U. Stöllman scite author profile

Six fungal species, Penicillium brevicompactum, P. glabrum, P. roqueforti, AspergiUusflavus, A. versicolor, and A. candidus, were inoculated on moistened and autoclaved wheat and oat grains. They were cultivated in glass vessels provided with an inlet and outlet for air. Air was passed through the vessels to collect volatile fungal metabolites on porous polymer adsorbents attached to the outlet. Samples were collected at two fungal growth stages. Adsorbed compounds were thermally desorbed, separated by gas chromatography, and identified by mass spectrometry. Differences in the production of volatile metabolites depended more on the fungal species than on the grain type. The fungal growth stage was not an important factor determining the composition of volatiles produced. 3-Methylfuran was produced in similar amounts regardless of the fungal species and substrate (oat versus wheat). The production of volatile metabolites was compared with the production of ergosterol and CO2 and the number of CFU. The production of volatile metabolites was more strongly correlated with accumulated CO2 production than with actual CO2 production and more strongly correlated with ergosterol contents of the grain than with numbers of CFU.

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Off-odorous compounds produced by molds on oatmeal agar: Identification and relation to other growth characteristics

Börjesson¹,

Stöllman²,

Schnürer³

1993

J. Agric. Food Chem.

102

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Volatile metabolites and other indicators of Penicillium aurantiogriseum growth on different substrates

Börjesson

Stöllman

Schnürer

1990

Appl Environ Microbiol

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Penicillium aurantiogriseum Dierckx was cultivated on six agar substrates (barley meal agar, oat meal agar, wheat meal agar, malt extract agar, Czapek agar, and Norkrans agar) and on oat grain for 5 days in cultivation vessels provided with an inlet and an outlet for air. Volatile metabolites produced by the cultures were collected on a porous polymer adsorbent by passing an airstream through the vessel. Volatile metabolites were collected between days 2 and 5 after inoculation. CO2 production was simultaneously measured, and after the cultivation period ergosterol contents and the numbers of CFU of the cultures were determined. Alcohols of low molecular weight and sesquiterpenes were the dominant compounds found. During growth on oat grain the production of 8-carbon alcohols and 3-methyl-1-butanol was higher and the production of terpenes was lower than during growth on agar substrates. The compositions of the volatile metabolites from oat grain were more similar to those from wheat grain, which was used as a substrate in a previous investigation, than to those produced on any of the agar substrates. Regarding the agar substrates, the production of terpenes was most pronounced on the artificial substrates (Czapek agar and Norkrans agar) whereas alcohol production was highest on substrates based on cereals. The production of volatile metabolites was highly correlated with the production of CO2 and moderately correlated with ergosterol contents, whereas no correlation with the numbers of CFU was found. Thus, the volatile metabolites formed and the ergosterol contents of fungal cultures should be good indicators of present and past fungal activity.

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Lipase Activity and Development of Rancidity in Oats and Oat Products Related to Heat Treatment during Processing

Ekstrand

Gangby

Akesson

et al. 1993

Journal of Cereal Science

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Packaging and food quality

Stöllman¹,

Johansson²,

Leufvén³

1994

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U. Stöllman

Volatile metabolites produced by six fungal species compared with other indicators of fungal growth on cereal grains

Off-odorous compounds produced by molds on oatmeal agar: Identification and relation to other growth characteristics

Volatile metabolites and other indicators of Penicillium aurantiogriseum growth on different substrates

Lipase Activity and Development of Rancidity in Oats and Oat Products Related to Heat Treatment during Processing

Packaging and food quality

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