Host-parasite interactions during a biological invasion: toads, frogs and nematodes in tropical Australia. Cane toads were introduced to Australia 70 years ago, and are widely believed to cause major problems for native ecosystems. My work has identified another impact of cane toads: they have brought some of their native-range parasites with them from Central America, and at least one species (a lungworm) now attacks native Australian frogs. This project will explore the impact of the parasit ....Host-parasite interactions during a biological invasion: toads, frogs and nematodes in tropical Australia. Cane toads were introduced to Australia 70 years ago, and are widely believed to cause major problems for native ecosystems. My work has identified another impact of cane toads: they have brought some of their native-range parasites with them from Central America, and at least one species (a lungworm) now attacks native Australian frogs. This project will explore the impact of the parasite on native frogs as well as on the toads themselves, and determine why some (but not all) toad populations in Australia have escaped from these viability-reducing parasites. My work will clarify host-parasite coevolution, the ecological impact of invasive organisms, and the feasibility of using parasites to help control toads within Australia.Read moreRead less
Australian Laureate Fellowships - Grant ID: FL120100074
Funder
Australian Research Council
Funding Amount
$2,175,454.00
Summary
Using biological invasions to understand evolutionary processes. The invasion of cane toads through Australia has been devastating for many native species, but created opportunities for others. The rapid evolutionary responses stimulated by toad invasion provide a uniquely powerful model system with which to explore the broader question of how species adapt to novel challenges.
The evolution of diverse interactions between Wolbachia bacteria and their invertebrate hosts: insights from a novel lineage infecting termite societies. Wolbachia intracellular bacteria are widespread in invertebrates, having evolved a remarkable range of host-interactions, from parasitic to mutualistic. I have discovered phylogenetically novel Wolbachia that infect the structural pests termites, and will investigate their host-effects and transmission dynamics. This will determine the generali ....The evolution of diverse interactions between Wolbachia bacteria and their invertebrate hosts: insights from a novel lineage infecting termite societies. Wolbachia intracellular bacteria are widespread in invertebrates, having evolved a remarkable range of host-interactions, from parasitic to mutualistic. I have discovered phylogenetically novel Wolbachia that infect the structural pests termites, and will investigate their host-effects and transmission dynamics. This will determine the generality of phenomena known from other Wolbachia, such as cytoplasmic incompatibility and horizontal transfer. The complexity of termite societies make them interesting candidates for studying how Wolbachia spread, and the results will be potentially valuable for future termite control strategies. The first comparative phylogenetic examination of diverse Wolbachia will be performed, providing new perspectives on their evolutionary history.Read moreRead less
Discovery Early Career Researcher Award - Grant ID: DE120100214
Funder
Australian Research Council
Funding Amount
$375,000.00
Summary
Re-evaluating evolution by examining developmental plasticity in response to the social environment. Our understanding of trait evolution is derived from our assumption that traits are a signal of male quality as they are costly to produce. The project will integrate this concept with a new theory stating that males shift their development to exploit the weaknesses of rivals; thereby leading to a more holistic understanding of evolution.
The evolution of host-parasite interactions during a biological invasion. This project aims to elucidate how host organisms and their parasites adapt to each other, exploiting the fact that a biological invasion imposes novel evolutionary challenges. This project expects to generate new knowledge about how the interaction between host and parasite species is affected when the system is exposed to powerful new selective forces. Expected outcomes of this project include development of theory, trai ....The evolution of host-parasite interactions during a biological invasion. This project aims to elucidate how host organisms and their parasites adapt to each other, exploiting the fact that a biological invasion imposes novel evolutionary challenges. This project expects to generate new knowledge about how the interaction between host and parasite species is affected when the system is exposed to powerful new selective forces. Expected outcomes of this project include development of theory, training of students in an emerging field, and a nuanced understanding of this important topic. This should provide significant benefits, such as an enhanced ability for wildlife managers to predict the impact of parasites on species of wildlife that are extending their geographic ranges.Read moreRead less
Social insect behaviour: the importance of individual-decision making and information transfer. Insect societies are complex systems. Understanding complex systems is often hampered by our inability to study the individual units that comprise the system without also disturbing the system. Insect societies are unique in that the individual insects can be studied within their natural setting. This project will study foraging behaviour of honey bees with respect to individual decision-making and in ....Social insect behaviour: the importance of individual-decision making and information transfer. Insect societies are complex systems. Understanding complex systems is often hampered by our inability to study the individual units that comprise the system without also disturbing the system. Insect societies are unique in that the individual insects can be studied within their natural setting. This project will study foraging behaviour of honey bees with respect to individual decision-making and information transfer. In doing so we will obtain insights in the working of other, less accessible, complex systems such as the mammalian brain or the Australian economy.Read moreRead less
