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PROJECT NUMBER • 2008-700
PROJECT STATUS:
COMPLETED

SCRC: PhD : Protecting the Safety and Quality of Australian Oysters using Predictive Models Integrated with ‘Intelligent’ Cold Chain Technologies

Vibrio parahaemolyticus is a bacterial species indigenous to marine environments and can accumulate in oysters. Some V. parahaemolyticus strains are pathogenic and seafoodborne outbreaks are observed worldwide. This pathogen can reach infectious levels in oysters if post-harvest temperatures are not...
ORGANISATION:
University of Tasmania (UTAS)
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PROJECT NUMBER • 2010-765
PROJECT STATUS:
COMPLETED

SCRC: Seafood CRC Visiting Expert and Master Classes - Dr Paw Dalgaard - SSSP and related food safety and quality software

Dr. Paw Dalgaard of the Danish Technical University is internationally recognised for his work on microbial quality, spoilage and safety of fish. His research studies are made accessible to industry through internet software that can be used to predict the growth of bacteria of interest on seafood...
ORGANISATION:
University of Tasmania (UTAS)
Industry
PROJECT NUMBER • 1987-008
PROJECT STATUS:
COMPLETED

The effects of environmental factors on microbial growth in prepared seafood products and prediction of shelf life and safety

This project commenced in July 1987, with the cooperation of various sections of the fishing industry, including oyster growers and processors, salmonid farmers, and producers of value added products. For each of the products investigated, the basic research method has been to determine the...
ORGANISATION:
University of Tasmania (UTAS)
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PROJECT NUMBER • 2008-768
PROJECT STATUS:
COMPLETED

SCRC: PDRS - Seafood Molecular Biologist: Mapping Microbial Communities in Seafood Production and Processing Environments to Improve Targeting Intervention Strategies (Dr Shane Powell)

Until the 1990s, when it became possible to access and analyse DNA directly from the environment, the study of microbiology was limited to studying microbes that were able to be grown in artificial culture. The advent of DNA-based methods provided a way to access and study the enormous diversity of...
ORGANISATION:
University of Tasmania (UTAS)
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