Seafood molecular biologist: mapping microbial communities in seafood production and processing environments to improve targeting intervention strategies

Until the 1990s, when it became possible to access and analyse DNA directly from the environment, the study of microbiology was limited to studying those 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 diversi...

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Bibliographic Details
Main Authors: Powell, SM, Tamplin, ML
Format: Report
Language:English
Published: Australian Seafood Cooperative Research Centre 2014
Subjects:
Biological Sciences
Microbiology
Microbial Ecology
Atlantic salmon
Online Access:http://ecite.utas.edu.au/93792
id ftunivtasecite:oai:ecite.utas.edu.au:93792
record_format openpolar
spelling ftunivtasecite:oai:ecite.utas.edu.au:93792 2023-05-15T15:32:13+02:00 Seafood molecular biologist: mapping microbial communities in seafood production and processing environments to improve targeting intervention strategies Powell, SM Tamplin, ML 2014 application/pdf http://ecite.utas.edu.au/93792 en eng Australian Seafood Cooperative Research Centre http://ecite.utas.edu.au/93792/1/2008_768_tamplin_final report_due April 30 2014.pdf Powell, SM and Tamplin, ML, Seafood molecular biologist: mapping microbial communities in seafood production and processing environments to improve targeting intervention strategies, Australian Seafood Cooperative Research Centre, 2008/768 (2014) [Contract Report] http://ecite.utas.edu.au/93792 Biological Sciences Microbiology Microbial Ecology Contract Report NonPeerReviewed 2014 ftunivtasecite 2019-12-13T21:56:35Z Until the 1990s, when it became possible to access and analyse DNA directly from the environment, the study of microbiology was limited to studying those 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 microbes that actually exist. Some fields of microbiology were quicker to take up this technology than others. Microbiological analyses carried out in industrial settings have, although this is changing, remained culture-based because they are standard methods required by regulators. They tend to be technically straight-forward and inexpensive. The goal of the Seafood Molecular Biologist was to apply DNA-based techniques to a range of existing problems within the seafood industries. The three projects developed covered shellfish aquaculture, the processing of Atlantic salmon and supply chains in the wild prawn fishery. Due to the varied nature of these projects, they are treated separately in this report. Report Atlantic salmon eCite UTAS (University of Tasmania)
institution Open Polar
collection eCite UTAS (University of Tasmania)
op_collection_id ftunivtasecite
language English
topic Biological Sciences
Microbiology
Microbial Ecology
spellingShingle Biological Sciences
Microbiology
Microbial Ecology
Powell, SM
Tamplin, ML
Seafood molecular biologist: mapping microbial communities in seafood production and processing environments to improve targeting intervention strategies
topic_facet Biological Sciences
Microbiology
Microbial Ecology
description Until the 1990s, when it became possible to access and analyse DNA directly from the environment, the study of microbiology was limited to studying those 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 microbes that actually exist. Some fields of microbiology were quicker to take up this technology than others. Microbiological analyses carried out in industrial settings have, although this is changing, remained culture-based because they are standard methods required by regulators. They tend to be technically straight-forward and inexpensive. The goal of the Seafood Molecular Biologist was to apply DNA-based techniques to a range of existing problems within the seafood industries. The three projects developed covered shellfish aquaculture, the processing of Atlantic salmon and supply chains in the wild prawn fishery. Due to the varied nature of these projects, they are treated separately in this report.
format Report
author Powell, SM
Tamplin, ML
author_facet Powell, SM
Tamplin, ML
author_sort Powell, SM
title Seafood molecular biologist: mapping microbial communities in seafood production and processing environments to improve targeting intervention strategies
title_short Seafood molecular biologist: mapping microbial communities in seafood production and processing environments to improve targeting intervention strategies
title_full Seafood molecular biologist: mapping microbial communities in seafood production and processing environments to improve targeting intervention strategies
title_fullStr Seafood molecular biologist: mapping microbial communities in seafood production and processing environments to improve targeting intervention strategies
title_full_unstemmed Seafood molecular biologist: mapping microbial communities in seafood production and processing environments to improve targeting intervention strategies
title_sort seafood molecular biologist: mapping microbial communities in seafood production and processing environments to improve targeting intervention strategies
publisher Australian Seafood Cooperative Research Centre
publishDate 2014
url http://ecite.utas.edu.au/93792
genre Atlantic salmon
genre_facet Atlantic salmon
op_relation http://ecite.utas.edu.au/93792/1/2008_768_tamplin_final report_due April 30 2014.pdf
Powell, SM and Tamplin, ML, Seafood molecular biologist: mapping microbial communities in seafood production and processing environments to improve targeting intervention strategies, Australian Seafood Cooperative Research Centre, 2008/768 (2014) [Contract Report]
http://ecite.utas.edu.au/93792
_version_ 1766362729602351104

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