Effects of environmental factors on ecophysiological performance in the toxic cyanobacterium Nodularia. Nodularia is a toxic cyanobacterium that causes problem blooms in Australian waters and worldwide. The effects of environmental conditions on physiological processes in Nodularia are poorly understood and information on the effects on macromolecular synthesis and photosynthesis in Nodularia is limited. This project is of fundamental biological importance, making a major contribution to under ....Effects of environmental factors on ecophysiological performance in the toxic cyanobacterium Nodularia. Nodularia is a toxic cyanobacterium that causes problem blooms in Australian waters and worldwide. The effects of environmental conditions on physiological processes in Nodularia are poorly understood and information on the effects on macromolecular synthesis and photosynthesis in Nodularia is limited. This project is of fundamental biological importance, making a major contribution to understanding the impacts of environmental conditions on the physiological performance and ecology of Nodularia. The research has significance, both nationally and internationally, for the prediction of algal blooms in coastal and estuarine ecosystems, and will increase our knowledge of the factors controlling growth and toxicity of Nodularia worldwide. Read moreRead less
Effects of urbanisation and introduced species on rivers and estuaries: a whole of catchment approach. Humans have converted land into urban and agricultural areas, as well as intentionally or accidentally introduced species into aquatic systems. Estuaries and rivers are some of the most degraded systems on earth and fishes are among the most endangered vertebrates worldwide. We will utilise novel modelling techniques to provide predictive models that investigate fish-environment relationships. ....Effects of urbanisation and introduced species on rivers and estuaries: a whole of catchment approach. Humans have converted land into urban and agricultural areas, as well as intentionally or accidentally introduced species into aquatic systems. Estuaries and rivers are some of the most degraded systems on earth and fishes are among the most endangered vertebrates worldwide. We will utilise novel modelling techniques to provide predictive models that investigate fish-environment relationships. We will also investigate impacts of trout introductions on native fish including dietary, competitive and assemblage level changes to the system. Essential data for the sustainable management of freshwater and estuarine systems will be obtained, which will lead to an environmentally sustainable Australia. Read moreRead less
Mechanisms of Iron Acquisition by the Cyanobacterium Trichodesmium in Coastal Waters. The toxic cyanobacterium Trichodesmium is the most conspicuous phytoplankter in Great Barrier Reef waters which, as a nitrogen fixer, produces and biologically packages "new" nitrogen into forms potentially available to other marine organisms and, as such, is likely to be a key driver of food web dynamics on the GBR. In this study, we will clarify the mechanism by which the critical nutrient iron is acquired by ....Mechanisms of Iron Acquisition by the Cyanobacterium Trichodesmium in Coastal Waters. The toxic cyanobacterium Trichodesmium is the most conspicuous phytoplankter in Great Barrier Reef waters which, as a nitrogen fixer, produces and biologically packages "new" nitrogen into forms potentially available to other marine organisms and, as such, is likely to be a key driver of food web dynamics on the GBR. In this study, we will clarify the mechanism by which the critical nutrient iron is acquired by this organism and, in so doing, assess the role that terrestrial activities play in iron supply.Read moreRead less
Developing strategies for rehabilitating floodgated coastal wetlands: linking wetland hydrology, vegetation dynamics and waterbird communities. Along the Australian eastern seaboard, historical installation of floodgates on coastal wetlands has altered the hydrology and biogeochemistry of these systems with subsequent deterioration in their ecological integrity. This project will investigate structural and functional links between hydrology, vegetation and threatened waterbirds in wetlands of t ....Developing strategies for rehabilitating floodgated coastal wetlands: linking wetland hydrology, vegetation dynamics and waterbird communities. Along the Australian eastern seaboard, historical installation of floodgates on coastal wetlands has altered the hydrology and biogeochemistry of these systems with subsequent deterioration in their ecological integrity. This project will investigate structural and functional links between hydrology, vegetation and threatened waterbirds in wetlands of the New South Wales north coast. We will develop GIS-based ecological models to identify how these links are spatially and temporally altered by floodgate manipulation. Our overarching aim is to develop scientifically-validated protocols for floodgate manipulations that will aid managers in conserving the ecological integrity of coastal floodplain wetlands.Read moreRead less
Estuarine wetland rehabilitation and ecohydraulics: the link between hydraulics, sediment, benthic invertebrates, vegetation and migratory wading bird habitat. Water flow is the lifeblood of estuarine wetlands and has a major impact on ecological habitat. Despite this, little is known about the link between the threatened migratory birdlife, benthic invertebrates, wetland vegetation and the aqueous environment that supports them. This study will determine the interrelationships between key chara ....Estuarine wetland rehabilitation and ecohydraulics: the link between hydraulics, sediment, benthic invertebrates, vegetation and migratory wading bird habitat. Water flow is the lifeblood of estuarine wetlands and has a major impact on ecological habitat. Despite this, little is known about the link between the threatened migratory birdlife, benthic invertebrates, wetland vegetation and the aqueous environment that supports them. This study will determine the interrelationships between key characteristics of migratory wader habitat and the hydraulic environment. The study will be conducted in the internationally significant Hunter estuary. The project will result in ecological management strategies based on hydraulic control for estuarine wetlands. These are essential for the design of culverts and roads and other development throughout coastal Australia.Read moreRead less
Linkage Infrastructure, Equipment And Facilities - Grant ID: LE100100059
Funder
Australian Research Council
Funding Amount
$100,000.00
