Strategies to increase the stability of intermediate moisture foods towards Zygosaccharomyces rouxii: The effect of temperature, ethanol, pH and water activity, with or without the influence of organic acids

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Strategies to increase the stability of intermediate moisture foods towards Zygosaccharomyces rouxii: The effect of temperature, ethanol, pH and water activity, with or without the influence of organic acids. / Vermeulen, A.; Nielsen, Cecilie Lykke Marvig; Daelman, J.; Xhaferi, R.; Nielsen, Dennis Sandris; Devlieghere, F.

In: Food Microbiology, Vol. 45, 2015, p. 119-125.

Research output: Contribution to journalJournal articleResearchpeer-review

Harvard

Vermeulen, A, Nielsen, CLM, Daelman, J, Xhaferi, R, Nielsen, DS & Devlieghere, F 2015, 'Strategies to increase the stability of intermediate moisture foods towards Zygosaccharomyces rouxii: The effect of temperature, ethanol, pH and water activity, with or without the influence of organic acids', Food Microbiology, vol. 45, pp. 119-125. https://doi.org/10.1016/j.fm.2014.01.003

APA

Vermeulen, A., Nielsen, C. L. M., Daelman, J., Xhaferi, R., Nielsen, D. S., & Devlieghere, F. (2015). Strategies to increase the stability of intermediate moisture foods towards Zygosaccharomyces rouxii: The effect of temperature, ethanol, pH and water activity, with or without the influence of organic acids. Food Microbiology, 45, 119-125. https://doi.org/10.1016/j.fm.2014.01.003

Vancouver

Vermeulen A, Nielsen CLM, Daelman J, Xhaferi R, Nielsen DS, Devlieghere F. Strategies to increase the stability of intermediate moisture foods towards Zygosaccharomyces rouxii: The effect of temperature, ethanol, pH and water activity, with or without the influence of organic acids. Food Microbiology. 2015;45:119-125. https://doi.org/10.1016/j.fm.2014.01.003

Author

Vermeulen, A. ; Nielsen, Cecilie Lykke Marvig ; Daelman, J. ; Xhaferi, R. ; Nielsen, Dennis Sandris ; Devlieghere, F. / Strategies to increase the stability of intermediate moisture foods towards Zygosaccharomyces rouxii: The effect of temperature, ethanol, pH and water activity, with or without the influence of organic acids. In: Food Microbiology. 2015 ; Vol. 45. pp. 119-125.

Bibtex

@article{c5967a63bff345cdb3e3cccfba1f3d10,
title = "Strategies to increase the stability of intermediate moisture foods towards Zygosaccharomyces rouxii: The effect of temperature, ethanol, pH and water activity, with or without the influence of organic acids",
abstract = "Intermediate moisture foods (IMF) are in general microbiologically stable products. However, due to health concerns consumer demands are increasingly forcing producers to lower the fat, sugar and preservatives content, which impede the stability of the IMF products. One of the strategies to counteract these problems is the storage of IMF products at lower temperatures. Thorough knowledge on growth/no growth boundaries of Zygosaccharomyces rouxii in IMF products, also at different storage temperatures is an important tool for ensuring microbiologically stability. In this study, growth/no growth models for Z. rouxii, developed by Vermeulen et al. (2012) were further extended by incorporating the factor temperature. Three different data sets were build: (i) without organic acids, (ii) with acetic acid (10,000 ppm on product basis) and (iii) with sorbic acid (1500 ppm on product basis). For each of these data sets three different growth/no growth models were developed after 30, 60 and 90 days. The results show that the influence of temperature is only significant in the lower temperature range (8-15 °C). Also, the effect of pH is negligible (pH 5.0-6.2) unless organic acids are present. More specific, acetic acid had only an additive effect to ethanol and aw at low pH, whereas sorbic acid had also an additive effect at the higher pH values. For incubation periods longer than 30 days the growth/no growth boundary remained stable but enlarged gradually between day 60 and 90, except for the lower temperature range (<12 °C) where the boundary shifts to more stringent environmental conditions.",
author = "A. Vermeulen and Nielsen, {Cecilie Lykke Marvig} and J. Daelman and R. Xhaferi and Nielsen, {Dennis Sandris} and F. Devlieghere",
note = "Copyright {\textcopyright} 2014 Elsevier Ltd. All rights reserved.",
year = "2015",
doi = "10.1016/j.fm.2014.01.003",
language = "English",
volume = "45",
pages = "119--125",
journal = "Food Microbiology",
issn = "0740-0020",
publisher = "Academic Press",

