Discovery Early Career Researcher Award - Grant ID: DE240100950
Funder
Australian Research Council
Funding Amount
$459,051.00
Summary
Identifying hypothalamic circuits that integrate stress and metabolism. This project aims to investigate how the brain integrates threat during hunger. Using cutting-edge technology to manipulate and record neural activity this project will elucidate the brain circuits that integrate threat and appetite to minimize stress exposure during foraging. This will expand our knowledge on how the brain perceives and responds to hunger and may provide relevant information for a large number of basic biol ....Identifying hypothalamic circuits that integrate stress and metabolism. This project aims to investigate how the brain integrates threat during hunger. Using cutting-edge technology to manipulate and record neural activity this project will elucidate the brain circuits that integrate threat and appetite to minimize stress exposure during foraging. This will expand our knowledge on how the brain perceives and responds to hunger and may provide relevant information for a large number of basic biological processes controlling the brain. Expected outcomes of this project will contribute to a better understanding of the circuitry controlling more complex decisions from food selection through to social interactions. This should provide significant benefits for Australia’s competitiveness within neuroscience research.Read moreRead less
Discovery Early Career Researcher Award - Grant ID: DE230101556
Funder
Australian Research Council
Funding Amount
$423,206.00
Summary
Investigating the responses of Australian native bees to climatic warming. This project aims to investigate changes to native bee cognition, morphology, and pollination capability in response to climatic warming. Using emerging experimental methods for behavioural testing and state-of-the-art 3D modelling of museum specimens, the project expects to identify which species are likely to experience change under future climate scenarios. This project expects to determine if increased temperatures ca ....Investigating the responses of Australian native bees to climatic warming. This project aims to investigate changes to native bee cognition, morphology, and pollination capability in response to climatic warming. Using emerging experimental methods for behavioural testing and state-of-the-art 3D modelling of museum specimens, the project expects to identify which species are likely to experience change under future climate scenarios. This project expects to determine if increased temperatures cause pollination deficits through impaired bee cognition and changed morphology. The knowledge gained in this project will allow us to identify vulnerable species and develop strategies across agriculture, government, and community sectors to support pollination and inform conservation priorities.Read moreRead less