Environmental and physiological drivers of immune function in frogs. This project aims to investigate how ultraviolet B radiation and temperature interact during early development to influence amphibian physiology. The environment can shape ecological processes through effects on an individuals' physiology. The project will combine genetic, biochemical and physiological approaches to investigate the effects of ultraviolet B and temperature on a key fitness determinant – immune system function. T ....Environmental and physiological drivers of immune function in frogs. This project aims to investigate how ultraviolet B radiation and temperature interact during early development to influence amphibian physiology. The environment can shape ecological processes through effects on an individuals' physiology. The project will combine genetic, biochemical and physiological approaches to investigate the effects of ultraviolet B and temperature on a key fitness determinant – immune system function. The project expects to provide information on how environmental conditions experienced during development influence the growth and fitness of frogs. This will improve our capacity to forecast potential ecological-level effects of environmental change on amphibians.Read moreRead less
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
Epigenetic effects of environmental thyroid disruption. Anthropogenic impacts increasingly disrupt hormone-mediated responses to environmental change. The project aims to determine the interactive effects of climate warming, light-at-night, and plastic pollution on thyroid hormone signalling, and test whether these effects are passed between generations epigenetically. Epigenetic effects of endocrine disruption are one of the most important emerging conservation threats. Mathematical modelling o ....Epigenetic effects of environmental thyroid disruption. Anthropogenic impacts increasingly disrupt hormone-mediated responses to environmental change. The project aims to determine the interactive effects of climate warming, light-at-night, and plastic pollution on thyroid hormone signalling, and test whether these effects are passed between generations epigenetically. Epigenetic effects of endocrine disruption are one of the most important emerging conservation threats. Mathematical modelling of experimental data will help to predict how animals respond to anthropogenic impacts, and to acquire the tools necessary to maintain ecosystem function and services. The project will therefore have environmental benefits, as well as social benefits stemming from international collaborations and training.Read moreRead less
Investigating memory reliability in intoxicated witnesses of crime. Eyewitness testimony is a crucial piece of evidence for solving a crime. Inaccurate testimony leads to miscarriages of justice such as failed prosecutions or false convictions. Many witnesses and victims are affected by alcohol or other drugs during the crime. This project brings together a multidisciplinary team aiming to improve understanding of how intoxication with different substances affects the reliability of victim and w ....Investigating memory reliability in intoxicated witnesses of crime. Eyewitness testimony is a crucial piece of evidence for solving a crime. Inaccurate testimony leads to miscarriages of justice such as failed prosecutions or false convictions. Many witnesses and victims are affected by alcohol or other drugs during the crime. This project brings together a multidisciplinary team aiming to improve understanding of how intoxication with different substances affects the reliability of victim and witness memory accuracy. Crucially, crimes are frequently distressing; therefore the interaction between intoxication and stress urgently requires exploration. This project will significantly advance our understanding of key mechanisms behind drug effects on memory, and support fairer judicial outcomes for all. Read moreRead less
Discovery Early Career Researcher Award - Grant ID: DE190100694
Funder
Australian Research Council
Funding Amount
$372,014.00
Summary
Does disconnection in the aging brain cause age-related movement decline? This project aims to use new neurophysiological approaches to understand the causal role of age-related changes in brain network connectivity to the movement control. Brain regions interact through complex and dynamic neural networks to control voluntary movement, but whether age-related changes in network connectivity drive age-related decline in movement control is unknown. This project will provide significant benefits ....Does disconnection in the aging brain cause age-related movement decline? This project aims to use new neurophysiological approaches to understand the causal role of age-related changes in brain network connectivity to the movement control. Brain regions interact through complex and dynamic neural networks to control voluntary movement, but whether age-related changes in network connectivity drive age-related decline in movement control is unknown. This project will provide significant benefits such as the neurophysiological knowledge required to develop targeted interventions to improve movement control in the aging population.Read moreRead less
Discovery Early Career Researcher Award - Grant ID: DE200100575
Funder
Australian Research Council
Funding Amount
$423,604.00
Summary
Does neuroplasticity protect against late life cognitive impairment? This project aims to investigate neuroplasticity across the adult lifespan, using novel neurophysiological approaches to determine its role in protecting against age-related cognitive decline. This project expects to generate new knowledge in the area of human cognitive ageing, using an innovative and interdisciplinary approach. Expected outcomes of this project include a critical understanding of the basic neural mechanisms of ....Does neuroplasticity protect against late life cognitive impairment? This project aims to investigate neuroplasticity across the adult lifespan, using novel neurophysiological approaches to determine its role in protecting against age-related cognitive decline. This project expects to generate new knowledge in the area of human cognitive ageing, using an innovative and interdisciplinary approach. Expected outcomes of this project include a critical understanding of the basic neural mechanisms of healthy brain ageing. This will provide significant benefits, such as the neurophysiological knowledge required to develop novel biological markers to detect, as well as therapeutic agents to curb, cognitive decline in the aging population.Read moreRead less
Understanding working memory: from cells to brain stimulation. This project aims to understand the neural mechanisms of working memory, a fundamental cognitive function in humans, using a novel framework which combines non-invasive brain stimulation, neuroimaging, pharmacological and experimental manipulations, and biological modelling. Expected outcomes include a critical understanding of the cellular mechanisms underlying both neural activity and working memory ability in healthy individuals a ....Understanding working memory: from cells to brain stimulation. This project aims to understand the neural mechanisms of working memory, a fundamental cognitive function in humans, using a novel framework which combines non-invasive brain stimulation, neuroimaging, pharmacological and experimental manipulations, and biological modelling. Expected outcomes include a critical understanding of the cellular mechanisms underlying both neural activity and working memory ability in healthy individuals and a detailed knowledge of how to non-invasively interact with these mechanisms using brain stimulation. This will provide significant benefits such as the development of individually optimised brain stimulation protocols, enabling tailored approaches to reliably alter brain function and cognition.Read moreRead less
Extinction of conditioned responding: Learning from the evidence of absence. When animals or people learn that a cue, or their own action, is followed by something important, they respond in anticipation of the outcome or to control it. This project investigates how these learned responses can be reduced (“extinguished”) when the conditions that established them change. It will help solve 2 outstanding theoretical and practical problems: what makes some learned behaviours resistant to extinction ....Extinction of conditioned responding: Learning from the evidence of absence. When animals or people learn that a cue, or their own action, is followed by something important, they respond in anticipation of the outcome or to control it. This project investigates how these learned responses can be reduced (“extinguished”) when the conditions that established them change. It will help solve 2 outstanding theoretical and practical problems: what makes some learned behaviours resistant to extinction or prone to relapse after being extinguished? The project will identify the factors that are most directly responsible for resistance and relapse. This could pave the way to finding solutions for the major problems that bedevil therapies designed to treat human behavioural disorders, such as addictions, gambling, and anxietyRead 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