Regulation of salt gland activity in the estuarine crocodile: phenotypic plasticity and control mechanisms. The estuarine crocodile excretes excess sodium and chloride ions through salt glands located on the tongue, enabling the crocodile to live in seawater. This study will investigate the regulation of salt gland secretory capacity and activity, by examining both the phenotypic plasticity of the gland to changes in environmental salinity and diet, and by determining the neural/humoral mech ....Regulation of salt gland activity in the estuarine crocodile: phenotypic plasticity and control mechanisms. The estuarine crocodile excretes excess sodium and chloride ions through salt glands located on the tongue, enabling the crocodile to live in seawater. This study will investigate the regulation of salt gland secretory capacity and activity, by examining both the phenotypic plasticity of the gland to changes in environmental salinity and diet, and by determining the neural/humoral mechanisms controlling secretory rate. In vivo measurements of blood flow and salt gland secretory rate, together with perfused gland preparations will reveal extrinsic and intrinsic factors controlling salt gland activity and the degree of coupling between blood flow and secretory rate.Read moreRead less
ARC/NHMRC Research Network in Genes and Environment in Development. Interactions between the early environment and the genetic regulatory program of the developing organism have major consequences for the lifetime health of individuals. The primary objective of the Network in Genes and Environment in Development is to harness the resources of leading researchers from the currently distinct disciplines of developmental biology and developmental physiology to define key developmental regulatory ne ....ARC/NHMRC Research Network in Genes and Environment in Development. Interactions between the early environment and the genetic regulatory program of the developing organism have major consequences for the lifetime health of individuals. The primary objective of the Network in Genes and Environment in Development is to harness the resources of leading researchers from the currently distinct disciplines of developmental biology and developmental physiology to define key developmental regulatory networks and to address how environmental factors impinge on these regulatory networks. The formation of this National Research Network is unique, timely and strategic. It will generate new insights into the mechanisms by which events in early life determine the risk of adverse outcomes in perinatal and adult life.Read moreRead less
The evolution of energy metabolism in ectotherms. Metabolic rate is the rate at which organisms take up, transform, and expend energy and materials. The primary outcome of this initiative is a comprehensive understanding of the effect of climate on the metabolic rate of ectothermic vertebrates, including goannas, fish and toads. Our research will encompass aquatic and terrestrial environments; temperate and tropical habitats; and include both iconic native species and alien invasive ones. We se ....The evolution of energy metabolism in ectotherms. Metabolic rate is the rate at which organisms take up, transform, and expend energy and materials. The primary outcome of this initiative is a comprehensive understanding of the effect of climate on the metabolic rate of ectothermic vertebrates, including goannas, fish and toads. Our research will encompass aquatic and terrestrial environments; temperate and tropical habitats; and include both iconic native species and alien invasive ones. We seek to understand not only how and why species in these environments vary in their metabolic rate, but also the consequences of this variation. Such knowledge will be important in understanding how climate change does and will affect animals and in predicting its consequences.Read moreRead less
Environmental Toxicology of Marine Turtles in the South Pacific Region. We propose to study pollutants such as pesticides, polychlorinated biphenyls (PCBs), and metals in sea turtles. Drs Whittier (UQ) and Henry Olszowy (Queensland Health Scientific Services) will supervise a Ph.D. student in the research. We will identify significant pollutants in Queensland, the Solomon Islands and Malaysia at sea turtle nesting and feeding grounds. We will follow the fate of chemicals in female turtles and t ....Environmental Toxicology of Marine Turtles in the South Pacific Region. We propose to study pollutants such as pesticides, polychlorinated biphenyls (PCBs), and metals in sea turtles. Drs Whittier (UQ) and Henry Olszowy (Queensland Health Scientific Services) will supervise a Ph.D. student in the research. We will identify significant pollutants in Queensland, the Solomon Islands and Malaysia at sea turtle nesting and feeding grounds. We will follow the fate of chemicals in female turtles and the effects of contamination on the development of eggs and hatchlings. This information will be used to help manage sea turtle populations and to contribute to sustainable use of the animals for a growing ecotourism industry.Read moreRead less
Testing the adaptive benefit of physiological acclimation. For over a century, physiologists have observed that organisms can modify their physiological function in response to changes in the environment, a process known as acclimation. However, until recently, the adaptive benefit of these acclimation responses has been assumed rather than tested. In this study, I will utilize the effects of temperature on the ability of male mosquito fish (Gambusia holbrooki) to obtain matings and subsequently ....Testing the adaptive benefit of physiological acclimation. For over a century, physiologists have observed that organisms can modify their physiological function in response to changes in the environment, a process known as acclimation. However, until recently, the adaptive benefit of these acclimation responses has been assumed rather than tested. In this study, I will utilize the effects of temperature on the ability of male mosquito fish (Gambusia holbrooki) to obtain matings and subsequently sire offspring to test the benefit of both thermal acclimation and developmental plasticity. This will allow the most comprehensive test of two important hypotheses in comparative physiology: the Beneficial Acclimation Hypothesis and the Beneficial Developmental Plasticity Hypothesis.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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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
Signalling cross-talk through Suppressors Of Cytokine Signalling (SOCS) initiates luteolysis in the ovary. Members of the newly discovered SOCS protein family block cytokine signal transduction pathways, including those for prolactin and GH. We have discovered that one of these proteins, SOCS-3, is upregulated in the corpus luteum of the ovary by prostaglandins and propose that induction of prolactin or GH resistance is a hitherto unrecognised and critical step in luteolysis. We have also disco ....Signalling cross-talk through Suppressors Of Cytokine Signalling (SOCS) initiates luteolysis in the ovary. Members of the newly discovered SOCS protein family block cytokine signal transduction pathways, including those for prolactin and GH. We have discovered that one of these proteins, SOCS-3, is upregulated in the corpus luteum of the ovary by prostaglandins and propose that induction of prolactin or GH resistance is a hitherto unrecognised and critical step in luteolysis. We have also discovered that this cross-talk between prostaglandin- and cytokine-receptor signalling pathways occurs in preadipocyte and breast cell lines and propose that this research will serve as a paradigm for understanding how sensitivity to cytokines can be controlled at a molecular level.Read moreRead less
Calcium regulation in the skeletal muscle triad and along the fibre. The fundamental role of skeletal muscle is posture and movement. Alterations in the normal way calcium regulates skeletal muscle function in fatigue, age and disease states causes loss of normal function. Preventing or controlling these changes is a key therapeutic aim. However, we currently lack full understanding of key mechanisms of calcium regulation in healthy skeletal muscle. This project will define key aspects of cal ....Calcium regulation in the skeletal muscle triad and along the fibre. The fundamental role of skeletal muscle is posture and movement. Alterations in the normal way calcium regulates skeletal muscle function in fatigue, age and disease states causes loss of normal function. Preventing or controlling these changes is a key therapeutic aim. However, we currently lack full understanding of key mechanisms of calcium regulation in healthy skeletal muscle. This project will define key aspects of calcium regulation that could be crucial to developing targets for improving function of skeletal muscle under stressed states.Read moreRead less