Evolution of maternal effects: a life-history perspective. The community benefits from the present project are two-fold. Firstly, it strengthens Australia's competititve position in evolutionary biology research, and its applications in conservation and medicine. The projects focus on long-term consequences of early developmental conditions is considered to be a priority in both medical and evolutionary research. Secondly, understanding variation in phenotypic traits in relation to environmental ....Evolution of maternal effects: a life-history perspective. The community benefits from the present project are two-fold. Firstly, it strengthens Australia's competititve position in evolutionary biology research, and its applications in conservation and medicine. The projects focus on long-term consequences of early developmental conditions is considered to be a priority in both medical and evolutionary research. Secondly, understanding variation in phenotypic traits in relation to environmental factors, such as prenatal stress, is important for designing conservation and animal breeding programs to minimize the risk of population decline and to ensure uncompromised husbandry conditions to avoid animal suffering. Read moreRead less
Animals response to extreme climatic events. Climate change is causing extreme climatic events, such as floods and heat waves, to become more frequent. This project will investigate by which mechanism animals can adjust to extreme climatic events and whether the response is fast enough to avoid extinction, thereby providing urgently needed insights into the natural resilience of Australian fauna.
Are good males bad females? Sexual conflict in hermaphrodites. Animal hermaphrodites (organisms that are both males and females) are extremely common and important from both an economic and ecological perspective but we know little about the evolution of this group. This project will examine how sexual conflict, so pervasive in organisms with separate sexes, affects the evolution of hermaphrodites.
Dissecting the causes and consequences of non-genetic parental effects. This project aims to determine the consequences of paternal and sperm experience for offspring and the mechanisms by which they occur. This project will make unambiguous tests of paternal effects under field conditions and will unravel the molecular pathways by which they occur. The outcome will be a better understanding of how environmental effects are transmitted through the male line. This will provide significant benefit ....Dissecting the causes and consequences of non-genetic parental effects. This project aims to determine the consequences of paternal and sperm experience for offspring and the mechanisms by which they occur. This project will make unambiguous tests of paternal effects under field conditions and will unravel the molecular pathways by which they occur. The outcome will be a better understanding of how environmental effects are transmitted through the male line. This will provide significant benefits, such as implications for climate change impacts and reproductive technologies.Read moreRead less
Evolution in a changing environment. Climate change is having dramatic effects on wild animal populations. This project will investigate how and why these effects occur, and whether populations will be able to evolve to adapt to a changing environment.
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
The puzzle of Metazoan life history evolution: are feeding larvae always primitive? Most marine animals have a complex life-cycles with alternating pelagic larvae and benthic adults. An theory about animal life-history evolution states that feeding larvae are always primitive and larval feeding is lost but not gained. This hypothesis is based in part on studies on the 'classical' trochophore of marine worms such as Serpulidae, a group with both feeding and non-feeding larvae. We intend to establ ....The puzzle of Metazoan life history evolution: are feeding larvae always primitive? Most marine animals have a complex life-cycles with alternating pelagic larvae and benthic adults. An theory about animal life-history evolution states that feeding larvae are always primitive and larval feeding is lost but not gained. This hypothesis is based in part on studies on the 'classical' trochophore of marine worms such as Serpulidae, a group with both feeding and non-feeding larvae. We intend to establish a detailed phylogeny for Serpulidae and assess the evolution of larvae in the group. If feeding larvae are shown to be secondary this will raise doubts about established theories of animal evolution.Read moreRead less
Understanding climate and harvest induced changes in fish life histories. This project aims to quantify the cumulative impacts of harvest and climate change across marine fishes and ecosystems. The project expects to generate new knowledge in this area by coupling the rich biological information archived in fish ear bones, with targeted multi-generation experiments and predictive modelling. Expected outcomes include fundamental insights into how human-induced environmental change affects fish gr ....Understanding climate and harvest induced changes in fish life histories. This project aims to quantify the cumulative impacts of harvest and climate change across marine fishes and ecosystems. The project expects to generate new knowledge in this area by coupling the rich biological information archived in fish ear bones, with targeted multi-generation experiments and predictive modelling. Expected outcomes include fundamental insights into how human-induced environmental change affects fish growth and maturation, and a subsequent critical evaluation of the sensitivity of fisheries models to trends in these life-history traits. This should provide significant benefits to fisheries and ecosystem management, ensuring they remain productive and resilient in a time of rapid environmental change.Read moreRead less
Threshold evolution: conceptualising decisions as traits. All organisms make decisions, yet the diversity of decision rules across the spectrum of life can be understood through a few key evolutionary models. This project will test these models and then apply them to understanding topics as diverse as pest outbreaks, human twinning, sex ratio evolution and disease spread as a consequence of climate change.
Artificial light at night as a driver of evolutionary change. This project aims to investigate whether artificial light at night drives evolutionary change using a combination of field observations, laboratory experiments and advanced genetic techniques. This multi-disciplinary study expects to provide a significant advance in understanding of the impact of light at night for animals and will enhance our capacity to predict the outcome of future urban expansions for all species. The outcomes wil ....Artificial light at night as a driver of evolutionary change. This project aims to investigate whether artificial light at night drives evolutionary change using a combination of field observations, laboratory experiments and advanced genetic techniques. This multi-disciplinary study expects to provide a significant advance in understanding of the impact of light at night for animals and will enhance our capacity to predict the outcome of future urban expansions for all species. The outcomes will have broad implications for estimating the future biodiversity and health of our urban areas and will benefit both globally and within Australia by providing much needed data regarding the likely resilience of species currently residing in our major cities.Read moreRead less