Understanding how reproduction and sexual conflict drive sex-dependent longevity and ageing. The biological study of longevity and ageing has two important fronts: understanding how evolution shapes lifespan and ageing, and the mechanistic study of how molecules, genes, hormones, tissues and cells interact during ageing. The evolutionary study of ageing is considered one of the success stories of the emerging field of evolutionary medicine, yet we desperately need greater integration of the evol ....Understanding how reproduction and sexual conflict drive sex-dependent longevity and ageing. The biological study of longevity and ageing has two important fronts: understanding how evolution shapes lifespan and ageing, and the mechanistic study of how molecules, genes, hormones, tissues and cells interact during ageing. The evolutionary study of ageing is considered one of the success stories of the emerging field of evolutionary medicine, yet we desperately need greater integration of the evolutionary and mechanistic spheres. This project addresses why males and females have different lifespans and age differently in a way that bridges evolutionary and mechanistic study, and will build Australia's research capacity to study ageing at both levels. Read moreRead less
Why do good males die young? The relationship between ageing and sexual selection. A biological understanding of ageing is directly relevant to human welfare. We will use lab and field studies to explore the evolutionary genetics of ageing in an Australian cricket, with particular emphasis on how diet and the timing of reproduction influence the rate at which crickets deteriorate with age. We will also test whether biological differences between males and females generate genetic conflicts over ....Why do good males die young? The relationship between ageing and sexual selection. A biological understanding of ageing is directly relevant to human welfare. We will use lab and field studies to explore the evolutionary genetics of ageing in an Australian cricket, with particular emphasis on how diet and the timing of reproduction influence the rate at which crickets deteriorate with age. We will also test whether biological differences between males and females generate genetic conflicts over ageing rates. Our results will not only complement an evolutionary study of ageing, but may ultimately suggest interventions that may prolong human life or improve the quality of life in an ageing population.Read moreRead less
Linking the evolutionary and bioenergetic causes of sex differences in lifespan and ageing. The biological study of longevity and ageing has two important fronts: understanding how evolution shapes lifespan and ageing, and the mechanistic study of how genes, hormones, tissues and cells interact during ageing. Interventions to prolong longevity and improve quality of life depend on a vigorous and innovative research effort in both spheres. This project addresses why males and females have differe ....Linking the evolutionary and bioenergetic causes of sex differences in lifespan and ageing. The biological study of longevity and ageing has two important fronts: understanding how evolution shapes lifespan and ageing, and the mechanistic study of how genes, hormones, tissues and cells interact during ageing. Interventions to prolong longevity and improve quality of life depend on a vigorous and innovative research effort in both spheres. This project addresses why males and females have different lifespans and age differently in a way that bridges evolutionary and mechanistic study, and will build Australia's research capacity to study ageing at both levels. Because of the human interest in diet, sex, reproduction and ageing, we expect this research will be a showcase for public interest in science.Read moreRead less
The role of sexual conflict in the evolution of lifespan and ageing. Despite the central importance of ageing in our own lives, our understanding of the evolution of ageing is still incomplete. Reproductive interests of males and females often diverge, resulting in sexual conflict which may in turn drive the evolution of rapid ageing. I will use experimental evolution to investigate the role of sexual conflict in the evolution of age-specific mortality, reproductive ageing and lifespan in the se ....The role of sexual conflict in the evolution of lifespan and ageing. Despite the central importance of ageing in our own lives, our understanding of the evolution of ageing is still incomplete. Reproductive interests of males and females often diverge, resulting in sexual conflict which may in turn drive the evolution of rapid ageing. I will use experimental evolution to investigate the role of sexual conflict in the evolution of age-specific mortality, reproductive ageing and lifespan in the seed beetle Callosobruchus maculates. This study will reveal the role of sexual interactions and reproduction in the ageing process and result in the development of important new resources for resolving the genetic basis of deteriorative ageing.Read moreRead less
