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Bioinvasions: the interactive effects of propagule pressure and pollution. The successful establishment of species outside their native range is an increasingly frequent occurrence and can cause reductions in biodiversity and ecosystem disruption. Bioinvasions may also cause public health risks and damage to agriculture and fisheries. Nowhere is the accelerating pace of bioinvasions more dramatic than in ports and harbours. This project will determine the effects of pollution on invasion in a ma ....Bioinvasions: the interactive effects of propagule pressure and pollution. The successful establishment of species outside their native range is an increasingly frequent occurrence and can cause reductions in biodiversity and ecosystem disruption. Bioinvasions may also cause public health risks and damage to agriculture and fisheries. Nowhere is the accelerating pace of bioinvasions more dramatic than in ports and harbours. This project will determine the effects of pollution on invasion in a marine system. This project is in the national interest because it will identify mechanisms through which the invasion of exotic species are encouraged and assist in the identification and prioritisation of effective management strategies to prevent invasion.Read moreRead less
Do pollution events facilitate biotic invasion in marine systems? This project aims to determine whether pollution affects the biological resistance of assemblages to invasion. The discharge of toxicants into coastal waters is an increasingly important source of disturbance that has the potential to make marine assemblages more susceptible to biotic invasion. The project will determine if pollution events facilitate the colonisation, persistence and spread of non-native species and how initial a ....Do pollution events facilitate biotic invasion in marine systems? This project aims to determine whether pollution affects the biological resistance of assemblages to invasion. The discharge of toxicants into coastal waters is an increasingly important source of disturbance that has the potential to make marine assemblages more susceptible to biotic invasion. The project will determine if pollution events facilitate the colonisation, persistence and spread of non-native species and how initial assemblage diversity modifies this response. The generality of several important ecological hypotheses developed in plant communities are tested in marine systems for the first time and extended to include the role of toxic disturbances.Read moreRead less
Identifying and creating essential habitat for rare Australian intertidal molluscs. Coastal development in Australia causes major changes to natural habitats. Obligations to conserve biodiversity are impossible without reliable information about how animals respond to habitat and how best to restore damaged habitat. Current management treats habitats as large-scale units and ignores fine-scale use of habitat by animals. This project will provide essential understanding to guide policy about coas ....Identifying and creating essential habitat for rare Australian intertidal molluscs. Coastal development in Australia causes major changes to natural habitats. Obligations to conserve biodiversity are impossible without reliable information about how animals respond to habitat and how best to restore damaged habitat. Current management treats habitats as large-scale units and ignores fine-scale use of habitat by animals. This project will provide essential understanding to guide policy about coastal conservation, by providing ecologically realistic understanding of associations between rare invertebrates and habitat. New protocols to measure these associations and success of restoration, will be applicable to any rare species in any complex habitat, increasing present capabilities for conservation.Read moreRead less
The Prediction and Analysis of Complex Morphology in Coastal Environments. Coastal features, incorporating river, tide and wave induced flows and associated sediment transport, represent highly complex systems. At present it is impossible to analyse anything but the simplest forms, yet it is often necessary to determine their overall properties and behaviour in engineering analysis and design. The aim of the project is to develop and verify a modelling approach using the concept of entropy and a ....The Prediction and Analysis of Complex Morphology in Coastal Environments. Coastal features, incorporating river, tide and wave induced flows and associated sediment transport, represent highly complex systems. At present it is impossible to analyse anything but the simplest forms, yet it is often necessary to determine their overall properties and behaviour in engineering analysis and design. The aim of the project is to develop and verify a modelling approach using the concept of entropy and an efficient optimisation algorithm to allow key properties of complex coastal systems to be determined. The proposal represents an innovative approach to the coastal modelling problem that would overcome significant limitations of current morphological models.Read moreRead less
International Evaluation of Algorithms for Mapping in Optically Shallow Waters. This work provides a means for Australian science and management agencies to apply a method for accurately mapping shallow coastal environments. The work will build Australian research capability by developing new collaborations among experienced researchers; as well as allowing the Australian teams to benchmark their proposed methods internationally. Nationally, the work will strengthen international research exper ....International Evaluation of Algorithms for Mapping in Optically Shallow Waters. This work provides a means for Australian science and management agencies to apply a method for accurately mapping shallow coastal environments. The work will build Australian research capability by developing new collaborations among experienced researchers; as well as allowing the Australian teams to benchmark their proposed methods internationally. Nationally, the work will strengthen international research experience and generate opportunities for postgraduate and postdoctoral researchers to link into leading-edge international research networks. This work will also allow us to build strong ongoing collaborations between research teams in Australia and their counterparts overseas (specifically USA, Canada, UK and Germany). Read moreRead less
