Animal social behaviour and emerging infectious fungal diseases in nature. This project aims to improve knowledge about the central role that animal social behaviour plays in the spread of emerging infectious fungal diseases in nature. Applying approaches from behavioural ecology, network modelling and quantitative genetics, and utilising rare empirical pre- and post-infection data, the project expects to generate new understandings about how fungal diseases spread through animal populations, ho ....Animal social behaviour and emerging infectious fungal diseases in nature. This project aims to improve knowledge about the central role that animal social behaviour plays in the spread of emerging infectious fungal diseases in nature. Applying approaches from behavioural ecology, network modelling and quantitative genetics, and utilising rare empirical pre- and post-infection data, the project expects to generate new understandings about how fungal diseases spread through animal populations, how animal social behaviour influences disease transmission, and how disease-status affects animal social behaviour. This project should have international impact, and advance current knowledge about disease dynamics. Applied outcomes should inform much-needed control strategies to benefit wildlife and preserve biodiversity. Read moreRead less
The role of mothers in the evolution of immunity. This project will take a fresh approach to studying disease by addressing the role that mothers play in immune system evolution. This project will make a significant contribution to our nation's research capacity and international scientific reputation, by delivering cutting-edge scientific results that resolve outstanding questions in evolutionary biology.
Tracking moving targets: dynamic foraging in ants and slime moulds. This project will investigate how two self-organised systems, ants and slime moulds, deal with dynamic problems. Understanding how both organisms adapt to changes in their foraging environment will increase our knowledge of how self-organised systems function in both biological contexts and in human designed systems.
Not lost in translation: how to get information from other species' calls? Information reduces life's uncertainties, and so underlies adaptive decisions in a changing world. However, the importance of information gained from other species is largely overlooked, despite the flow of information, just like resources, affecting individual fitness and population viability. This project aims to use a novel integration of visual and acoustic ecology to test how animals gain reliable information about p ....Not lost in translation: how to get information from other species' calls? Information reduces life's uncertainties, and so underlies adaptive decisions in a changing world. However, the importance of information gained from other species is largely overlooked, despite the flow of information, just like resources, affecting individual fitness and population viability. This project aims to use a novel integration of visual and acoustic ecology to test how animals gain reliable information about predators by eavesdropping on the alarm calls of other species. Thus, the project focuses on alarm calls because information about danger is critical to animal survival. The outcomes of the project could help us to understand how natural information webs form and function, and so refine predictions about the impact of environmental change on animal communities.Read moreRead less
Endocrine disruption in wildlife: a sexual selection perspective . The Project aims to uncover how environmental pollution by hormone-mimicking chemicals affects wildlife behaviour, reproductive performance, and offspring viability. Through an integrative approach that combines multigenerational laboratory studies with an experimental evolution perspective, the Project expects to yield important insights into the pervasive influence of chemical contaminants on biological systems, and the capacit ....Endocrine disruption in wildlife: a sexual selection perspective . The Project aims to uncover how environmental pollution by hormone-mimicking chemicals affects wildlife behaviour, reproductive performance, and offspring viability. Through an integrative approach that combines multigenerational laboratory studies with an experimental evolution perspective, the Project expects to yield important insights into the pervasive influence of chemical contaminants on biological systems, and the capacity for animals to adapt to environments degraded by human activity. Findings will enable predictions of the ecological and evolutionary consequences of anthropogenic change, and contribute new knowledge relevant to the management of Australia’s biodiversity and the security of its sensitive freshwater resources.Read moreRead less
Ejaculate-mediated paternal effects on offspring fitness. This project aims to unravel the evolutionary importance of ejaculate-mediated paternal effects, through which paternal lifestyle factors, such as diet and exposure to toxicants, influence offspring growth and health independently of genes. By identifying the molecular mechanisms underlying these non-genetic sources of inheritance, their adaptive value, and their potential to fuel evolutionary change, the project expects to generate new k ....Ejaculate-mediated paternal effects on offspring fitness. This project aims to unravel the evolutionary importance of ejaculate-mediated paternal effects, through which paternal lifestyle factors, such as diet and exposure to toxicants, influence offspring growth and health independently of genes. By identifying the molecular mechanisms underlying these non-genetic sources of inheritance, their adaptive value, and their potential to fuel evolutionary change, the project expects to generate new knowledge that will be relevant across the biological, medical and agricultural sectors. Expected outcomes and benefits include building institutional and interdisciplinary collaborations and the development of tools to understand the evolutionary impacts of paternal lifestyle choices for offspring traits.Read moreRead less
Gender bender': the impact of endocrine disrupting pollutants on sexual selection. Research into the impacts of pollution on animal reproductive behaviour is crucial if we are to understand species' capacity to adapt to rapidly changing environments, particularly to those that are subject to the impact of human activity. The outcomes of this study will be an important step in learning how to improve the management of biodiversity.
