Ecophysiology of water-holding frogs in the Australian arid-zone. Water-holding frogs of arid-zone Australia have an Aboriginal heritage and cultural significance, but many aspects of their natural history, physiology and reproduction are poorly known or documented. We will examine behaviour, physiology, endocrinology, reproductive cycles and movements for these frogs (Cyclorana, Neobatrachus, Notaden, Heleioporus) while active on the surface, and cocoon formation, subterranean movements and dyn ....Ecophysiology of water-holding frogs in the Australian arid-zone. Water-holding frogs of arid-zone Australia have an Aboriginal heritage and cultural significance, but many aspects of their natural history, physiology and reproduction are poorly known or documented. We will examine behaviour, physiology, endocrinology, reproductive cycles and movements for these frogs (Cyclorana, Neobatrachus, Notaden, Heleioporus) while active on the surface, and cocoon formation, subterranean movements and dynamics of water exchange with the soil, metabolic depression, muscle ATP energetics, endocrinology and aspects of reproduction while aestivating underground. We have the expertise and prior experience to accomplish all aspects of the proposed studies.Read moreRead less
The Role of Torpor in the Life of Arid Zone Mammals. Global warming is predicted to significantly affect our climate. The study will provide critical information about the thermal and energetic capabilities and requirements of native Australian mammals. As little is known about the functional adaptations of arid zone mammals in the wild, these results will be a significant advancement in knowledge about the biology of native Australian species. The data will allow us to predict whether and how p ....The Role of Torpor in the Life of Arid Zone Mammals. Global warming is predicted to significantly affect our climate. The study will provide critical information about the thermal and energetic capabilities and requirements of native Australian mammals. As little is known about the functional adaptations of arid zone mammals in the wild, these results will be a significant advancement in knowledge about the biology of native Australian species. The data will allow us to predict whether and how populations may be affected in the future and provide wildlife managers with an additional tool for making appropriate and sound decisions for the conservation of wildlife. Moreover, the project will enhance the scientific standing of Australia, improve international collaboration, and train students.Read moreRead less
Cool mammals: responding to thermal and energetic challenges in the Australian tropics. A detailed understanding of thermal biology and energy use of mammals is essential for predicting how they will respond to climate change. As little is known about the functional and behavioural traits of Australian tropical mammals, the proposed work investigating the thermal energetics and foraging biology of eleven native species will result in a significant advancement in knowledge. This information will ....Cool mammals: responding to thermal and energetic challenges in the Australian tropics. A detailed understanding of thermal biology and energy use of mammals is essential for predicting how they will respond to climate change. As little is known about the functional and behavioural traits of Australian tropical mammals, the proposed work investigating the thermal energetics and foraging biology of eleven native species will result in a significant advancement in knowledge. This information will provide wildlife managers with an additional tool for making sound science-based decisions for the conservation of wildlife now and in the future. The project will train students, improve international collaboration, and substantially enhance the international scientific standing of Australia.Read moreRead less
Assessing gene function in the developing vertebrate brain using zebrafish as a model system. Although the vertebrate brain is the most complicated biological tissue it arises from a very simple sheet of cells during embryogenesis. Groups of nerve cells begin to communicate with each other through long interconnecting processes called axons. This project seeks to understand the role of specific genes in this process. This is the first time that the mechanisms controlling the growth of the ear ....Assessing gene function in the developing vertebrate brain using zebrafish as a model system. Although the vertebrate brain is the most complicated biological tissue it arises from a very simple sheet of cells during embryogenesis. Groups of nerve cells begin to communicate with each other through long interconnecting processes called axons. This project seeks to understand the role of specific genes in this process. This is the first time that the mechanisms controlling the growth of the earliest axons in the vertebrate brain will be examined in a living brain. Our analysis is expected to discover genes that are targets for manipulation of axon growth.Read moreRead less
Vulnerability to cocaine use: discovering common mechanisms conserved across animal phyla. Drug abuse costs Australia an estimated $ 20 billion each year, and research is urgently needed to understand how drugs cause long-term behavioural dysfunction. Our research will identify the basal cellular mechanisms underlying drug abuse and addiction, which are likely to be the best targets for therapies to prevent and cure addiction. Our findings are also relevant to other neuropsychiatric disorders r ....Vulnerability to cocaine use: discovering common mechanisms conserved across animal phyla. Drug abuse costs Australia an estimated $ 20 billion each year, and research is urgently needed to understand how drugs cause long-term behavioural dysfunction. Our research will identify the basal cellular mechanisms underlying drug abuse and addiction, which are likely to be the best targets for therapies to prevent and cure addiction. Our findings are also relevant to other neuropsychiatric disorders related to drug abuse (e.g. depression, anxiety) that are on the increase in Australia. Our work will enhance Australia's reputation for neuroscience research, and will provide training for students in neuropharmacology and molecular neurobiology.Read moreRead less
