Uncovering vertebrate lifespan biodiversity with whole genome sequencing. This project aims to integrate existing data on the genetic mechanisms of lifespan evolution in model systems with a novel combination of whole genome sequencing and comparative phylogenomics to reveal the common genomic signatures of lifespan evolution in vertebrates. Expected outcomes include a perspective on the evolution of lifespan, a topic of major health interest for Australia and the rest of the developed world. Th ....Uncovering vertebrate lifespan biodiversity with whole genome sequencing. This project aims to integrate existing data on the genetic mechanisms of lifespan evolution in model systems with a novel combination of whole genome sequencing and comparative phylogenomics to reveal the common genomic signatures of lifespan evolution in vertebrates. Expected outcomes include a perspective on the evolution of lifespan, a topic of major health interest for Australia and the rest of the developed world. This will provide significant benefits, such as long-term implications for aging research, with possible business applications. It will also increase Australia’s visibility and competitiveness in the developing field of bioinformatics.Read moreRead less
Evaporative water loss and relative water economy in marsupials. Marsupials are an iconic element of the Australian fauna, so the robust physiological database we will establish has intrinsic educational and scientific value to Australians. We will provide important methodological and analytical advances at the cutting edge of physiological research. This project will sustain our leading role as marsupial physiologists in the international scientific community, contribute to the high-quality tra ....Evaporative water loss and relative water economy in marsupials. Marsupials are an iconic element of the Australian fauna, so the robust physiological database we will establish has intrinsic educational and scientific value to Australians. We will provide important methodological and analytical advances at the cutting edge of physiological research. This project will sustain our leading role as marsupial physiologists in the international scientific community, contribute to the high-quality training of research students, foster national and international collaboration, and generally enhance the scientific profile of Australia. Knowledge of a species' biology and its interactions with the environment are essential for conservation in the face of landscape modification and climate change.Read moreRead less
Genetic mechanisms of metabolic control and thermal sensing during thermoregulation. This research will significantly advance understanding of how animals can respond to climate change, and the results will benefit wildlife management processes. The proposed research will lead to collaboration with Prof. Ken Storey an ISI highly cited author and expert in microarray analysis. The cDNA microarray for Crocodylus porosus which I will construct in the proposed research will be a valuable resource ....Genetic mechanisms of metabolic control and thermal sensing during thermoregulation. This research will significantly advance understanding of how animals can respond to climate change, and the results will benefit wildlife management processes. The proposed research will lead to collaboration with Prof. Ken Storey an ISI highly cited author and expert in microarray analysis. The cDNA microarray for Crocodylus porosus which I will construct in the proposed research will be a valuable resource for Australia by increasing collaborations, and it will help find the cause of problems prevalent in the crocodile industry such as runt animals that significantly decrease production efficiency.Read moreRead less
Physiological Thermoregulation and Cardiovascular Function in Reptiles. This project will be important in advancing the concept of physiological thermoregulation in reptiles from a descriptive to a mechanistic basis, thereby providing a better conceptual framework within which the evolutionary processes and selection pressures acting on modern animals and their ancestors can be evaluated.
Benefits of conducting this research will include:
maintaining the high international profile of Aust ....Physiological Thermoregulation and Cardiovascular Function in Reptiles. This project will be important in advancing the concept of physiological thermoregulation in reptiles from a descriptive to a mechanistic basis, thereby providing a better conceptual framework within which the evolutionary processes and selection pressures acting on modern animals and their ancestors can be evaluated.
Benefits of conducting this research will include:
maintaining the high international profile of Australian comparative physiology;
the training of post-graduate students, both Honours and Ph.D.s;
stimulating collaboration between two of Australia's research intensive universities (Sydney and Queensland);
and show-casing Australia's impressive reptilian fauna.
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Responses of reptiles to fluctuating thermal environments: behaviour or biochemistry? I propose a conceptual shift in the way thermal physiology of reptiles is interpreted, questioning the predominant role of behaviour in reptilian thermoregulation. I will test the hypothesis that changes in cellular biochemistry are an important mechanism by which reptiles respond to environmental fluctuations. I will determine the relationship between metabolic enzyme activity and performance functions, and ....Responses of reptiles to fluctuating thermal environments: behaviour or biochemistry? I propose a conceptual shift in the way thermal physiology of reptiles is interpreted, questioning the predominant role of behaviour in reptilian thermoregulation. I will test the hypothesis that changes in cellular biochemistry are an important mechanism by which reptiles respond to environmental fluctuations. I will determine the relationship between metabolic enzyme activity and performance functions, and the results may call for a re-assessment of current concepts such as the notion that reptiles must achieve "preferred" body temperatures to maintain performance.Read moreRead less
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 inhibition of muscle disuse atrophy in burrowing frogs. Prolonged muscle disuse, as a consequence of limb immobilisation, extended bed-rest or space travel, can lead to pathological changes resulting in muscle wasting. By examining a unique Australian frog that burrows underground and remains immobile for 9-12 months, and which shows no muscle wasting, we will significantly advance our understanding of the physiological mechanisms that inhibit muscle atrophy.
