River sensitivity to change: An assessment of threshold shifts between River Styles in Coastal NSW. Over 70% of coastal catchments in northern NSW comprise confined or partly-confined valleys in which floodplains are absent or discontinuous. Evolutionary controls on floodplain presence and their sensitivity to disturbance since European settlement will be explained. Increased understanding of the character, behaviour and evolution of these river types will provide a generic framework to assess ....River sensitivity to change: An assessment of threshold shifts between River Styles in Coastal NSW. Over 70% of coastal catchments in northern NSW comprise confined or partly-confined valleys in which floodplains are absent or discontinuous. Evolutionary controls on floodplain presence and their sensitivity to disturbance since European settlement will be explained. Increased understanding of the character, behaviour and evolution of these river types will provide a generic framework to assess river sensitivity to change. The understanding achieved via this project will form the basis upon which to manage these rivers in an environmentally sustainable manner.Read moreRead less
Stream power and river morphology in partly-confined valleys of coastal New South Wales, Australia. Rivers in the escarpment-dominated catchments of coastal NSW are characterised by confined and partly-confined valley-settings in which channels have little capacity to adjust. The key aim of this project is to determine controls on the distribution of floodplains in this landscape. Particular attention will be placed on the role played by stream power in determining the relationship between val ....Stream power and river morphology in partly-confined valleys of coastal New South Wales, Australia. Rivers in the escarpment-dominated catchments of coastal NSW are characterised by confined and partly-confined valley-settings in which channels have little capacity to adjust. The key aim of this project is to determine controls on the distribution of floodplains in this landscape. Particular attention will be placed on the role played by stream power in determining the relationship between valley incision and lateral expansion processes along river courses. Understanding controls on these rivers is critical in determining how they modify their form in response to various disturbance events (whether 'natural' of human-induced). Results will provide a rigorous basis with which to explain cross-catchment variability in river forms and processes, aiding our capacity to predict future adjustments to disturbance and develop river management strategies that 'work with nature'.Read moreRead less
Science of the Surf (SOS): The Development and Evaluation of a National Campaign to Reduce the Risk of Coastal Drowning. Australian beaches attract approximately 80 million domestic and international tourists a year and are an integral part of the Australian lifestyle. Each year, 58 people die and 563 people are hospitalised as a result of coastal drowning in Australia; many more are rescued by surf lifesavers. Many incidents occur when swimmers are caught in rip currents. Raising awareness abou ....Science of the Surf (SOS): The Development and Evaluation of a National Campaign to Reduce the Risk of Coastal Drowning. Australian beaches attract approximately 80 million domestic and international tourists a year and are an integral part of the Australian lifestyle. Each year, 58 people die and 563 people are hospitalised as a result of coastal drowning in Australia; many more are rescued by surf lifesavers. Many incidents occur when swimmers are caught in rip currents. Raising awareness about common surf hazards, such as rip currents, aims to minimise the risk of drowning. This research will promote and maintain good health and well being for Australians by delivering an effective drowning prevention intervention. In doing so, reducing drowning risk would save up to $187 million each year in health care costs.Read moreRead less
Testing the Australian Megatsunami Hypothesis. More than 300000 lives and property worth more than $150bn on the NSW coast are vulnerable to large tsunamis but at present we do not have a clear idea about how often such tsunamis occur and how big they might be. This project will identify and date evidence for past tsunamis on the coasts of NSW and west New Zealand which will help us understand regional tsunami risk. This will provide knowledge that will guide tsunami risk management practice in ....Testing the Australian Megatsunami Hypothesis. More than 300000 lives and property worth more than $150bn on the NSW coast are vulnerable to large tsunamis but at present we do not have a clear idea about how often such tsunamis occur and how big they might be. This project will identify and date evidence for past tsunamis on the coasts of NSW and west New Zealand which will help us understand regional tsunami risk. This will provide knowledge that will guide tsunami risk management practice in vulnerable areas of NSW and help underpin the developing Australian Tsunami Warning System. Read moreRead less
Comparative Biogeography of Australasian biota. Establishing an internationally recognised biogeographical research program will help scientists, policy makers and the public understand the past and future distribution patterns of the plants and animals of Australia. Discovering these patterns will help conservation biologists and government implement the right policies and practices to deal with biodiversity loss and climate change.