Brain lateralization: its function, evolution, development and change with ageing. Brain research is undoubtedly one of the key research fields today. This project involves highly innovative research at the highest international level, keeping Australia at the forefront of research on brain lateralization, a very important field of brain research in humans and animals (co-founded by the applicant). This project 1) investigates dynamic changes of the developing, mature and ageing brain for vital ....Brain lateralization: its function, evolution, development and change with ageing. Brain research is undoubtedly one of the key research fields today. This project involves highly innovative research at the highest international level, keeping Australia at the forefront of research on brain lateralization, a very important field of brain research in humans and animals (co-founded by the applicant). This project 1) investigates dynamic changes of the developing, mature and ageing brain for vital functions using animal models, thus contributing importantly to our understanding of normal functions of the human brain, including some forms of mental dysfunction and also ageing; 2) trains postgraduate students at the highest standards and 3) maintains important collaboration with colleagues in Europe. Read moreRead less
How does habitat complexity drive motor ageing and fitness in wild mammals? This project aims to demonstrate how habitat complexity shapes motor ageing in wild dasyurid marsupials, and to improve these animals’ motor function, slow its decline and increase reproductive output via behavioural and physiological changes. Motor decline should dramatically impact an animal growth, survival and reproduction by affecting how it moves through habitats when foraging, seeking mates, or escaping from preda ....How does habitat complexity drive motor ageing and fitness in wild mammals? This project aims to demonstrate how habitat complexity shapes motor ageing in wild dasyurid marsupials, and to improve these animals’ motor function, slow its decline and increase reproductive output via behavioural and physiological changes. Motor decline should dramatically impact an animal growth, survival and reproduction by affecting how it moves through habitats when foraging, seeking mates, or escaping from predators. However, little is known about the environmental drivers of motor ageing in wild animals. Our project addresses an important gap in the field of evolutionary ecology. Since decline in muscle function affects the quality of Australian's life, our work could lead to important economic and health implications.Read moreRead less
Do crayfish use the information carried by low-level electrical signals in the environment? Many vertebrates detect electric fields. Fish communicate electrically. No invertebrate has been shown to do so. We have evidence that crayfish change their behaviour following exposure to low-level, waterborne electrical signals. Crayfish behaviour is currently the preferred model for studying the neurobiology of social hierarchies in animals. Evidence that information is passing from either predators or ....Do crayfish use the information carried by low-level electrical signals in the environment? Many vertebrates detect electric fields. Fish communicate electrically. No invertebrate has been shown to do so. We have evidence that crayfish change their behaviour following exposure to low-level, waterborne electrical signals. Crayfish behaviour is currently the preferred model for studying the neurobiology of social hierarchies in animals. Evidence that information is passing from either predators or conspecifics through an undescribed electrosensory channel would fundamentally change the direction of that research. Behaviour modification using electrical signals could also prove to be a valuable tool in crustacean aquaculture. This is a proposal to discover the nature and behavioural implications of crayfish electroreception.Read moreRead less
Discovery Early Career Researcher Award - Grant ID: DE200100164
Funder
Australian Research Council
Funding Amount
$387,551.00
Summary
How do neural circuits coordinate to produce adaptive changes in behaviour? This project aims to discover how neurons alter their function in coordinated ways to produce adaptive changes in behaviour. Behavioural outputs result from the activity of multiple cells in a functional network, but current methods are limited to studying signalling effects on single neurons. To address this, I will develop new methods to visualise every cell in the brain of the living nematode worm to provide a unique ....How do neural circuits coordinate to produce adaptive changes in behaviour? This project aims to discover how neurons alter their function in coordinated ways to produce adaptive changes in behaviour. Behavioural outputs result from the activity of multiple cells in a functional network, but current methods are limited to studying signalling effects on single neurons. To address this, I will develop new methods to visualise every cell in the brain of the living nematode worm to provide a unique systems-level understanding of a model brain. Through collaboration with engineers and psychologists, I will describe molecular switches that trigger reorganisation of entire neural networks. Expected outcomes include new insights on neural circuit plasticity, which will advance discovery in neuroscience and robotics.Read moreRead less
Tracking crocodiles in 3-dimensions: A remote monitoring study of movement patterns and diving behaviour. The result from this study will promote a better understanding and appreciation of crocodiles and will help to assist conservation managers in determining population dynamics and movements of crocodiles in Queensland. This study will showcase, on an international stage, Australia as being a leader in crocodilian research and conservation, with the results from this study being actively pres ....Tracking crocodiles in 3-dimensions: A remote monitoring study of movement patterns and diving behaviour. The result from this study will promote a better understanding and appreciation of crocodiles and will help to assist conservation managers in determining population dynamics and movements of crocodiles in Queensland. This study will showcase, on an international stage, Australia as being a leader in crocodilian research and conservation, with the results from this study being actively presented and profiled in both the scientific and general media. Finally this project will encourage and promote a long term research association between the University of Queensland, Australia Zoo and Queensland Parks and Wildlife Service that will stimulate scientific discovery, and promote effective conservation through education and research. Read moreRead less