Benefits of conducting this r ....The inhibition of muscle disuse atrophy in burrowing frogs. Prolonged muscle disuse, as a consequence of limb immobilisation, extended bed-rest or space travel, can lead to pathological changes resulting in muscle wasting. By examining a unique Australian frog that burrows underground and remains immobile for 9-12 months, and which shows no muscle wasting, we will significantly advance our understanding of the physiological mechanisms that inhibit muscle atrophy.
Benefits of conducting this research will include:
- understanding the role of antioxidants and endogenous opioids in reducing muscle wasting
- training of postgraduate students
- stimulating collaboration between The University of Queensland and CSIRO Livestock Industries.Read moreRead less
SKELETAL MUSCLE: REVERSIBLE TEMEPERATURE-INDUCED UNCOUPLING OF CONTRACTION FROM THE ACTIVATOR Ca2+ AND TUBULAR SYSTEM ROLES IN MUSCLE FUNCTION REGULATION. Skeletal muscles represent the largest organ in the body of vertebrates and are responsible for major functions including maintaining posture and locomotion. Skeletal muscles are also a major source of heat production. The project focuses on temperature-induced effects on the ability of the skeletal muscle to contract in warm blooded animals, ....SKELETAL MUSCLE: REVERSIBLE TEMEPERATURE-INDUCED UNCOUPLING OF CONTRACTION FROM THE ACTIVATOR Ca2+ AND TUBULAR SYSTEM ROLES IN MUSCLE FUNCTION REGULATION. Skeletal muscles represent the largest organ in the body of vertebrates and are responsible for major functions including maintaining posture and locomotion. Skeletal muscles are also a major source of heat production. The project focuses on temperature-induced effects on the ability of the skeletal muscle to contract in warm blooded animals, including marsupials, and on the complex roles played by a cellular structure unique to the muscle fibre, the tubular system, with respect to regulation of muscle function at physiological temperatures. The project will test hypotheses that will have far-reaching implications for muscle physiology, cell biology and evolutionary biology.Read moreRead less
Improving the growth rate and flesh quality of cultured Barramundi: Investigating the effects of temperature, diet, and population. Barramundi fillet is one of the premier seafoods available in Australia and the decline of wild fisheries has increased the demand for the cultured product. Accordingly, there has been a rapid growth of the barramundi farming industry, but competition from cheaper overseas imports has cut the sale price and profit margins of local growers. By developing methods to i ....Improving the growth rate and flesh quality of cultured Barramundi: Investigating the effects of temperature, diet, and population. Barramundi fillet is one of the premier seafoods available in Australia and the decline of wild fisheries has increased the demand for the cultured product. Accordingly, there has been a rapid growth of the barramundi farming industry, but competition from cheaper overseas imports has cut the sale price and profit margins of local growers. By developing methods to increase growth rates, this research has the potential to substantially increase profit margins by reducing production costs and increasing turnover. Improvement of flesh quality will also increase the attractiveness of barramundi fillet. Increasing the viability of barramundi culture in Australia will attract more growers and increase employment opportunities.Read moreRead less
Environmental Control of Developmental Plasticity of Vertebrate Cardio-Pulmonary Systems. Our research will generate the first comprehensive picture of how environmental conditions are transduced to control the development of the vertebrate respiratory and cardiovascular systems over the perinatal period. The research will demonstrate how physiological systems are modified and hence evolve. Moreover, understanding the developmental pathology in embryos induced by changing environmental condition ....Environmental Control of Developmental Plasticity of Vertebrate Cardio-Pulmonary Systems. Our research will generate the first comprehensive picture of how environmental conditions are transduced to control the development of the vertebrate respiratory and cardiovascular systems over the perinatal period. The research will demonstrate how physiological systems are modified and hence evolve. Moreover, understanding the developmental pathology in embryos induced by changing environmental conditions (especially exposure to steroid-like pollutants) is crucial to support breeding programs of endangered species and may improve veterinary and medicinal treatment of premature animals and humans. This multi-disciplinary, international collaboration provides an international training ground and two-way exchange of students and postdocs.Read moreRead less