cane toads. This project has five major national and community benefits for Australia. It will: 1. provide a much-needed control option for a major pest, 2. actually remove many toads during the course of the study, through trapping at various locations around Australia, 3. support an Australian small business by providing research outcomes that will enable it to develop and market a highly desired product, and 4. provide high level, postgraduate training in science. This project directly addresses the National Research Priority goal safeguarding Australia, protecting Australia from invasive … pests, because it will generate new technologies useful for controlling an invasive species.Read moreRead less
Discovery Early Career Researcher Award - Grant ID: DE170100516
Funder
Australian Research Council
Funding Amount
$372,000.00
Summary
Biodiversity, biogeography and molecular evolution on tropical reefs. This project aims to discover how evolutionary processes, biogeography and molecular change drive biodiversity patterns. Coral reefs support over 800,000 plant and animal species on <0.1% of the ocean. This project will examine how this biodiversity was formed by generating genomic data for reef building corals and reef associated fishes to reconstruct their evolutionary history. It will compare models of speciation, extinctio ....Biodiversity, biogeography and molecular evolution on tropical reefs. This project aims to discover how evolutionary processes, biogeography and molecular change drive biodiversity patterns. Coral reefs support over 800,000 plant and animal species on <0.1% of the ocean. This project will examine how this biodiversity was formed by generating genomic data for reef building corals and reef associated fishes to reconstruct their evolutionary history. It will compare models of speciation, extinction and range change among regions to determine how those processes contribute to the formation of biodiversity gradients and regional assemblage differences. The project expects that better understanding of evolutionary dynamics will inform conservation priorities.Read moreRead less
Characterising rates of molecular evolution across the Tree of Life. This project aims to characterise the variation in molecular evolutionary rates across the Tree of Life. Despite advances in genetic methods and genomic data, a critical gap remains in knowledge of evolutionary rates across species. The project will evaluate and refine methods for estimating rates, develop genomic data for molecular clocks, create an online database of rate estimates, and reconstruct ecological communities’ res ....Characterising rates of molecular evolution across the Tree of Life. This project aims to characterise the variation in molecular evolutionary rates across the Tree of Life. Despite advances in genetic methods and genomic data, a critical gap remains in knowledge of evolutionary rates across species. The project will evaluate and refine methods for estimating rates, develop genomic data for molecular clocks, create an online database of rate estimates, and reconstruct ecological communities’ responses to past environmental and climatic factors. The project’s database of evolutionary rates in different species is expected to increase understanding of evolutionary and demographic events across species, including the Australian biota, and improve conservation efforts.Read moreRead less
Linkage Infrastructure, Equipment And Facilities - Grant ID: LE130100065
Funder
Australian Research Council
Funding Amount
$370,000.00
Summary
Next generation enhancement of the South Australian regional facility for molecular ecology and evolution. The new equipment will enhance opportunities for innovative research in basic biology, archaeological, agricultural, biomedical, forensic and environmental sciences. This research is critical for monitoring the nature and extent of environmental change and developing strategies to promote adaptation by species to future climate change.
Developing best-practice approaches for restoring forest ecosystems that are resilient to climate change. Existing restoration practices for forests tend to rely on ad hoc rules of thumb that lack a firm scientific basis and risk failure due to climate change. The project will model biodiversity, genetic and growth performance data to develop best-practice restoration guidelines for forest ecosystems to enable them to become resilient to climate change and maximise biodiversity and carbon captur ....Developing best-practice approaches for restoring forest ecosystems that are resilient to climate change. Existing restoration practices for forests tend to rely on ad hoc rules of thumb that lack a firm scientific basis and risk failure due to climate change. The project will model biodiversity, genetic and growth performance data to develop best-practice restoration guidelines for forest ecosystems to enable them to become resilient to climate change and maximise biodiversity and carbon capture outcomes.Read moreRead less
The genomic history of Indigenous Australia. The aim of the project is to analyse genomic DNA from historic hair samples collected by anthropological expeditions in the early 20th century to generate a detailed genetic map of Aboriginal Australia and to reconstruct Australia’s pre-European genetic history. The genomic data and detailed contextual and genealogical information from museum archives will be used to work with Aboriginal individuals to trace past population movements and augment oral ....The genomic history of Indigenous Australia. The aim of the project is to analyse genomic DNA from historic hair samples collected by anthropological expeditions in the early 20th century to generate a detailed genetic map of Aboriginal Australia and to reconstruct Australia’s pre-European genetic history. The genomic data and detailed contextual and genealogical information from museum archives will be used to work with Aboriginal individuals to trace past population movements and augment oral historical records. The project aims to reconstruct the first detailed genomic history of indigenous Australia, including adaptation to the challenging Australian environment, and to generate important information for indigenous communities and the Australian public more widely.Read moreRead less
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