Vacuum packing: a model system for laboratory‐scale silage fermentations

Vacuum packing: a model system for laboratory‐scale silage fermentations

Aims:  To determine the utility of vacuum‐packed polythene bags as a convenient, flexible and cost‐effective alternative to fixed volume glass vessels for lab‐scale silage studies. Methods and Results:  Using perennial ryegrass or red clover forage, similar fermentations (as assessed by pH measureme...

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Published in:Journal of applied microbiology Vol. 98; no. 1; pp. 106 - 113
Main Authors: Johnson, H.E., Merry, R.J., Davies, D.R., Kell, D.B., Theodorou, M.K., Griffith, G.W.
Format: Journal Article
Language:English
Published: Oxford, UK Blackwell Science Ltd 01-01-2005
Blackwell Science
Oxford University Press
Subjects:
Animal Feed
Biological and medical sciences
Environmental Monitoring - instrumentation
Environmental Monitoring - methods
Fermentation
Food Microbiology
Fundamental and applied biological sciences. Psychology
inoculants
Microbiology
model system
Models, Biological
modified atmosphere
packing density
Silage
Vacuum
Silage
Applied microbiology
inoculants
model system
Models
Modified atmosphere
Laboratory
packing density
Fermentation
Inoculant
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Summary:Aims:  To determine the utility of vacuum‐packed polythene bags as a convenient, flexible and cost‐effective alternative to fixed volume glass vessels for lab‐scale silage studies. Methods and Results:  Using perennial ryegrass or red clover forage, similar fermentations (as assessed by pH measurement) occurred in glass tube and vacuum‐packed silos over a 35‐day period. As vacuum‐packing devices allow modification of initial packing density, the effect of four different settings (initial packing densities of 0·397, 0·435, 0·492 and 0·534 g cm−3) on the silage fermentation over 16 days was examined. Significant differences in pH decline and lactate accumulation were observed at different vacuum settings. Gas accumulation was apparent within all bags and changes in bag volume with time was observed to vary according to initial packing density. Conclusions:  Vacuum‐packed silos do provide a realistic model system for lab‐scale silage fermentations. Significance and Impact of the Study:  Use of vacuum‐packed silos holds potential for lab‐scale evaluations of silage fermentations, allowing higher throughput of samples, more consistent packing as well as the possibility of investigating the effects of different initial packing densities and use of different wrapping materials.
Bibliography:Present address: D.B. Kell, Department of Chemistry, UMIST, PO Box 88, Sackville St, Manchester M60 1QD, UK.
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SourceType-Scholarly Journals-1
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ISSN:1364-5072
1365-2672
DOI:10.1111/j.1365-2672.2004.02444.x