How drugs in the wild affect animal behaviour, ecosystems, and evolution. This Project aims to track – with fish species and across different modes, scales, and levels of complexity from controlled laboratory experimentation to studies in the wild – how drugs in the environment affect wildlife behaviour and survival, and therefore also the ecological communities they inhabit. Contamination of aquatic habitats by pharmaceuticals poses a serious threat to wildlife and to human health. Expected out ....How drugs in the wild affect animal behaviour, ecosystems, and evolution. This Project aims to track – with fish species and across different modes, scales, and levels of complexity from controlled laboratory experimentation to studies in the wild – how drugs in the environment affect wildlife behaviour and survival, and therefore also the ecological communities they inhabit. Contamination of aquatic habitats by pharmaceuticals poses a serious threat to wildlife and to human health. Expected outcomes include new mechanistic understandings and predictive capability for real world application. Findings should add significantly to our knowledge of how wildlife respond to environmental change, and enhance the evidence base for management and security of Australia’s biodiversity and freshwater resources.Read moreRead less
Wildlife responses to endocrine disruptors. This project aims to uncover how a ubiquitous agricultural endocrine disruptor affects development, survival and reproduction in frogs. Widespread pollution by endocrine disrupting chemicals poses a serious threat to wildlife, human health, and the environment. This project will integrate laboratory- and field-based experiments to provide insights into how aquatic contamination by endocrine disruptors can affect vulnerable early life stages and, in tur ....Wildlife responses to endocrine disruptors. This project aims to uncover how a ubiquitous agricultural endocrine disruptor affects development, survival and reproduction in frogs. Widespread pollution by endocrine disrupting chemicals poses a serious threat to wildlife, human health, and the environment. This project will integrate laboratory- and field-based experiments to provide insights into how aquatic contamination by endocrine disruptors can affect vulnerable early life stages and, in turn, adult performance and reproduction. The findings will add significantly to understanding the impact of chemical pollution on wildlife responses to human altered environments.Read moreRead less
Behaviour and evolutionary responses to pharmaceutical pollution. This project aims to uncover how a ubiquitous pharmaceutical pollutant – fluoxetine, known as Prozac – alters the course of reproduction and sexual selection in a freshwater fish. Drugs used in human and veterinary medicine enter the environment and pose a serious threat to wildlife. The project plans to integrate morphological, behavioural, and experimental evolution approaches to yield insights into how fluoxetine affects sexual ....Behaviour and evolutionary responses to pharmaceutical pollution. This project aims to uncover how a ubiquitous pharmaceutical pollutant – fluoxetine, known as Prozac – alters the course of reproduction and sexual selection in a freshwater fish. Drugs used in human and veterinary medicine enter the environment and pose a serious threat to wildlife. The project plans to integrate morphological, behavioural, and experimental evolution approaches to yield insights into how fluoxetine affects sexual traits and behaviours, and how this in turn can affect offspring viability and the evolutionary process. Findings are expected to add to our understanding of how species respond to rapidly changing environments, with consequences for the persistence of populations and the survival of species in the wild.Read moreRead less