Manipulative tests of metabolic theory. This project aims to take a new interdisciplinary approach to understanding how energy flows through individuals, populations, communities, and ecosystems. The project expects to develop a new framework for understanding the function of biological systems, bringing together the fields of physiology, ecology, and evolutionary biology, generating research publications, and training students in interdisciplinary research. The proposed research is anticipated ....Manipulative tests of metabolic theory. This project aims to take a new interdisciplinary approach to understanding how energy flows through individuals, populations, communities, and ecosystems. The project expects to develop a new framework for understanding the function of biological systems, bringing together the fields of physiology, ecology, and evolutionary biology, generating research publications, and training students in interdisciplinary research. The proposed research is anticipated to provide a means for understanding how management interventions can alter energy flows in biological systems, bringing benefits across the areas of climate change adaptation, conservation science, agriculture and aquaculture, and fisheries management.Read moreRead less
A new model for animal growth. This project aims to test and further develop a new theory for how animals grow. The new growth theory brings together the fields of physiology, ecology, and evolutionary biology, generating research publications, and training students. The proposed research is anticipated to provide a fundamentally new means for understanding how animals divide energy among growth and reproduction, paving the way for organismal allocation to these processes to be optimised by sele ....A new model for animal growth. This project aims to test and further develop a new theory for how animals grow. The new growth theory brings together the fields of physiology, ecology, and evolutionary biology, generating research publications, and training students. The proposed research is anticipated to provide a fundamentally new means for understanding how animals divide energy among growth and reproduction, paving the way for organismal allocation to these processes to be optimised by selective breeding or genetic manipulation, yielding potential benefits for aquaculture (enhanced growth) or re-introduction (enhanced reproduction).Read moreRead less
CogChip: development of a targeted genotyping chip for executive function. This project aims to use DNA sequencing technology to identify the genetics of executive function. Our capacities to focus on a task at hand, to filter distractions and to inhibit unwanted impulses, are collectively referred to as executive functions. Executive function varies on a continuum in the general population across the lifespan, with individual differences largely due to differences in underlying genetics. The pr ....CogChip: development of a targeted genotyping chip for executive function. This project aims to use DNA sequencing technology to identify the genetics of executive function. Our capacities to focus on a task at hand, to filter distractions and to inhibit unwanted impulses, are collectively referred to as executive functions. Executive function varies on a continuum in the general population across the lifespan, with individual differences largely due to differences in underlying genetics. The project proposes to leverage this knowledge to develop a customised genotyping chip, which may find application for prediction of individual differences in executive ability across multiple settings including education and industry. Expected outcomes for the project will include breakthrough insights into the biology of cognition, and a genetic read-out of individual differences in executive ability, which could have broad application including the potential to facilitate the targeting of cognitive, educational or workplace training for those most at risk of adverse outcomes.Read moreRead less
How exercise modulates neural plasticity and memory consolidation. This project aims to examine how genetic variation in humans affects the capacity of exercise to augment neural plasticity and learning. This project expects to generate new knowledge through an innovative approach combining genetics, exercise physiology, and cognitive neuroscience. It is expected the outcomes will have implications for human learning, workplace productivity, and training protocols for rehabilitation and sport. E ....How exercise modulates neural plasticity and memory consolidation. This project aims to examine how genetic variation in humans affects the capacity of exercise to augment neural plasticity and learning. This project expects to generate new knowledge through an innovative approach combining genetics, exercise physiology, and cognitive neuroscience. It is expected the outcomes will have implications for human learning, workplace productivity, and training protocols for rehabilitation and sport. Exercise is a cheap way to enhance neural plasticity and improve behavioural performance, which is of benefit to employers, our economy, and individuals. A possible future application of this research could be the personalised prescription of exercise for brain health based on an individual’s genetics.Read moreRead less
The desire for knowledge: Neural mechanisms of information-seeking. This project aims to determine the mechanisms that drive individuals to seek out information, and to characterise the neural processes that underlie how that information is valued. The project tests the idea that information is represented in the brain as a form of reward. The results are expected to contribute significant mechanistic insights at the level of brain and behaviour on the nature of information value. This is likely ....The desire for knowledge: Neural mechanisms of information-seeking. This project aims to determine the mechanisms that drive individuals to seek out information, and to characterise the neural processes that underlie how that information is valued. The project tests the idea that information is represented in the brain as a form of reward. The results are expected to contribute significant mechanistic insights at the level of brain and behaviour on the nature of information value. This is likely to have wide-ranging implications across multiple domains of human endeavour, including education, work-place efficiency, policy development, and consumer behaviour.Read moreRead less
Discovery Early Career Researcher Award - Grant ID: DE220101508
