Know thyself: Development of metacognition in childhood and adolescence. This project aims to advance our understanding of the development of children and adolescents’ insight into their own thoughts and behaviours, or metacognition. Individual differences in metacognition impact learning and contribute to the educational achievement gap observed in many countries, including Australia. By combining analysis of existing international cohort data and state-of-the art developmentally appropriate ne ....Know thyself: Development of metacognition in childhood and adolescence. This project aims to advance our understanding of the development of children and adolescents’ insight into their own thoughts and behaviours, or metacognition. Individual differences in metacognition impact learning and contribute to the educational achievement gap observed in many countries, including Australia. By combining analysis of existing international cohort data and state-of-the art developmentally appropriate neuroimaging methodology, the project is expected to create new basic research knowledge. An intended benefit is the development and evaluation of an evidence-based intervention to enhance the metacognitive skills of primary and secondary school pupils and improve their achievement in mathematics.Read moreRead less
The impact of circadian and sleep factors on neurodevelopment. This project aims to longitudinally examine the contributions of multiple circadian and sleep factors on the development of the teen brain. Adolescence is associated with a change in the internal body clock, leading to later bed and wake times and loss of sleep. It is also a time when the teenage brain is rapidly maturing to support learning. Despite the known importance of sleep in adolescence we know little about how the circadian ....The impact of circadian and sleep factors on neurodevelopment. This project aims to longitudinally examine the contributions of multiple circadian and sleep factors on the development of the teen brain. Adolescence is associated with a change in the internal body clock, leading to later bed and wake times and loss of sleep. It is also a time when the teenage brain is rapidly maturing to support learning. Despite the known importance of sleep in adolescence we know little about how the circadian clock and sleep impacts the developing brain. Our project expects to advance understanding of the importance of sleep and circadian timing for healthy brain and cognitive development. This knowledge will inform policy and prevention/intervention programs to benefit individuals, parents and the community.Read moreRead less
Social buffering of fear inhibition in adolescent rats. Adolescence is an important time when individuals learn to manage stress-related emotions like fear. Peers can help, or hinder, individuals to regulate fear. This project aims to understand how, when, and for whom social buffering of fear regulation occurs during adolescence. It uses a behavioural, pharmacological, and neural approach to explore these issues. The project aims to close the gap in understanding of how social companions affect ....Social buffering of fear inhibition in adolescent rats. Adolescence is an important time when individuals learn to manage stress-related emotions like fear. Peers can help, or hinder, individuals to regulate fear. This project aims to understand how, when, and for whom social buffering of fear regulation occurs during adolescence. It uses a behavioural, pharmacological, and neural approach to explore these issues. The project aims to close the gap in understanding of how social companions affect basic learning and memory processes in an understudied population of adolescents. The expected outcomes of this project include a richer knowledge of how peers shape emotional regulation during development, which will ultimately inform social-based approaches for improving emotion regulation in youth.
