Intergenomic conflict and the evolution of uniparental inheritance of mitochondria. Why do all mammalian male sperm cells destroy their own mitochondria after fertilisation? A major evolutionary theory, the conflict hypothesis, aims to answer this question. The argument goes as follows. If an organism were to contain mitochondria from both parents, each mitochondrial lineage would be selected in an “arms race” to replicate faster than the other lineage, and this would likely be costly to the org ....Intergenomic conflict and the evolution of uniparental inheritance of mitochondria. Why do all mammalian male sperm cells destroy their own mitochondria after fertilisation? A major evolutionary theory, the conflict hypothesis, aims to answer this question. The argument goes as follows. If an organism were to contain mitochondria from both parents, each mitochondrial lineage would be selected in an “arms race” to replicate faster than the other lineage, and this would likely be costly to the organism. Uniparental inheritance of mitochondria prevents such evolutionary arms race. Sounds plausible? Yes. Has it been tested? No. This project will be the first attempt to test this intriguing hypothesis. Experimental evidence for the evolution of selfish mitochondria would provide solid support for this major evolutionary theory. Read moreRead less
Genomic vulnerability . Aims: This project aims to validate genomic predictions of species’ vulnerability to climate change.
Significance: Species are already responding to climate change, and many face high predicted rates of extinction. Some species will be able to avoid extinction via evolutionary adaptation. Yet we currently lack the ability to accurately predict which species do and do not have the capacity to adapt and avoid extinction.
Expected outcomes: Expected outcomes of this project ....Genomic vulnerability . Aims: This project aims to validate genomic predictions of species’ vulnerability to climate change.
Significance: Species are already responding to climate change, and many face high predicted rates of extinction. Some species will be able to avoid extinction via evolutionary adaptation. Yet we currently lack the ability to accurately predict which species do and do not have the capacity to adapt and avoid extinction.
Expected outcomes: Expected outcomes of this project include enhanced ability to predict species’ vulnerability to ongoing climate change.
Benefits: This project should significantly improve our capacity to manage threatened and keystone species by identifying those that will require targeted conservation management.
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Discovery Early Career Researcher Award - Grant ID: DE200101019
Funder
Australian Research Council
Funding Amount
$414,331.00
Summary
Mechanisms determining ecological resilience to climate change. This project aims to improve our understanding of the evolutionary mechanisms by which organisms adapt to climate change, and how this may lead to ecological resilience. It will test how rapid adaptation can occur in response to stressful environments predicted under climate change scenarios. By understanding the genetic mechanisms by which organisms adapt to environmental stresses, we can better forecast the effects of climate cha ....Mechanisms determining ecological resilience to climate change. This project aims to improve our understanding of the evolutionary mechanisms by which organisms adapt to climate change, and how this may lead to ecological resilience. It will test how rapid adaptation can occur in response to stressful environments predicted under climate change scenarios. By understanding the genetic mechanisms by which organisms adapt to environmental stresses, we can better forecast the effects of climate change on natural systems. Expected outcomes include an improved ability to make informed conservation and management decisions, with resulting benefits including the protection of human health, agricultural industries, and our iconic flora and fauna. Read moreRead less
Discovery Early Career Researcher Award - Grant ID: DE150101625
Funder
Australian Research Council
Funding Amount
$385,536.00
Summary
The evolutionary significance of ejaculate-female interactions. The way that ejaculates interact with the female reproductive tract is thought to have profound evolutionary implications in internal fertilizers. Yet we currently lack clear insights into these processes in most taxa, precisely because such ejaculate-female interactions are hidden from view inside the female's reproductive tract. In this project an integrated series of experiments on a model vertebrate (the guppy) will overcome the ....The evolutionary significance of ejaculate-female interactions. The way that ejaculates interact with the female reproductive tract is thought to have profound evolutionary implications in internal fertilizers. Yet we currently lack clear insights into these processes in most taxa, precisely because such ejaculate-female interactions are hidden from view inside the female's reproductive tract. In this project an integrated series of experiments on a model vertebrate (the guppy) will overcome the inherent challenges in studying ejaculate-female interactions. The project aims to shed new light on the role that ejaculate-female interactions play in sperm competition, and will explore the consequences of these interactions at different evolutionary levels and across varying social environments.Read moreRead less