Funder
Australian Research Council
Funding Amount
$447,000.00
Summary
A Brain-Behaviour Model of Decision-Making Under Distraction. People make thousands of decisions each day, such as judging whether it is safe to cross the street at a busy intersection. This project aims to investigate how decision-making is impacted when a person is temporarily distracted, for example when receiving a text message alert from one’s phone. By combining recordings of brain activity with cutting-edge mathematical modelling techniques, this project expects to develop a novel theoret ....A Brain-Behaviour Model of Decision-Making Under Distraction. People make thousands of decisions each day, such as judging whether it is safe to cross the street at a busy intersection. This project aims to investigate how decision-making is impacted when a person is temporarily distracted, for example when receiving a text message alert from one’s phone. By combining recordings of brain activity with cutting-edge mathematical modelling techniques, this project expects to develop a novel theoretical framework that captures the effects of distraction on brain networks that underpin human decision-making performance. This knowledge should be highly beneficial for developing informed policies that reduce effects of distraction and preserve decision-making capacity in safety critical situations.Read moreRead less
Functional impact of high fat and high sugar diets on memory encoding. This project aims to determine the functional mechanisms of how fats and sugar affect neuronal processes vital for learning and memory. Expected outcomes will define the neural mechanisms underpinning cognitive changes in emotional and spatial memory encoding, and how these relate to brain and metabolic parameters. This will provide benefits by unveiling the possible consequences of dietary fat and sugar on the brain, and th ....Functional impact of high fat and high sugar diets on memory encoding. This project aims to determine the functional mechanisms of how fats and sugar affect neuronal processes vital for learning and memory. Expected outcomes will define the neural mechanisms underpinning cognitive changes in emotional and spatial memory encoding, and how these relate to brain and metabolic parameters. This will provide benefits by unveiling the possible consequences of dietary fat and sugar on the brain, and the mechanisms of neuroplasticity enhancing interventions.Read moreRead less
Linking arterial, brain and cognitive integrity in healthy older adults. This project aims to demonstrate that engaging the brain’s prefrontal cortex, an area that is highly sensitive to ageing, can improve the function of arteries that supply blood to this brain region. Using an innovative optical imaging methodology that maps the brain’s regional arterial health, it aims to generate new knowledge about the link between this arterial system and the progressive decline in cognitive control abili ....Linking arterial, brain and cognitive integrity in healthy older adults. This project aims to demonstrate that engaging the brain’s prefrontal cortex, an area that is highly sensitive to ageing, can improve the function of arteries that supply blood to this brain region. Using an innovative optical imaging methodology that maps the brain’s regional arterial health, it aims to generate new knowledge about the link between this arterial system and the progressive decline in cognitive control ability and in prefrontal cortex structure and function in healthy older adults. This interdisciplinary, international collaboration aims to put Australia at the forefront of brain optical imaging methods that may have significant benefits by informing approaches to promote and maintain healthy brain and cognition in old age.Read moreRead less
Discovery Early Career Researcher Award - Grant ID: DE200101708
Funder
Australian Research Council
Funding Amount
$406,821.00
Summary
New directions for using brain stimulation to understand brain function. Neuroplasticity is of fundamental importance to brain function as it mediates learning, memory and development. Deficits in neuroplasticity are observed in a number of neurological conditions and thought to contribute to cognitive dysfunction. This study is designed to develop a better understanding of the neurochemical and genetic factors impacting on neuroplasticity. In addition, it aims to (i) upregulate brain connectivi ....New directions for using brain stimulation to understand brain function. Neuroplasticity is of fundamental importance to brain function as it mediates learning, memory and development. Deficits in neuroplasticity are observed in a number of neurological conditions and thought to contribute to cognitive dysfunction. This study is designed to develop a better understanding of the neurochemical and genetic factors impacting on neuroplasticity. In addition, it aims to (i) upregulate brain connectivity in a precise and targeted manner, (ii) elicit functional increases in cognitive performance and (iii) demonstrate the relationship between functional connectivity and cognition. Outcomes include a better understanding of plasticity in the brain & a enhanced capacity to examine and modulate brain plasticity.Read moreRead less
Individualised predictions of circadian timing, sleep, and performance. The body's 24-hour clock regulates when we feel sleepy or alert. In shift workers, disrupted sleep and rhythms leads to fatigue and costly, often deadly, workplace accidents. Existing methods for measuring body clock timing are costly, impractical for operational settings, and do not work in real time. Using a shift-worker population, this project will develop models that accurately predict body timing, sleep/wake patterns, ....Individualised predictions of circadian timing, sleep, and performance. The body's 24-hour clock regulates when we feel sleepy or alert. In shift workers, disrupted sleep and rhythms leads to fatigue and costly, often deadly, workplace accidents. Existing methods for measuring body clock timing are costly, impractical for operational settings, and do not work in real time. Using a shift-worker population, this project will develop models that accurately predict body timing, sleep/wake patterns, and performance for an individual, requiring only a simple activity/light sensor and an assessment of the body clock's sensitivity to light. The new model would revolutionise fatigue management and make safer work environments for millions of shift workers. Read moreRead less