How males alter their mates' ageing rates and lifespans. The proposed project investigates how males affect the lifespan, ageing and subsequent reproduction of their mates. It seeks to draw on and adapt tools and approaches used in molecular genetics and physiology to test predictions from evolutionary theories of sexual conflict, life-histories and ageing in an organism of biomedical and ecological significance, the house mouse. It is expected that this approach will allow the study, in unsurpa ....How males alter their mates' ageing rates and lifespans. The proposed project investigates how males affect the lifespan, ageing and subsequent reproduction of their mates. It seeks to draw on and adapt tools and approaches used in molecular genetics and physiology to test predictions from evolutionary theories of sexual conflict, life-histories and ageing in an organism of biomedical and ecological significance, the house mouse. It is expected that this approach will allow the study, in unsurpassed detail, of the costs males impose on females via mating, insemination, territoriality and via conflict over how many offspring to have and how to invest in their care.Read moreRead less
From developmental stability to organismic senility: Hox genes and telomere impact on life history evolution. Australia benefits from training researchers and technicians in new, break-through biotechnology and from applying this knowledge to relevant, cutting-edge questions in highly publicized research fields. This project contains both these ingredients. Our model species (a lizard) has a relatively high level of offspring malformations (ca 15%), which makes it much more likely to detect thei ....From developmental stability to organismic senility: Hox genes and telomere impact on life history evolution. Australia benefits from training researchers and technicians in new, break-through biotechnology and from applying this knowledge to relevant, cutting-edge questions in highly publicized research fields. This project contains both these ingredients. Our model species (a lizard) has a relatively high level of offspring malformations (ca 15%), which makes it much more likely to detect their underlying genetic mechanism. Furthermore, we can also assess how these animals survive and reproduce in relation to how quickly they age, which can be measured by assessing the shortening of telomeres per unit time. Thus, this collaboration provides an opportunity to train Australian researchers and in that process generate very high profile research.Read moreRead less
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
How are weeds adapting to life in Australia? Quantifying the rate and direction of evolution in introduced species. Introduced plants are a major problem throughout Australia. Introduced species are listed as one of the most severe threats to biodiversity in Australia, and managing them costs Australia around $4 billion per annum. The information we gather in this project will tell us what sort of changes introduced plants undergo when they arrive in Australia; how quickly plants can adapt to a ....How are weeds adapting to life in Australia? Quantifying the rate and direction of evolution in introduced species. Introduced plants are a major problem throughout Australia. Introduced species are listed as one of the most severe threats to biodiversity in Australia, and managing them costs Australia around $4 billion per annum. The information we gather in this project will tell us what sort of changes introduced plants undergo when they arrive in Australia; how quickly plants can adapt to a new environment, and what sort of species are best able to adapt to new conditions. We will also ask whether introduced species are still adapting to Australian conditions. If so, then we might expect even more naturalised species to become problem weeds in the future. This sort of knowledge is fundamental to our ability to develop appropriate control programs.Read moreRead less
Adaptive plasticity and evolution: linking the genotype and the environment to understand phenotypic evolution and expression. Different environmental signals alter when and where specific genes are expressed, thereby altering the phenotype. This project will examine the differences in the timing and use of genes in response to cues of competition that result in differences between the sexes. This will increase our understanding of the role of genes in sexual evolution.
Evolution of maternal provisioning in echinoderms: characterisation of egg nutrients and their roles in development. In the complex life histories of marine invertebrates modification of maternal provisioning lies at the nexus between the evolution of development and speciation in the sea. This project investigates the relationship between egg nutritive profile and developmental mode in echinoderms. It uses the Patiriella sea stars, a powerful model to examine evolution of egg constituents in a ....Evolution of maternal provisioning in echinoderms: characterisation of egg nutrients and their roles in development. In the complex life histories of marine invertebrates modification of maternal provisioning lies at the nexus between the evolution of development and speciation in the sea. This project investigates the relationship between egg nutritive profile and developmental mode in echinoderms. It uses the Patiriella sea stars, a powerful model to examine evolution of egg constituents in ancestral-type developers with small eggs and derived developers exhibiting multiple parallel evolution of large eggs. This project provides insights into evolutionary fine-tuning of oogenesis and its influence on larval type and location of development, features that strongly influence the biogeography of marine invertebrate populations.Read moreRead less