Understanding the impact of heat stress on cognition in a changing world. Our research will determine how anthropogenic climate change effects the ability of animals to process information in their environment. This research is significant because it directly addresses the growing issue of wildlife adaptation to climate change. If heat stress, reported widely in wildlife both in Australia and globally, impairs an animal's ability to respond to stimuli in its surrounding environment, then this ma ....Understanding the impact of heat stress on cognition in a changing world. Our research will determine how anthropogenic climate change effects the ability of animals to process information in their environment. This research is significant because it directly addresses the growing issue of wildlife adaptation to climate change. If heat stress, reported widely in wildlife both in Australia and globally, impairs an animal's ability to respond to stimuli in its surrounding environment, then this may cause lower reproductive success (eg lower predator detection rates) and population declines. We aim to identify critical temperature points beyond which the cognitive responses of animals decline rapidly - a significant finding for effective wildlife management priorities in the face of rapid climate change. Read moreRead less
Discovery Early Career Researcher Award - Grant ID: DE150101521
Funder
Australian Research Council
Funding Amount
$349,699.00
Summary
The development, ecology and evolution of alternative phenotypes. Diseases, crops, livestock, and even some natural resources evolve, therefore comprehending evolutionary processes and their implications for humans is paramount. A paradigm shift in evolutionary theory was the realisation that genes are not the whole story, and that plasticity to the environment is vital for evolution. This highlights the importance of environmentally sensitive traits, such as conditional alternative phenotypes, ....The development, ecology and evolution of alternative phenotypes. Diseases, crops, livestock, and even some natural resources evolve, therefore comprehending evolutionary processes and their implications for humans is paramount. A paradigm shift in evolutionary theory was the realisation that genes are not the whole story, and that plasticity to the environment is vital for evolution. This highlights the importance of environmentally sensitive traits, such as conditional alternative phenotypes, where a genome can produce completely different morphologies in different environments. This project aims to investigate the development, evolutionary potential, and ecology of alternative phenotypes, contributing to our ability to understand and manage the most important of biological processes, evolution.Read moreRead less
Integrating pre- and postcopulatory sexual selection. This project combines life-history theory, behaviour, physiology and quantitative genetics to gain a broader understanding of the mechanisms linking pre- and postcopulatory sexual selection. The work will boost Australia’s profile in evolutionary ecology and build new collaborative links with researchers overseas.
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
Understanding the relationship between sociality and cognition. The evolution of cognition is a fundamentally important yet poorly researched area. It has recently become clear that rather than measuring cognitive performance between species, understanding the causes of intraspecific variation in cognitive performance is vital to accurately measure the selective benefits of cognition. Recent groundbreaking research on Australian magpies has revealed individual differences in cognitive performanc ....Understanding the relationship between sociality and cognition. The evolution of cognition is a fundamentally important yet poorly researched area. It has recently become clear that rather than measuring cognitive performance between species, understanding the causes of intraspecific variation in cognitive performance is vital to accurately measure the selective benefits of cognition. Recent groundbreaking research on Australian magpies has revealed individual differences in cognitive performance are influenced by differences in sociality. This proposal will determine the causality of these results by examining the developmental and fitness consequences of individual differences in cognitive performance in relation to social interactions, thus directly addressing the sociality-cognition debate.Read moreRead less
Sources of genetic and phenotypic variation in sexual selection. This project will contribute towards Australia's reputation as a country where excellent and original research in evolutionary biology is conducted. The project will focus on the evolution of mate choice in the Western Australian rainbowfish, which has never been formally studied. Our research will therefore work towards a better understanding of Australian native fauna. Conceptually, the work encompasses new and innovative experim ....Sources of genetic and phenotypic variation in sexual selection. This project will contribute towards Australia's reputation as a country where excellent and original research in evolutionary biology is conducted. The project will focus on the evolution of mate choice in the Western Australian rainbowfish, which has never been formally studied. Our research will therefore work towards a better understanding of Australian native fauna. Conceptually, the work encompasses new and innovative experimental procedures that will address fundamental questions in sexual selection. The results will ultimately be geared towards publication in the highest ranking journals, thereby promoting Australian science on the international stage. Australian science will further benefit from the training of young scientists.Read moreRead less