The nutritional geometry of parental diet. This project aims to investigate the effects of ancestors’ diet on descendants’ development and performance. Recognition that an individual’s diet can affect its descendants’ features and health influences biology and medicine, but limitations of conventional research methodologies make understanding such effects incomplete. The Nutritional Geometry framework enables researchers to analyse effects of diet composition as complex response surfaces, and ha ....The nutritional geometry of parental diet. This project aims to investigate the effects of ancestors’ diet on descendants’ development and performance. Recognition that an individual’s diet can affect its descendants’ features and health influences biology and medicine, but limitations of conventional research methodologies make understanding such effects incomplete. The Nutritional Geometry framework enables researchers to analyse effects of diet composition as complex response surfaces, and has recently been used in research on parental diet effects. Building on this breakthrough, this project intends to analyse the effects of ancestors’ diet, and test hypotheses relevant to evolution, ecology and human health.Read moreRead less
Can sexual conflict contribute to a resolution of the paradox of sex? Despite over a century of research, it remains unclear why most animals can reproduce only via sex. An exciting new hypothesis proposes that sexual conflict can promote sexual reproduction and inhibit asexual strategies, suggesting a potential solution to this long-standing paradox. Building on my research expertise, and using a native Australian insect species in which the role of sexual conflict can be studied in natural pop ....Can sexual conflict contribute to a resolution of the paradox of sex? Despite over a century of research, it remains unclear why most animals can reproduce only via sex. An exciting new hypothesis proposes that sexual conflict can promote sexual reproduction and inhibit asexual strategies, suggesting a potential solution to this long-standing paradox. Building on my research expertise, and using a native Australian insect species in which the role of sexual conflict can be studied in natural populations, this ambitious project aims to test this hypothesis for the first time. This research will expand knowledge in the biological sciences by helping to answer one of the most challenging questions in evolutionary biology. This work will also contribute to efforts to monitor Australia's unique insect fauna.Read moreRead less
Discovery Early Career Researcher Award - Grant ID: DE180100526
Funder
Australian Research Council
Funding Amount
$342,551.00
Summary
Unifying cornerstones of social evolution: theory and application. This proposal aims to reconcile and unify alternative methods in social evolution theory, one of the foundations of our modern understanding of evolutionary and behavioural ecology. Social evolution has been controversial, but recent years have seen major developments. By combining mathematical models and empirical data, this project expects to end the controversies by removing boundaries between theoretical approaches. Specific ....Unifying cornerstones of social evolution: theory and application. This proposal aims to reconcile and unify alternative methods in social evolution theory, one of the foundations of our modern understanding of evolutionary and behavioural ecology. Social evolution has been controversial, but recent years have seen major developments. By combining mathematical models and empirical data, this project expects to end the controversies by removing boundaries between theoretical approaches. Specific applications of theory include social insect evolution, individuality and selection in plants. Unification of theory is expected to enhance research capacity in Australia and internationally.Read moreRead less
How mates and sexual rivals affect reproductive costs, lifespan and ageing. This project aims to dissect the complex costs of reproduction, bridging an old divide between evolutionary and biomedical approaches to understanding ageing and lifespan. Merely detecting the smell of another individual, without ever encountering them, can cause an individual to mature sooner, age faster, or live a shorter life. These costs, and the fact that subsequent mating can restore adult ageing and lifespan to "n ....How mates and sexual rivals affect reproductive costs, lifespan and ageing. This project aims to dissect the complex costs of reproduction, bridging an old divide between evolutionary and biomedical approaches to understanding ageing and lifespan. Merely detecting the smell of another individual, without ever encountering them, can cause an individual to mature sooner, age faster, or live a shorter life. These costs, and the fact that subsequent mating can restore adult ageing and lifespan to "normal" are causing a re-evaluation of the costs of reproduction - an important but enigmatic concept in evolution. This project expects to resolve how and why the physical presence of a mate, or odour cues of such a mate, can have such dramatic effects on ageing and late-life performance.Read moreRead less