}

RIS

TY - JOUR

T1 - Strategies to increase the stability of intermediate moisture foods towards Zygosaccharomyces rouxii: The effect of temperature, ethanol, pH and water activity, with or without the influence of organic acids

AU - Vermeulen, A.

AU - Nielsen, Cecilie Lykke Marvig

AU - Daelman, J.

AU - Xhaferi, R.

AU - Nielsen, Dennis Sandris

AU - Devlieghere, F.

N1 - Copyright © 2014 Elsevier Ltd. All rights reserved.

PY - 2015

Y1 - 2015

N2 - Intermediate moisture foods (IMF) are in general microbiologically stable products. However, due to health concerns consumer demands are increasingly forcing producers to lower the fat, sugar and preservatives content, which impede the stability of the IMF products. One of the strategies to counteract these problems is the storage of IMF products at lower temperatures. Thorough knowledge on growth/no growth boundaries of Zygosaccharomyces rouxii in IMF products, also at different storage temperatures is an important tool for ensuring microbiologically stability. In this study, growth/no growth models for Z. rouxii, developed by Vermeulen et al. (2012) were further extended by incorporating the factor temperature. Three different data sets were build: (i) without organic acids, (ii) with acetic acid (10,000 ppm on product basis) and (iii) with sorbic acid (1500 ppm on product basis). For each of these data sets three different growth/no growth models were developed after 30, 60 and 90 days. The results show that the influence of temperature is only significant in the lower temperature range (8-15 °C). Also, the effect of pH is negligible (pH 5.0-6.2) unless organic acids are present. More specific, acetic acid had only an additive effect to ethanol and aw at low pH, whereas sorbic acid had also an additive effect at the higher pH values. For incubation periods longer than 30 days the growth/no growth boundary remained stable but enlarged gradually between day 60 and 90, except for the lower temperature range (<12 °C) where the boundary shifts to more stringent environmental conditions.

AB - Intermediate moisture foods (IMF) are in general microbiologically stable products. However, due to health concerns consumer demands are increasingly forcing producers to lower the fat, sugar and preservatives content, which impede the stability of the IMF products. One of the strategies to counteract these problems is the storage of IMF products at lower temperatures. Thorough knowledge on growth/no growth boundaries of Zygosaccharomyces rouxii in IMF products, also at different storage temperatures is an important tool for ensuring microbiologically stability. In this study, growth/no growth models for Z. rouxii, developed by Vermeulen et al. (2012) were further extended by incorporating the factor temperature. Three different data sets were build: (i) without organic acids, (ii) with acetic acid (10,000 ppm on product basis) and (iii) with sorbic acid (1500 ppm on product basis). For each of these data sets three different growth/no growth models were developed after 30, 60 and 90 days. The results show that the influence of temperature is only significant in the lower temperature range (8-15 °C). Also, the effect of pH is negligible (pH 5.0-6.2) unless organic acids are present. More specific, acetic acid had only an additive effect to ethanol and aw at low pH, whereas sorbic acid had also an additive effect at the higher pH values. For incubation periods longer than 30 days the growth/no growth boundary remained stable but enlarged gradually between day 60 and 90, except for the lower temperature range (<12 °C) where the boundary shifts to more stringent environmental conditions.

U2 - 10.1016/j.fm.2014.01.003

DO - 10.1016/j.fm.2014.01.003

M3 - Journal article

C2 - 25481068

VL - 45

SP - 119

EP - 125

JO - Food Microbiology

JF - Food Microbiology

SN - 0740-0020

ER -

ID: 140387911