Postcopulatory sexual selection and intraspecific variation in sperm competition traits. This project will contribute towards Australia's burgeoning reputation as a country where excellent and original research in behavioural ecology and evolution is conducted. By focusing on the evolution and function of sperm and genitalic traits, the project will address fundamental questions at the core of contemporary evolutionary research, thereby yielding results that will have a significant international ....Postcopulatory sexual selection and intraspecific variation in sperm competition traits. This project will contribute towards Australia's burgeoning reputation as a country where excellent and original research in behavioural ecology and evolution is conducted. By focusing on the evolution and function of sperm and genitalic traits, the project will address fundamental questions at the core of contemporary evolutionary research, thereby yielding results that will have a significant international impact. Australian science will further benefit from the research fellow's established collaborations with international scientists and through the training of young scientists.Read moreRead less
Discovery Early Career Researcher Award - Grant ID: DE230101231
Funder
Australian Research Council
Funding Amount
$390,295.00
Summary
The effect of nutrition on male life history traits in humans. This project will provide answers to fundamental questions in evolutionary biology while identifying diet compositions that will benefit human health and well-being. Using a longitudinal public-health database, the Raine Study, and a theoretical framework from the field of Nutritional Ecology, the project will provide new knowledge on how nutrition affects key life-history traits in humans including immune function, reproductive heal ....The effect of nutrition on male life history traits in humans. This project will provide answers to fundamental questions in evolutionary biology while identifying diet compositions that will benefit human health and well-being. Using a longitudinal public-health database, the Raine Study, and a theoretical framework from the field of Nutritional Ecology, the project will provide new knowledge on how nutrition affects key life-history traits in humans including immune function, reproductive health, physical appearance, and healthy ageing. A systematic literature review on how diet impacts these life-history traits in animals generally, and an experimental study of the effect of diet on health and reproduction in the house mouse (a lab analog species for humans) will complement the Raine Study findings.Read moreRead less
Sex, Sperm and Society. Insights into the evolutionary potential of sexual conflict in insects: a fundamental question in evolutionary biology. Social insects are biologically and economically important species. Honeybees or stingless bees are used for crop pollination and honey production and invasive ants or termites are severe pest species causing economic damage. Part of the biological success of social insects is based on the capability to produce colonies with many workers although colonie ....Sex, Sperm and Society. Insights into the evolutionary potential of sexual conflict in insects: a fundamental question in evolutionary biology. Social insects are biologically and economically important species. Honeybees or stingless bees are used for crop pollination and honey production and invasive ants or termites are severe pest species causing economic damage. Part of the biological success of social insects is based on the capability to produce colonies with many workers although colonies typically contain only one or very few reproductives. Consequently, colony success is bound to queen fertility and studying social insect reproduction can therefore optimize breeding regimes of species of interest or offer new possibilities to control pest species. Detailed information on sperm form and function will provide pioneering insights into the complexity of sexual reproduction.Read moreRead less
Discovery Early Career Researcher Award - Grant ID: DE140100476
Funder
Australian Research Council
Funding Amount
$393,000.00
Summary
Under female control: egg defence, adaptive sex allocation, and sperm selection. Sexual conflict is prevalent at the gametic level, and females may respond to sperm competition via fertilisation barriers that mediate sperm entry. Surprisingly, the extent of female control over fertilisation is unknown, and the specific mechanisms that females utilise to manipulate fertilisation events are poorly understood. This project will combine innovative investigations that utilise whole organisms and in v ....Under female control: egg defence, adaptive sex allocation, and sperm selection. Sexual conflict is prevalent at the gametic level, and females may respond to sperm competition via fertilisation barriers that mediate sperm entry. Surprisingly, the extent of female control over fertilisation is unknown, and the specific mechanisms that females utilise to manipulate fertilisation events are poorly understood. This project will combine innovative investigations that utilise whole organisms and in vitro fertilisation technology to study their gametes in isolation. The project offers pioneering work on gametic interactions that have not previously been characterised. It will extend knowledge on the mechanisms that underpin successful mammalian fertilisation and provide critical insight into the etiology of infertility.Read moreRead less