9 results
Environment
Environment
PROJECT NUMBER • 2005-072
PROJECT STATUS:
COMPLETED

Water use across a catchment and effects on estuarine health and productivity

This research has shown that the profitability of both agriculture on land and aquaculture in the estuary is affected by changing freshwater flows. To assess the value of water to different users across a catchment we developed a generic water accounting framework and populated it with available...
ORGANISATION:
University of Tasmania (UTAS)
Environment
Environment
Industry
PROJECT NUMBER • 2018-090
PROJECT STATUS:
COMPLETED

Improving early detection surveillance and emergency disease response to Pacific Oyster Mortality Syndrome (POMS) using a hydrodynamic model for dispersion of OsHV-1

Rapid predictive capability of viral spread through water during an aquatic disease outbreak is an epidemiologist’s dream, and up until now has not been achievable. A biophysical particle tracking model for Ostreid herpesvirus 1 microvariant (OsHV-1) that causes POMS was developed to determine...
ORGANISATION:
Department of Primary Industries and Regions South Australia (PIRSA)
Environment
PROJECT NUMBER • 2016-023
PROJECT STATUS:
COMPLETED

Sentinel sensors: revolutionising our understanding and management of the estuarine environment

This study, undertaken by CSIRO Oceans and Atmosphere, examines the usefulness of mussels as sentinels for environmental change using a novel biosensor. This project measured the vital signs of heart rate and behaviour in sentinel animals, as they respond to multiple and interacting changes in the...
ORGANISATION:
CSIRO Oceans and Atmosphere Hobart
Industry
PROJECT NUMBER • 2021-083
PROJECT STATUS:
CURRENT

Developing the tools and articulating the value proposition for genomic selection in Pacific Oyster selective breeding

To understand the opportunities and value in carbon neutral certification for the Australian oyster industry, FRDC and Oysters Australia commissioned NineSquared Pty Ltd to outline the current policy climate, pathways to certification and knowledge gaps limiting opportunity...
ORGANISATION:
Institute for Marine and Antarctic Studies (IMAS) Hobart
Environment
PROJECT NUMBER • 2014-032
PROJECT STATUS:
COMPLETED

Improved understanding of Tasmanian harmful algal blooms and biotoxin events to support seafood risk management

The 2012 Tasmanian biotoxin event represents a paradigm shift for seafood risk management in Tasmania and Australia as a whole. The causative dinoflagellates are extremely difficult to identify by routine plankton monitoring, and are toxic at very low cell concentrations (50-100 cells/L). Sampling...
ORGANISATION:
University of Tasmania (UTAS)
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