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PROJECT NUMBER • 2016-177

PROJECT STATUS:

COMPLETED

Phase 2: Traceability Systems for Wild Caught Lobster, via Sense-T and Pathways to Market

This document is the final report of the project (FRDC 2016-177) ‘Traceability Systems for Wild Caught Lobsters’. It has been prepared by researchers from University of Tasmania. Background The project ‘Traceability Systems for Wild Caught Lobster, via Sense-T and Pathways...

ORGANISATION:

University of Tasmania (UTAS)

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SPECIES

Southern Rock Lobster

FINAL REPORT

•

PUBLISHED DATE: 08 Sep 2020

2016-177-DLD.pdf

PROJECT NUMBER • 2007-710

PROJECT STATUS:

COMPLETED

Seafood CRC: review of traceability and freshness indicator technologies

This project is a desk top study to critically evaluate the traceability and freshness indicator technologies that are relevant to the Australian seafood industry. This report will serve as the foundation for future studies within the Seafood CRC that will integrate relevant technologies, foster...

ORGANISATION:

University of Tasmania (UTAS)

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PUBLISHED DATE: 01 Nov 2007

2007-710-DLD.pdf

PROJECT NUMBER • 2008-790

PROJECT STATUS:

COMPLETED

SCRC: CoolFish - Traceability and product sensor technologies to manage seafood cool chains APPROVAL FOR PHASE 1 ONLY FOR $14,600

This report constitutes the completion of Phase 1 of the CoolFish Project. The overall objective of the CoolFish project is to utilise commercial traceability and product sensor technologies to address current business impediments and business opportunities in cool chains to support increased...

ORGANISATION:

University of Tasmania (UTAS)

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PUBLISHED DATE: 31 Oct 2009

2008-790-DLD.pdf

PROJECT NUMBER • 2008-734

PROJECT STATUS:

COMPLETED

SCRC: PhD : Methodologies for the implementation of Micro Mobile Information Systems in the Cold Chain and the resulting implications of Time Temperature logging for Models of Microbial Growth

ORGANISATION:

University of Tasmania (UTAS)

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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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PUBLISHED DATE: 31 Jan 2011

2008-700-DLD-PhD.pdf