Summary
Dual frequency identification SONAR (DIDSON) facility for sampling benthic and pelagic fish populations. Many Australians enjoy marine and freshwater resources, and we are exploiting fisheries and waterways in particular at an increasing rate. Effective management of fisheries requires understanding the abundance and behavior of fish. This facility will provide novel acoustic video technology for researchers to count fishes and sharks near weirs, under wharves or logs, and within seagrass beds. ....Dual frequency identification SONAR (DIDSON) facility for sampling benthic and pelagic fish populations. Many Australians enjoy marine and freshwater resources, and we are exploiting fisheries and waterways in particular at an increasing rate. Effective management of fisheries requires understanding the abundance and behavior of fish. This facility will provide novel acoustic video technology for researchers to count fishes and sharks near weirs, under wharves or logs, and within seagrass beds. The dual frequency identification sonar (DIDSON) will also allow accurate and standardised study of fish movements in response to floods, algal blooms or re-stocking events without disturbing the fish or their habitats. This will enhance our understanding of the top-down control by fish of aquatic ecosystems that are directly adjacent to human activity.Read moreRead less
Impacts of changing detrital source biodiversity on estuarine ecosystems. Coastal development, invasive pests, and climate change are impacting abundances of estuarine aquatic plants. This in turn is affecting the composition and magnitude of detrital enrichment, threatening biodiversity, fisheries production and endangered birds. Our pioneering research will forecast the impacts of changing detrital-source biodiversity on soft-sediment communities and the food webs they support in Australia and ....Impacts of changing detrital source biodiversity on estuarine ecosystems. Coastal development, invasive pests, and climate change are impacting abundances of estuarine aquatic plants. This in turn is affecting the composition and magnitude of detrital enrichment, threatening biodiversity, fisheries production and endangered birds. Our pioneering research will forecast the impacts of changing detrital-source biodiversity on soft-sediment communities and the food webs they support in Australia and the USA. Ecological generalities obtained can be used to support policy development that ensures sustainable management of estuaries. This work will also facilitate training of early career researchers and focus research efforts of leading US researchers towards issues crucial for Australian estuarine management.Read moreRead less
Interactive effects of salinity and nutrients: linking physiological processes with patterns in mangrove forest productivity. The proposed research will provide insight into physiological mechanisms that underpin mangrove productivity along salinity and aridity gradients, and determine how these factors affect plant responses to nutrient enrichment. Plant traits that increase salt and drought tolerance will be identified, thereby assisting development of plant varieties suited to Australian cond ....Interactive effects of salinity and nutrients: linking physiological processes with patterns in mangrove forest productivity. The proposed research will provide insight into physiological mechanisms that underpin mangrove productivity along salinity and aridity gradients, and determine how these factors affect plant responses to nutrient enrichment. Plant traits that increase salt and drought tolerance will be identified, thereby assisting development of plant varieties suited to Australian conditions. The results will also contribute to development of process-based models to better manage mangrove resources with climate change and increasing nutrient influx from urban or agricultural activities. Such models are essential for managing mangrove productivity for sustainable fisheries, and protecting the ecological well being of the coastal zone.Read moreRead less
Geo-hydrodynamic modelling and estuarine evolution. We have accumulated considerable knowledge of the geomorphology, sedimentology and hydrodynamics of estuarine systems in southeastern Ausralia. This project represents the first rigorous attempt to combine these diverse factors to provide a process-based mathematical model of long- to medium-term sedimentation that can be used for environmental management. To be predictive the model has to use documented changes in the sedimentation histories o ....Geo-hydrodynamic modelling and estuarine evolution. We have accumulated considerable knowledge of the geomorphology, sedimentology and hydrodynamics of estuarine systems in southeastern Ausralia. This project represents the first rigorous attempt to combine these diverse factors to provide a process-based mathematical model of long- to medium-term sedimentation that can be used for environmental management. To be predictive the model has to use documented changes in the sedimentation histories of different estuary types over the past 8000 years in order to predict their evolution over the next 1000 years. The models that are developed can be applied to estuarine systems both nationally and internationally.Read moreRead less
Salinity tolerance along an aridity gradient: linking physiological processes with morphological constraints on leaf function in mangroves. The proposed research will provide insight into the physiological and morphological features that control the productivity of mangrove forests across broad gradients in salinity and aridity. Central to this is this identification of plant traits that increase salt and drought tolerance, which will assist in the development of plant varieties suited to Austra ....Salinity tolerance along an aridity gradient: linking physiological processes with morphological constraints on leaf function in mangroves. The proposed research will provide insight into the physiological and morphological features that control the productivity of mangrove forests across broad gradients in salinity and aridity. Central to this is this identification of plant traits that increase salt and drought tolerance, which will assist in the development of plant varieties suited to Australian conditions. The results will also contribute to development of process-based models to better predict the response of mangrove vegetation to changing climate. A deep understanding of the processes that influence the growth and survival of mangroves is of fundamental importance to sustainable fisheries and protection of wildlife reliant on coastal ecosystems. Read moreRead less