Evolution and role of neo-sex chromosomes in mitonuclear co-evolution. This project aims to characterize the evolution of novel, extended sex chromosomes in an Australian bird, then elucidate their role in climate-associated adaptive evolution. The species falls into two lineages bearing distinct mitochondrial genomes and nuclear-encoded mitochondrial genes carried on sex chromosomes. The project aims to test whether this extraordinary genome arrangement is splitting the species into two forms: ....Evolution and role of neo-sex chromosomes in mitonuclear co-evolution. This project aims to characterize the evolution of novel, extended sex chromosomes in an Australian bird, then elucidate their role in climate-associated adaptive evolution. The species falls into two lineages bearing distinct mitochondrial genomes and nuclear-encoded mitochondrial genes carried on sex chromosomes. The project aims to test whether this extraordinary genome arrangement is splitting the species into two forms: one adapted to hotter, drier environments, one to milder ones. This would be tackled using an innovative combination of genomics, cytogenetics, and metabolic data. Understanding the mechanisms at play would represent a major advance in ecology and evolution, with potential implications for conservation management.Read moreRead less
Multiple stressors and vulnerability to global change. This project aims to develop a framework for accurately predicting species responses to environmental change. Future environments will involve shifts in many environmental factors, and species will evolve. Yet we lack understanding of how multiple environmental factors affect the ability of species to evolve and adapt to environmental change. The intended outcome is a tool for predicting the impact of environmental change on the distribution ....Multiple stressors and vulnerability to global change. This project aims to develop a framework for accurately predicting species responses to environmental change. Future environments will involve shifts in many environmental factors, and species will evolve. Yet we lack understanding of how multiple environmental factors affect the ability of species to evolve and adapt to environmental change. The intended outcome is a tool for predicting the impact of environmental change on the distribution and abundance of organisms. The benefits include improved conservation outcomes and better pest/disease vector control.Read moreRead less
Frayed at the edges? Integrating evolutionary genetics into the study of species distributional limits. Restricted species, like those in rainforests, represent the vast majority of biodiversity, but they face high risks of extinction due to climate change unless they can adapt. Using butterflies as a model, this project will examine whether rainforest restricted species are able to adapt to future climate change and provide insight into their extinction risk.
Are the sexes really equal? Sex-specific adaptation to environmental change. This project aims to develop a framework for accurately predicting species responses to global change. Many environmental factors will change, and species will evolve, but in a sex-specific manner. Yet understanding of how the sexes vary in their ability to evolve and adapt to such complex environmental change is lacking. This project aims to integrate environmental data with the sex-specific evolutionary potential of o ....Are the sexes really equal? Sex-specific adaptation to environmental change. This project aims to develop a framework for accurately predicting species responses to global change. Many environmental factors will change, and species will evolve, but in a sex-specific manner. Yet understanding of how the sexes vary in their ability to evolve and adapt to such complex environmental change is lacking. This project aims to integrate environmental data with the sex-specific evolutionary potential of organisms in response to multiple stressors in a spatially explicit context. The intended outcome is a powerful and general tool for predicting the impact of environmental change on the distribution and abundance of organisms. The benefits include improved conservation outcomes and better pest/disease vector control.Read moreRead less
Discovery Early Career Researcher Award - Grant ID: DE150100507
Funder
Australian Research Council
Funding Amount
$352,454.00
Summary
Is adaptation to climate change really constrained in niche specialists? Accurately predicting the vulnerability of species to climate change is of paramount importance for managing biodiversity for conservation, agricultural and human health-related purposes. Mounting evidence indicates that adaptive responses to climate changes may be highly constrained, particularly in the biodiverse tropics. However, this is based on studies that do not reflect projected climatic variations. This project aim ....Is adaptation to climate change really constrained in niche specialists? Accurately predicting the vulnerability of species to climate change is of paramount importance for managing biodiversity for conservation, agricultural and human health-related purposes. Mounting evidence indicates that adaptive responses to climate changes may be highly constrained, particularly in the biodiverse tropics. However, this is based on studies that do not reflect projected climatic variations. This project aims to provide the first assessment of the capacity to adapt to climate change in widespread and tropical species using ecologically realistic conditions that reflect projected changes. The data will be used to develop accurate models predicting species vulnerability and serve to better guide conservation strategies.Read moreRead less