The Functional Significance of Motor Laterality. Just as humans are left- or right-handed, dogs are left-and right-pawed and, most importantly, left-pawed individuals tend towards innate fearfulness. Using dogs as a model, this project will explore lateralisation in general.
Guide dogs and police dogs are required to work only on one side of their handlers. This convention is likely to affect the work of individual dogs. This project will examine the extent to which pawedness predicts success ....The Functional Significance of Motor Laterality. Just as humans are left- or right-handed, dogs are left-and right-pawed and, most importantly, left-pawed individuals tend towards innate fearfulness. Using dogs as a model, this project will explore lateralisation in general.
Guide dogs and police dogs are required to work only on one side of their handlers. This convention is likely to affect the work of individual dogs. This project will examine the extent to which pawedness predicts success in working dog training. It has the potential to reduce wastage that comes from recruitment of unsuitable dogs and will also improve our understanding of family pets.
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Visual processing of objects defined by coherent motion. Although the human brain can easily decode the complex visual scene, little is known about how the responsible neural circuits operate. For example, how is it that a camouflaged animal, such as a moth on the bark of a tree, becomes visible once it moves? To better understand the processes, this project aims to determine how different visual areas of the brain interact with each other to create a network that is responsible for detecting ....Visual processing of objects defined by coherent motion. Although the human brain can easily decode the complex visual scene, little is known about how the responsible neural circuits operate. For example, how is it that a camouflaged animal, such as a moth on the bark of a tree, becomes visible once it moves? To better understand the processes, this project aims to determine how different visual areas of the brain interact with each other to create a network that is responsible for detecting moving camouflaged objects. Knowing this will enable us to better understand the organisation and limitations of the brain.Read moreRead less
Resurgent Sodium Currents in Peripheral Nerve Axons and Sensory Neurones. This project seeks evidence that unusual gating of sodium channels contributes to the hyperexcitability that results in spontaneous impulse activity in sensory axons. It asks whether axons normally behave as if they have this gating mode, whether it can be induced, whether any such behaviour is more prominent with sensory axons than motor, and whether the current can be measured directly in sensory neurones. The project is ....Resurgent Sodium Currents in Peripheral Nerve Axons and Sensory Neurones. This project seeks evidence that unusual gating of sodium channels contributes to the hyperexcitability that results in spontaneous impulse activity in sensory axons. It asks whether axons normally behave as if they have this gating mode, whether it can be induced, whether any such behaviour is more prominent with sensory axons than motor, and whether the current can be measured directly in sensory neurones. The project is the first to involve correlation of patch-clamp recordings with the behaviour of intact axons. Its outcomes will affect thought about sodium channel behaviour and may alter approaches to disorders of axonal excitability.Read moreRead less
The entrainment of circadian rhythms in marsupial mammals: behavioural and sub-cellular investigation of non-rod, non-cone ocular photoreceptors. Our investigation will provide a contribution to understanding the role that photoreceptors play in the mechanisms that control circadian rhythms and will ultimately lead to a better understanding of the basic physiology of sleep and circadian cycles, their contribution to learning and memory and their impact on waking performance. Targeted drug develo ....The entrainment of circadian rhythms in marsupial mammals: behavioural and sub-cellular investigation of non-rod, non-cone ocular photoreceptors. Our investigation will provide a contribution to understanding the role that photoreceptors play in the mechanisms that control circadian rhythms and will ultimately lead to a better understanding of the basic physiology of sleep and circadian cycles, their contribution to learning and memory and their impact on waking performance. Targeted drug development and the design of lighting systems effective in regulating circadian rhythms will improve the quality of life and competitiveness of the many citizens who endure abnormal sleep/wakefulness schedules.Read moreRead less
An Investigation of Intersubjectivity: Music Therapy and Hospitalised Infants. A contingent relationship is vital for normal infant development. The Neonatal Intensive Care Unit, which supplies life-saving modern medical technology to very sick infants, is also an environment where contingency is rarely available to the infant . In this environment, a Music Therapist ?improvising? with the infant, can re-introduce contingency to the infant, and encourage infant self-regulation. This project inv ....An Investigation of Intersubjectivity: Music Therapy and Hospitalised Infants. A contingent relationship is vital for normal infant development. The Neonatal Intensive Care Unit, which supplies life-saving modern medical technology to very sick infants, is also an environment where contingency is rarely available to the infant . In this environment, a Music Therapist ?improvising? with the infant, can re-introduce contingency to the infant, and encourage infant self-regulation. This project investigates the efficacy of a Music Therapy intervention in improving infant health, and micro-analyses the interaction between infant and therapist in order to further understand the nature of the Communicative Musicality of the interaction.Read moreRead less
