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)
The principal goal of this research was to provide a detailed characterisation of the oyster microbiome and identify links between specific features of the microbiome and oyster disease and mortality events. The conceptual framework for this work is based upon: (i) increasing...
The objective of this project was to undertake opportunistic plankton sampling and collect
small non-commercial species of decapod crustaceans in northern Moreton Bay and near the
intakes of the three prawn farms which remained operating on the Logan River during April and May 2020,
at a time when...
This project assessed the performance of mechanical filtration as a means by which Australian prawn farmers could lower the risk of disease agent transfer into farms by selective removal of disease hosts and other vectors naturally present in farm source water. The project sought to provide...
ORGANISATION:
Department of Agriculture and Fisheries EcoScience Precinct
Following the outbreak of Pacific Oyster Mortality Syndrome (POMS) in the Port River, South Australia in summer 2017-18, a need was identified for rapid diagnostic technology for OsHV-1, the causative agent of POMS. During the February 2016 OsHV-1 outbreak in Tasmania, tracing activities in...