Testing evolutionary predictions about multiple unrelated traits under changed environmental conditions using visual ecology. An understanding of evolution is vital in managing the effects of environmental change. Senses determine success in survival/reproduction and environmental change affects what is sensed. This project will make and test explicit predictions about evolution under changed conditions using visual physiology, environmental parameters and evolution experiments.
Discovery Early Career Researcher Award - Grant ID: DE170101193
Funder
Australian Research Council
Funding Amount
$372,000.00
Summary
Testing models for sex evolution and maintenance. This project aims to study the evolution of sex. The short-term costs of sexual reproduction seem to outweigh its benefits, making its widespread success an evolutionary conundrum. The project will test high-profile models which predict higher rates of sex in individuals poorly adapted to their environment than in well adapted individuals. This process allows sex genes to escape from unfavourable genetic backgrounds and hastens local adaptation o ....Testing models for sex evolution and maintenance. This project aims to study the evolution of sex. The short-term costs of sexual reproduction seem to outweigh its benefits, making its widespread success an evolutionary conundrum. The project will test high-profile models which predict higher rates of sex in individuals poorly adapted to their environment than in well adapted individuals. This process allows sex genes to escape from unfavourable genetic backgrounds and hastens local adaptation of populations to their environment. This work is expected to discover the link between reproductive mode and adaptation, strengthen research into consequences of environmental change, and solve a long-standing puzzle of evolutionary biology.Read moreRead less
Experimental evolution of trait interactions under changed environments. This project aims to use altered light in laboratory and wild guppy populations to test directly the following questions: which traits evolve quickly or slowly and how does this depend upon their functional interactions, and how often do different solutions to the same environmental challenges evolve? The evolutionary effects of environmental change on gene regulation and functional interactions among traits are virtually u ....Experimental evolution of trait interactions under changed environments. This project aims to use altered light in laboratory and wild guppy populations to test directly the following questions: which traits evolve quickly or slowly and how does this depend upon their functional interactions, and how often do different solutions to the same environmental challenges evolve? The evolutionary effects of environmental change on gene regulation and functional interactions among traits are virtually unknown. Using evolution experiments, this project aims to explore traits with known functional links: opsin gene regulation patterns (for colour vision), colouration, and colour-based choice. It is expected that vegetation changes cause immediate environment changes, directly affecting animals’ abilities to choose mates, forage, and avoid predation.Read moreRead less
The dark side of light: species and community impacts of night lighting. The presence of artificial light at night (LAN) is one of the most profound recent changes in urban ecosystems. Correlated with increases in LAN are declines in the survival and fitness of species living in urban environments. This project aims to use a multi-disciplinary approach to explore the effect of LAN on survival, reproduction and physiology. It integrates field surveys with laboratory and field experiments and aims ....The dark side of light: species and community impacts of night lighting. The presence of artificial light at night (LAN) is one of the most profound recent changes in urban ecosystems. Correlated with increases in LAN are declines in the survival and fitness of species living in urban environments. This project aims to use a multi-disciplinary approach to explore the effect of LAN on survival, reproduction and physiology. It integrates field surveys with laboratory and field experiments and aims to utilise sophisticated physiological assays to identify the links between LAN, melatonin, immunity, survival and reproduction. The intended outcome of this research is to provide fundamental insights into the biological consequences of LAN at the species and community levels.Read moreRead less
Getting smaller as temperatures rise? Body size responses of Australian birds to climate change. Many animals appear to be declining in size as climate change occurs, but why this is so is unclear. Using historical records and museum specimens we will determine the factors underlying body size reductions in Australian birds, and especially the role of changing temperature and ecosystem productivity.
