FATIGUE IN VERTEBRATE TENDONS: BIOMECHANICAL AND STRUCTURAL CORRELATES OF ONTOGENETIC AND ADAPTIVE CHANGE. Tendons are important vertebrate tissues, but little is known about their mechanical properties under fatigue-loading. Recent research has shown that dramatic differences in fatigue properties occur and that these appear to be linked to the functional roles of tendons. This project uses a variety of approaches to explore how mechanical and structural properties of tendons change during g ....FATIGUE IN VERTEBRATE TENDONS: BIOMECHANICAL AND STRUCTURAL CORRELATES OF ONTOGENETIC AND ADAPTIVE CHANGE. Tendons are important vertebrate tissues, but little is known about their mechanical properties under fatigue-loading. Recent research has shown that dramatic differences in fatigue properties occur and that these appear to be linked to the functional roles of tendons. This project uses a variety of approaches to explore how mechanical and structural properties of tendons change during growth, maturation and adaptation to different loading environments, and the cellular basis of fatigue resistance. An understanding of fatigue properties from cellular to tissue levels has significance in the areas of general biology, materials science and biomedical science.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