Understanding how the primate brain processes visual information. Being able to see is a crucial aspect of our daily lives, which happens so effortlessly that it tends to be taken for granted. In comparison with other animals and artificial systems, the primate visual cortex is unsurpassed in its capacity to interpret complex and dynamic environments, in a manner that is fast and computationally robust. Discovering how this happens in terms of interactions between cells in the brain can help us ....Understanding how the primate brain processes visual information. Being able to see is a crucial aspect of our daily lives, which happens so effortlessly that it tends to be taken for granted. In comparison with other animals and artificial systems, the primate visual cortex is unsurpassed in its capacity to interpret complex and dynamic environments, in a manner that is fast and computationally robust. Discovering how this happens in terms of interactions between cells in the brain can help us design more efficient artificial systems capable of vision. This in turn can have profound implications for the creation of new technologies such as artificial eyes, autonomous robots, and intelligent sensors, and may also result in future benefits for medical science.Read moreRead less
The major histocompatibility complex and scent-mediated mate choice in a Procellariiform, Gould's petrel. In Australia, there are 25 species of Procellariiformes listed as threatened or endangered under the Environment Protection and Biodiversity Conservation Act 1999. Formulating comprehensive conservation plans for endangered species requires a good understanding of the species' breeding biology yet virtually nothing is known about the mechanisms involved in mate choice in the procellariiforms ....The major histocompatibility complex and scent-mediated mate choice in a Procellariiform, Gould's petrel. In Australia, there are 25 species of Procellariiformes listed as threatened or endangered under the Environment Protection and Biodiversity Conservation Act 1999. Formulating comprehensive conservation plans for endangered species requires a good understanding of the species' breeding biology yet virtually nothing is known about the mechanisms involved in mate choice in the procellariiforms. A better understanding of the traits these long-lived birds use when choosing their lifelong breeding partner could greatly benefit conservation strategies designed to protect them. This could be particularly beneficial where translocation is an option because birds being translocated could be assessed for compatibility prior to translocation.Read moreRead less
Emotion development and adolescent depression: An analysis of gender differences. This project will investigate the differing role of empathy and guilt in the development of depression over time. Consistent with Izard's emotion perspective, it is predicted that these emotions will become more strongly correlated with depression in the post-adolescence compared to the pre-adolescent years. This strengthening of association will be most marked for specific sub-groups (e.g. females compared to mal ....Emotion development and adolescent depression: An analysis of gender differences. This project will investigate the differing role of empathy and guilt in the development of depression over time. Consistent with Izard's emotion perspective, it is predicted that these emotions will become more strongly correlated with depression in the post-adolescence compared to the pre-adolescent years. This strengthening of association will be most marked for specific sub-groups (e.g. females compared to males; individuals scoring high on empathy and low on emotion regulation). The expected outcomes will lead to a more sophisticated understanding of the development of depression. They will have significant implications for the development/refinement of preventative/intervention strategies for depression during pre-adolescence.Read moreRead less
Verification of a theoretical model of the dynamical genesis of brain electrical activity. The physiological basis for the rhythmic scalp electrical activity known as the alpha rhythm has remained elusive despite being first recorded over eighty years ago. However, one of the applicants (DTJL) has developed a novel theory of the electroencephalogram (EEG) that theoretically articulates the necessary physiological conditions required for the genesis of this activity that is subject to rigorous e ....Verification of a theoretical model of the dynamical genesis of brain electrical activity. The physiological basis for the rhythmic scalp electrical activity known as the alpha rhythm has remained elusive despite being first recorded over eighty years ago. However, one of the applicants (DTJL) has developed a novel theory of the electroencephalogram (EEG) that theoretically articulates the necessary physiological conditions required for the genesis of this activity that is subject to rigorous experimental test. Empirical verification of this theory will pave the way to elucidating the functional importance of large scale brain electrical activity in neural information processing as well as enabling the rational use of the EEG for drug design and diagnosis.Read moreRead less
Colour vision and photoreceptors in reef fish: a model system to discover the function of double cones. Humans are visual animals and as lucky Australians we love to look at The Great Barrier Reef. This project, while rooted in the complexities of visual neurobiology, uses a recently discovered set of 4 different reef fish from the GBR to teach us more about fundamental principles in vision. These fish, diverse as damselfish and snappers, will help solve a mystery centuries old. Double cones are ....Colour vision and photoreceptors in reef fish: a model system to discover the function of double cones. Humans are visual animals and as lucky Australians we love to look at The Great Barrier Reef. This project, while rooted in the complexities of visual neurobiology, uses a recently discovered set of 4 different reef fish from the GBR to teach us more about fundamental principles in vision. These fish, diverse as damselfish and snappers, will help solve a mystery centuries old. Double cones are the commonest daytime photoreceptor in the eyes of almost all vertebrates (humans without them are exceptions) and yet nobody knows what they do. Reef fish have them, so let's ask them what they see!Read moreRead less