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
Packed to perform: the effects of telomere traits and free radicals on sperm phenotypes, fertilization success, and offspring viability. This project will integrate telomeres, free radicals and sperm biology into a coherent research program on the roles of free radicals in eroding telomeres and dictating: success in sperm competition and cryptic female choice; longevity and life time fitness in the wild; and, transgenerational effects on offspring viability, in particular mediated via paternal t ....Packed to perform: the effects of telomere traits and free radicals on sperm phenotypes, fertilization success, and offspring viability. This project will integrate telomeres, free radicals and sperm biology into a coherent research program on the roles of free radicals in eroding telomeres and dictating: success in sperm competition and cryptic female choice; longevity and life time fitness in the wild; and, transgenerational effects on offspring viability, in particular mediated via paternal telomere length. Specifically, the project researches how sperm telomere length in sires shorten under stress and how this epigenetic effect is transferred from sires to sons and potentially moderates also filial success in sperm competition and attractiveness in cryptic female choice. Read moreRead less
Lamarckian lizards: novel integration of telomere epigenetics, free radicals and innate antioxidants in condition-dependant sexual signal evolution. In 2009, the Nobel Prize in physiology was awarded Drs. Blackburn, Greider and Szostak for discoveries on telomeres. This project will investigate how telomeres not only cap chromosomes from destruction by free radicals, but also have a key role in life itself, in their influence on ageing, longevity, ornaments and lifetime reproductive success.
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.
Male risk-taking and female mate choice in birds: A synthesis of mechanism and function. Some avian alarm calls are produced only by males, and call rate corresponds closely with recent mating success. This relationship might reflect protection of descendant kin. Such ostentatious risk-taking might also be sexy. We will manipulate male reproductive success in natural social groups to measure the effect on production of costly calls. Parallel lab experiments will selectively change alarm call ....Male risk-taking and female mate choice in birds: A synthesis of mechanism and function. Some avian alarm calls are produced only by males, and call rate corresponds closely with recent mating success. This relationship might reflect protection of descendant kin. Such ostentatious risk-taking might also be sexy. We will manipulate male reproductive success in natural social groups to measure the effect on production of costly calls. Parallel lab experiments will selectively change alarm call rate to test whether this influences attractiveness to females. Results will test a controversial hypothesis, extend current models of parental investment and female mate choice, and permit a synthesis of work on sexual selection and animal cognition.Read moreRead less
Discovery Early Career Researcher Award - Grant ID: DE120101126
Funder
Australian Research Council
Funding Amount
$375,000.00
Summary
More than meets the egg: environmental effects on sperm quality, sperm competitive success, and offspring fitness. Can a male's environment affect his sperm quality and the health of his offspring? By experimentally testing how the paternal environment affects sperm quality, this project will help us understand (1) why sperm vary so much, and (2) what consequences variability in sperm quality has for paternity success and offspring fitness.
Evolution in action or the demise of iconic Australian flora? The project aims to investigate the evolutionary history and conservation status of a group of closely related Grevillea species, in the light of increasing pressure from landscape modification. This project will incorporate leading methodologies for massively parallel sequencing, pollinator preference and breeding capacity in order to detect the patterns and processes underpinning divergence in widely distributed species. A phylogene ....Evolution in action or the demise of iconic Australian flora? The project aims to investigate the evolutionary history and conservation status of a group of closely related Grevillea species, in the light of increasing pressure from landscape modification. This project will incorporate leading methodologies for massively parallel sequencing, pollinator preference and breeding capacity in order to detect the patterns and processes underpinning divergence in widely distributed species. A phylogenetic framework will provide the evolutionary relationships among taxa. This project is expected to inform requirements for long-term species persistence and, for threatened species within the group, guide the decision making of biodiversity managers as to what actions are required and where best to invest limited funds.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
Structural reorganization of the hymenopteran mitochondrial genome. This study will be the first detailed investigation of the evolution of mt genome reorganization, and as such it will identify the processes that shape the evolution of a molecule widely used to interpret phylogeny. A description of the processes that lead to mt genome reorganization will have a substantial impact on our understanding in two areas of mt biology; (1) the discovery of new molecular phenomena that impact on the or ....Structural reorganization of the hymenopteran mitochondrial genome. This study will be the first detailed investigation of the evolution of mt genome reorganization, and as such it will identify the processes that shape the evolution of a molecule widely used to interpret phylogeny. A description of the processes that lead to mt genome reorganization will have a substantial impact on our understanding in two areas of mt biology; (1) the discovery of new molecular phenomena that impact on the organization and evolution of this genome, and (2) the interpretation of its phylogenetic content. It will establish our research group as a leader in the field of evolutionary genetics. Training of high quality students, with exposure to international researchers, will be a significant component of this program.Read moreRead less
The nature and consequences of environmentally-generated phenotypic variation in natural populations. The ambient environment can generate both heritable and non-heritable variation in individual traits, but the role of such variation in evolution is poorly understood. This project will use a powerful model organism, the Australian neriid flies, to elucidate the evolutionary implications of environmentally-generated variation.