Coral Reefs - Innovative Satellite Image Mapping Techniques. Two primary outcomes are expected from this project, the first is aimed at solving a fundamental challenge to understanding and managing coral reefs in Australia and worldwide. The optimal reef mapping method(s) will enable coral reef monitoring and management programs in Australia and internationally to make full use of satellite and airborne image data sets. Secondly, the project will significantly advance the capabilities of remote ....Coral Reefs - Innovative Satellite Image Mapping Techniques. Two primary outcomes are expected from this project, the first is aimed at solving a fundamental challenge to understanding and managing coral reefs in Australia and worldwide. The optimal reef mapping method(s) will enable coral reef monitoring and management programs in Australia and internationally to make full use of satellite and airborne image data sets. Secondly, the project will significantly advance the capabilities of remote sensing applications in coral reefs, by providing a unique international test of current state of the art algorithms.In combination, these outcomes will enable Australia to continue to play a role as the world's leading developer and provider of solutions for coral reef monitoring and management.Read moreRead less
Understanding biodiversity by experimental analysis of links between physical, chemical and biological properties of intertidal sediments. The coastal zone accounts for 38 % of total environmental services, estimated as $12 trillion per year. Over 90 % of current development and 80 % of Australians are found within 50 km of the coast, putting enormous pressure on these habitats. Intertidal/shallow subtidal sediments are the most extensive and productive (biologically and economically) coastal ....Understanding biodiversity by experimental analysis of links between physical, chemical and biological properties of intertidal sediments. The coastal zone accounts for 38 % of total environmental services, estimated as $12 trillion per year. Over 90 % of current development and 80 % of Australians are found within 50 km of the coast, putting enormous pressure on these habitats. Intertidal/shallow subtidal sediments are the most extensive and productive (biologically and economically) coastal habitats, supporting much of Australia's unique biodiversity. Their functioning depends on complex interactions among physical, chemical and biotic processes, yet is largely unknown. Understanding these processes is crucial for coastal planning and management, to minimise habitat-loss and retain biodiversity in these important habitats.Read moreRead less
Vision and remote sensing: using nature's technology to examine the health of The Great Barrier Reef and Moreton Bay. We aim to use what is known and what we will discover about animals visual systems to examine environmental health on The Great Barrier Reef and Moreton Bay. Technology and knowledge from 8 university departments, 4 industry partners, and 7 international collaborators will be combined to both learn and provide information. The innovative aspect of our approach is to examine the w ....Vision and remote sensing: using nature's technology to examine the health of The Great Barrier Reef and Moreton Bay. We aim to use what is known and what we will discover about animals visual systems to examine environmental health on The Great Barrier Reef and Moreton Bay. Technology and knowledge from 8 university departments, 4 industry partners, and 7 international collaborators will be combined to both learn and provide information. The innovative aspect of our approach is to examine the world with the eyes of birds, fish and invertebrates. Tricks animals employ to solve visual tasks will be implemented at scales of instrumentation from hand-held to remote sensing and used to address problems such as coral reef bleaching.Read moreRead less
A biogeochemical study of a coastal lagoon - tests of a mechanistic model. The water quality and seagrass biomass of intermittently closed-open lagoons (ICOLs), which dominate the NSW coast, are declining in response to development and their low flushing rates. A combination of field sampling, biogeochemical analysis and ecological modelling will be used to improve our quantitative understanding and prediction of ecological processes in small estuaries. A novel, mechanistic model of nutrients- ....A biogeochemical study of a coastal lagoon - tests of a mechanistic model. The water quality and seagrass biomass of intermittently closed-open lagoons (ICOLs), which dominate the NSW coast, are declining in response to development and their low flushing rates. A combination of field sampling, biogeochemical analysis and ecological modelling will be used to improve our quantitative understanding and prediction of ecological processes in small estuaries. A novel, mechanistic model of nutrients-phytoplankton-seagrass-zooplankton will be improved with detailed sampling of Smiths Lake on the central NSW coast. Simulations indicative of future development, fish re-stocking or management options will indicate the cost-benefit on estuarine ecosystems.Read moreRead less
Unraveling the nitrogen cycle in a periodically anoxic estuary. Climate change is likely to lead to reduced river inflows to estuaries which can lead to oxygen depletion and major changes in nutrient cycling. This project will help inform the public and policy makers about the role of environmental flows in maintaining estuarine function, and thus guide future decisions on environmental flow requirements in the Yarra River Estuary. The benefits of this understanding will also flow on to improv ....Unraveling the nitrogen cycle in a periodically anoxic estuary. Climate change is likely to lead to reduced river inflows to estuaries which can lead to oxygen depletion and major changes in nutrient cycling. This project will help inform the public and policy makers about the role of environmental flows in maintaining estuarine function, and thus guide future decisions on environmental flow requirements in the Yarra River Estuary. The benefits of this understanding will also flow on to improved understanding and management of nitrogen loads to Port Phillip Bay. This project will form a close collaborative partnership between Monash University, Melbourne Water and the EPA. This collaboration will ensure the integration of cutting edge science with innovative management regimes Read moreRead less