Social and environmental selection on female ornaments and armaments. Darwin's theory of sexual selection is remarkably successful in explaining how elaborate signals evolved in male animals, but it is unclear whether similar processes drive the evolution of female signals. This project aims to conduct empirical and comparative tests of hypotheses for female trait elaboration, capitalising on inter- and intra-specific variation in female signal form, social organisation and signalling environmen ....Social and environmental selection on female ornaments and armaments. Darwin's theory of sexual selection is remarkably successful in explaining how elaborate signals evolved in male animals, but it is unclear whether similar processes drive the evolution of female signals. This project aims to conduct empirical and comparative tests of hypotheses for female trait elaboration, capitalising on inter- and intra-specific variation in female signal form, social organisation and signalling environments. The project could generate new insight into the processes that promote and constrain phenotypic diversity in nature.Read moreRead less
Discovery Early Career Researcher Award - Grant ID: DE140100505
Funder
Australian Research Council
Funding Amount
$394,620.00
Summary
Is plant organisation the fountain of eternal youth? The decline in performance at advanced ages, senescence, affects life quality, lifespan and productivity. It is believed that this phenomenon is universal, including all species from microbes to humans. Yet, some plants do not exhibit senescence. This project will identify the mechanisms that enable plants to escape senescence. Using a unique global demographic database, the project will determine whether, how and when senescence has evolved a ....Is plant organisation the fountain of eternal youth? The decline in performance at advanced ages, senescence, affects life quality, lifespan and productivity. It is believed that this phenomenon is universal, including all species from microbes to humans. Yet, some plants do not exhibit senescence. This project will identify the mechanisms that enable plants to escape senescence. Using a unique global demographic database, the project will determine whether, how and when senescence has evolved across 850 plant species. It will also experimentally test how drought, nutrients and resprouting affect senescence in two mallee Eucalyptus species in the Simpson Desert. This research will provide new insights into the evolution of senescence and will elucidate how some plants escape a supposedly unavoidable fate.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
On the importance of sex in plants: determining which biotic and environmental factors favour sexual versus clonal reproduction. This project will use plants to provide novel tests of the idea that sex helps species escape from their parasites and pathogens, and that sexual species are faster to adapt to changed environmental conditions than are clonal species. The findings will help predict how plants will respond to future changes in climate and parasite pressure.