Discovery Early Career Researcher Award - Grant ID: DE190100831
Funder
Australian Research Council
Funding Amount
$416,670.00
Summary
The effects of mitochondrial genetic variation on physiology and behaviour. This project aims to test how mitochondrial DNA variation drives molecular, physiological, and behavioural differences between genders and among populations. This project, through the testing of a new hypothesis, expects to generate new knowledge to understand why males and females differ consistently in key health-related traits like longevity. The expected outcomes of this project will provide new discoveries that deli ....The effects of mitochondrial genetic variation on physiology and behaviour. This project aims to test how mitochondrial DNA variation drives molecular, physiological, and behavioural differences between genders and among populations. This project, through the testing of a new hypothesis, expects to generate new knowledge to understand why males and females differ consistently in key health-related traits like longevity. The expected outcomes of this project will provide new discoveries that deliver fundamental insights into the genetics of gender differences, with benefits that extend into the biomedical sciences. The project is also expected to enhance the international profile of Australian science through cutting-edge research in evolutionary genetics.Read moreRead less
The oxygen paradox and the evolution of sex differences. Free radicals are reactive molecules linked to the onset of ageing, cancers and infertility. By advancing an emerging paradigm that contends that 'free radicals' are important drivers of evolutionary change, this project will lead the field and provide an excellent platform on which to train students to the highest standards.
Discovery Early Career Researcher Award - Grant ID: DE160100097
Funder
Australian Research Council
Funding Amount
$372,000.00
Summary
The costs of pheromone production. This project seeks to answer fundamental questions in sexual selection theory. Chemical communication plays a fundamental role in mate choice in most taxa, yet it is critically under-researched. Traditionally, the costs of pheromone production have been assumed to be low. How these ‘low-cost’ signals remain ‘honest’ remains a central question in evolutionary biology. This project intends to quantify the costs of pheromone production in two insect model systems ....The costs of pheromone production. This project seeks to answer fundamental questions in sexual selection theory. Chemical communication plays a fundamental role in mate choice in most taxa, yet it is critically under-researched. Traditionally, the costs of pheromone production have been assumed to be low. How these ‘low-cost’ signals remain ‘honest’ remains a central question in evolutionary biology. This project intends to quantify the costs of pheromone production in two insect model systems with different modes of chemical communication, and to reveal the underlying physiological mechanisms that ensure signal honesty. This project expects to advance knowledge in the fields of chemical communication and insect immunology which may provide information useful to pest management.Read moreRead less
Linking sex-specific adaptation to the evolution of infectious disease. This project aims to examine how differences in the response of males and females to pathogen attack can influence the evolution of infectious disease. This project expects to generate new knowledge in the area of host-pathogen co-evolution, by integrating approaches from the fields of evolutionary genetics, sexual selection, and epidemiology. Expected outcomes include an enhanced capacity to build interdisciplinary collabor ....Linking sex-specific adaptation to the evolution of infectious disease. This project aims to examine how differences in the response of males and females to pathogen attack can influence the evolution of infectious disease. This project expects to generate new knowledge in the area of host-pathogen co-evolution, by integrating approaches from the fields of evolutionary genetics, sexual selection, and epidemiology. Expected outcomes include an enhanced capacity to build interdisciplinary collaborations and development of theory that predicts infection dynamics in any species with separate sexes. This is expected to provide significant benefits, such as improving our knowledge of why the sexes differ and potentially providing new avenues for understanding disease outbreaks and preventing population declines or extinctions.Read moreRead less
Discovery Early Career Researcher Award - Grant ID: DE150100327
Funder
Australian Research Council
Funding Amount
$378,000.00
Summary
Does sex matter? The impact of sex differences on pathogen evolution. Males and females experience the burden of infection differently. Males are typically thought of as the 'sicker sex', favouring investment in costly sexual displays, at the expense of immune function. But what does this mean for the pathogen? Each sex presents a unique set of challenges that an invading organism must overcome; yet the impact of these differences on pathogen evolution has been surprisingly overlooked. This proj ....Does sex matter? The impact of sex differences on pathogen evolution. Males and females experience the burden of infection differently. Males are typically thought of as the 'sicker sex', favouring investment in costly sexual displays, at the expense of immune function. But what does this mean for the pathogen? Each sex presents a unique set of challenges that an invading organism must overcome; yet the impact of these differences on pathogen evolution has been surprisingly overlooked. This project aims to unravel how sex-specific challenges influence the outcome of pathogen evolution. This work will show how infection in males or females can alter the evolutionary potential of disease, and will ask whether same-sex populations could ever lead to the evolution of new pathogen strains and virulence genes.Read moreRead less