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Australian Laureate Fellowships - Grant ID: FL220100184
Funder
Australian Research Council
Funding Amount
$2,897,256.00
Summary
Next-generation maps and models of the human brain. This project aims to develop a new framework for understanding how the anatomy of the brain shapes its function and influences individual differences in human behaviour. The project expects to develop innovative methods for mapping and modelling human brain function by combining techniques from neuroscience, physics, informatics, psychology, and genetics. Expected outcomes include new tools for analysing brain imaging data, new models of brain ....Next-generation maps and models of the human brain. This project aims to develop a new framework for understanding how the anatomy of the brain shapes its function and influences individual differences in human behaviour. The project expects to develop innovative methods for mapping and modelling human brain function by combining techniques from neuroscience, physics, informatics, psychology, and genetics. Expected outcomes include new tools for analysing brain imaging data, new models of brain structure and function, an understanding of how genes shape brain architecture, and a comprehensive characterization of how individual differences in brain organization relate to behaviour. These outcomes should benefit our understanding of how the brain works and of the biological basis of behaviour.Read moreRead less
Discovery Early Career Researcher Award - Grant ID: DE230100498
Funder
Australian Research Council
Funding Amount
$453,868.00
Summary
Mapping the genetics of brain connectivity. The brain is a complex biological system that gives rise to our consciousness, thoughts, and experiences, yet we still do not know how this complexity emerges. This project aims to comprehensively investigate the genetics of brain connectivity combining cutting-edge techniques in neuroimaging, genomics, mathematical modelling, and cognitive neuroscience, focusing specifically on the connectivity of functionally important brain network hubs. The outcome ....Mapping the genetics of brain connectivity. The brain is a complex biological system that gives rise to our consciousness, thoughts, and experiences, yet we still do not know how this complexity emerges. This project aims to comprehensively investigate the genetics of brain connectivity combining cutting-edge techniques in neuroimaging, genomics, mathematical modelling, and cognitive neuroscience, focusing specifically on the connectivity of functionally important brain network hubs. The outcomes will provide a mechanistic understanding of the genetic origins of brain network formation and an explanation for how genetic influences on brain organisation shape human behaviour advancing the fundamental knowledge about the complexity of the brain.Read moreRead less
Developing the dunnart as a marsupial model for conservation research. The Australian bushfire crisis of 2020 has taken an enormous toll on our unique wildlife. With no halt in sight to rising global temperatures, more extreme weather events are predicted to increase in frequency and severity. We simply must act now to preserve our unique native mammals in Australia and safeguard against species loss and irreversible declines in genetic diversity. This project will develop methods for the genera ....Developing the dunnart as a marsupial model for conservation research. The Australian bushfire crisis of 2020 has taken an enormous toll on our unique wildlife. With no halt in sight to rising global temperatures, more extreme weather events are predicted to increase in frequency and severity. We simply must act now to preserve our unique native mammals in Australia and safeguard against species loss and irreversible declines in genetic diversity. This project will develop methods for the generation and preservation of stem cells from a range of our most endangered and vulnerable marsupial species. These cells not only allow us to ‘bank’ species and genetic diversity but also provide a route to enabling genetic manipulation, opening up a completely new niche for conservation biology in marsupials.Read moreRead less
The evolution of the alternation of generations in land plants. This project aims to investigate how a genetic system, comprised of a homeodomain protein encoding gene family controlling the haploid to diploid transition, has evolved during land plant evolution.
The project expects to generate new knowledge concerning the evolution of land plants from which our food and fibre are derived.
The intended outcomes include an elucidation of how an ancestral genetic network was elaborated during the e ....The evolution of the alternation of generations in land plants. This project aims to investigate how a genetic system, comprised of a homeodomain protein encoding gene family controlling the haploid to diploid transition, has evolved during land plant evolution.
The project expects to generate new knowledge concerning the evolution of land plants from which our food and fibre are derived.
The intended outcomes include an elucidation of how an ancestral genetic network was elaborated during the evolution of a multicelluar organism, including the retention of ancestral functions and the origins of new functions.
An anticipated benefit is the ability to manipulate the the growth and development of plants based on fundamental principles, which has broad agricultural implications.Read moreRead less
The origin and evolution of the land plant meristem. This project aims to identify the extent of overlap between the genetic determinants of the gametophyte and sporophyte shoot meristems.
The project expects to generate new knowledge of the evolution and development of land plants by applying comparative genomics and new technologies to a novel model genetic system.
Expected outcomes include an elucidation of the genetic basis for one of the key morphological adaptations for life on land.
Th ....The origin and evolution of the land plant meristem. This project aims to identify the extent of overlap between the genetic determinants of the gametophyte and sporophyte shoot meristems.
The project expects to generate new knowledge of the evolution and development of land plants by applying comparative genomics and new technologies to a novel model genetic system.
Expected outcomes include an elucidation of the genetic basis for one of the key morphological adaptations for life on land.
The ability to manipulate the growth and development of plants via the activity of meristems based on fundamental principles has broad agricultural implications.
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