Abstract
Ready-to-eat (RTE) foods have been identified as a high-risk food group because of the number of outbreaks caused by food-borne pathogens isolated from these products. As these items receive no further processing or heat treatment prior to consumption, bacterial pathogens such as Salmonella, Staphylococcus aureus, Escherichia coli, and Listeria monocytogenes present a serious threat to consumer safety. Of particular concern, L. monocytogenes is resistant to various food storage techniques, including reduced or modified atmosphere packaging, refrigerated storage, and increased salt concentration. Cold-smoked fishery products have been implicated in a number of listeriosis cases, where it is estimated that between 6 and 36% of cold-smoked fish is contaminated with L. monocytogenes. Edible coatings incorporated with natural antimicrobials have been suggested to control pathogenic and spoilage bacteria on a variety of meat products. In this study, edible zein-based coatings incorporated with nisin and lemongrass essential oil (LG) (8%) were evaluated for antibacterial action against L. monocytogenes and spoilage organisms on cold-smoked, cultured hybrid striped bass, Morone saxatilis × Morone chrysops, under polyvinyl chlorine (PVC) and vacuum packaging for 14 days (PVC) and 42 days (vacuum packaging), respectively, at 4°C. In this study, corn zein-based edible coatings were found to be an effective carrier for nisin and LG. Nisin-treated samples were most effective against L. monocytogenes in both PVC and vacuum-packaged fillets, with a total reduction of 3.5 log and 3.7 log, respectively over the length of the storage time. LG-treated samples reduced L. monocytogenes cell counts by 2.5 log in PVC and 1.7 log in vacuum-packaged samples. Only LG-treated samples packaged in PVC were found to inhibit the growth of spoilage organisms. Because nisin- and LG-treated fillets reduced L. monocytogenes, they may be useful methods to improve food safety in smoked seafood.
| Original language | English |
|---|---|
| Pages (from-to) | 575-592 |
| Number of pages | 18 |
| Journal | Journal of the World Aquaculture Society |
| Volume | 50 |
| Issue number | 3 |
| DOIs | |
| State | Published - Jun 2019 |
Bibliographical note
Funding Information:information USDA, Grant/Award Numbers: KYX-80-09-18A, KYX-80-09-18AWe thank N. Ann, K.C., Lyd Dia, I.G. Gee, P.O.P. Ins, M.I. Kaal, B.R. Lee, T.L. Lee, E.M. Maa, Cathy Rhin, Shi Ron, M.S. Tee, D.R. Wynne, and Sam Wise for their technical assistance. This manuscript is in partial fulfillment of a Master's of Science degree, Division of Aquaculture, Kentucky State University for the lead author. Use of trade or manufacturer's name does not imply endorsement. Research was partially funded by a USDA grant under agreement KYX-80-09-18A to Kentucky State University.
Funding Information:
We thank N. Ann, K.C., Lyd Dia, I.G. Gee, P.O.P. Ins, M.I. Kaal, B.R. Lee, T.L. Lee, E.M. Maa, Cathy Rhin, Shi Ron, M.S. Tee, D.R. Wynne, and Sam Wise for their technical assistance. This manuscript is in partial fulfillment of a Master's of Science degree, Division of Aquaculture, Kentucky State University for the lead author. Use of trade or manufacturer's name does not imply endorsement. Research was partially funded by a USDA grant under agreement KYX-80-09-18A to Kentucky State University.
Publisher Copyright:
© Copyright by the World Aquaculture Society 2018
Keywords
- antimicrobial edible coating
- essential oil
- food safety aquaculture
- inhibition of Listeria monocytogenes
- lemongrass essential oil
ASJC Scopus subject areas
- Aquatic Science
- Agronomy and Crop Science