Ailsa D. Hocking

Fungi and food spoilage

Introduction. The Ecology of Fungal Food Spoilage. Naming and Classifying Fungi. Methods for Isolation, Enumeration and Identification. Primary Keys and Miscellaneous Fungi. Zygomycetes. Penicillium and Related Genera. Aspergillus and Relataed Teleomorphs. Xerophiles. Yeast. Spoilage of Fresh and Perishable Foods. Spoilage of Stored, Processed and Preserved Foods. Media Appendix. Glossary. Index

Microbiology of wheat and flour milling in Australia

A survey was undertaken to determine the microbiological status of Australian wheat and the distribution of microorganisms in the flour milling fractions and end products. A total of 650 milling process and end product samples was obtained from nine flour mills located in New South Wales (4), Queensland (2), Victoria (2) and Western Australia (1) during the 1997-1998 and 1998-1999 wheat seasons. Most frequent (modal) counts in wheat and flour were, respectively, as follows: aerobic mesophilic plate count, 10(5) and 10(2) colony forming units/gram (cfu/g); coliforms, 10 and 1 most probable number/gram (MPN/g); Bacillus spp., 10(4) and 10(2) cfu/g; B. cereus, 1 and 0.1 MPN/g; mesophilic aerobic spores, 10 and 1 cfu/g; aerobic thermophiles, both 10 cfu/g; yeasts, 10(3) and 10(2) cfu/g, and moulds, 10(3) and 10(2) cfu/g. Bacillus spp., coliforms, yeasts and moulds were the most frequently detected microorganisms throughout the survey. The most common moulds isolated were Aspergillus, Penicillium, Cladosporium and Eurotium spp. Environmental serovars of Salmonella were isolated from two samples. Escherichia coli and B. cereus were present at very low levels, a majority of positive samples being at the minimum level of detection (3 and 0.3 MPN/g, respectively). As wheat grain layers are separated, surface-adhering contaminants are concentrated in end product bran, wheat germ and pollard, which comprise the outer layers of the grain. Consequently, the inner endosperm fraction contains lower microbial counts, and flour is the cleanest end product of the milling process. Higher microbiological counts midstream in the milling process indicate that equipment contamination may contribute to microbiological contamination; however, the microbiological quality of incoming wheat has a strong influence on the ultimate quality of milling end products.

Influence of temperature, water activity and pH on growth of some xerophilic fungi.

The combined effects of water activity (aw), pH and temperature on the germination and growth of seven xerophilic fungi important in the spoilage of baked goods and confectionery were examined. Eurotium rubrum, E. repens, Wallemia sebi, Aspergillus penicillioides, Penicillium roqueforti, Chrysosporium xerophilum and Xeromyces bisporus were grown at 25, 30 and 37 degrees C on media with pH values of 4.5, 5.5, 6.5 and 7.5 and a range of water activities (aw) from 0.92 to 0.70. The aw of the media was controlled with a mixture of equal parts of glucose and fructose. Temperature affected the minimum aw for germination for most species. For example, P. roqueforti germinated at 0.82 aw at 25 degrees C, 0.86 aw at 30 degrees C and was unable to germinate at 37 degrees C. E. repens germinated at 0.70 aw at 30 degrees C, but at 25 and 37 degrees C, its minimum aw for germination was 0.74. C. xerophilum and X. bisporus germinated at 0.70 aw at all three temperatures. The optimum growth occurred at 25 degrees C for P. roqueforti and W. sebi, at 30 degrees C for Eurotium species, A. penicillioides and X. bisporus and at 37 degrees C for C. xerophilum. These fungi all grew faster under acidic than neutral pH conditions. The data presented here provide a matrix that will be used in the development of a mathematical model for the prediction of the shelf life of baked goods and confectionery.

Growth of fungi and mycotoxin production on cheese under modified atmospheres.

The use of modified atmospheres to prevent fungal growth and mycotoxin production in cheese was evaluated. Eight fungal species: Mucor plumbeus, Fusarium oxysporum, Byssochlamys fulva, B. nivea, Penicillium commune, P. roqueforti, Aspergillus flatus and Eurotium chevalieri were inoculated onto cheese and incubated under conditions of decreasing concentrations of O2 (5% to < 0.5%) and increasing concentrations of CO2 (20-40%). Fungal growth was measured by colony diameter and ergosterol content. All fungi examined grew in atmospheres containing 20% and 40% CO2 with 1% or 5% O2, but growth was reduced by 20-80%, depending on species, compared with growth in air. The formation of aflatoxins B1 and B2, roquerfortine C and cyclopiazonic acid was greatly decreased but not totally inhibited in these atmospheres. At 20% or 40% CO2 with < 0.5% O2, only B. nivea exhibited growth, which was very slow. Growth of F. oxysporum, B. fulca, P. commune and A. flavus showed good correlations between colony diameter and ergosterol content. However, for the other species correlations were inconsistent.

Water relations of some Penicillium species at 25 °C

The water relations of one isolate of each of 26 Penicillium species was studied at 25 °C. Eight isolates were grown on media with water activity (aw) controlled by NaCl, glycerol or a glucose/fructose mixture. As the differences in effects caused by the various solutes were slight, the other eighteen were grown on glycerol based media only. Minimum water activities permitting germination differed widely, from 0.90 for P. digitatum (Pers. ex Fr.) Sacc. and P. funiculosum Thorn to 0.78 for P. brevicompactum Dierckx, P. implicatum Biourge, P. janczewskii Zaleski and P. phoeniceum van Beyma. Data on the influence of water activity on radial growth are also provided.

Advances in the predictive modelling of fungal growth in food

Mathematical modelling of fungal growth, and the ability to predict whether a particular fungus will grow in a food, and if so at what rate, has not received a similar degree of interest as modelling of bacterial growth. One of the main problems is the difficulty of acquiring sufficient, reproducible data that are suitable for modelling. In this review, we aim to introduce the principles of modelling of fungal growth and summarize some of the recent literature that describes the application of modelling and predictive techniques to yeasts and moulds. Particular attention has been paid to the use of automated methods for assessing growth.

Fungi causing thread mould spoilage of vacuum packaged Cheddar cheese during maturation.

Thread mould is a defect which occurs sporadically in maturing vacuum packaged Cheddar cheese, caused by the growth of fungi in folds and wrinkles of the plastic film in which the cheese is packaged. Fungi were isolated and identified from 110 Cheddar cheese blocks exhibiting typical thread mould defects. The major causative species were found to be Cladosporium cladosporioides, Penicillium commune, C. herbarum, P. glabrum and a Phoma species. Yeasts were also frequently isolated from the cheese, the majority belonging to the genus Candida. Fungal species which can cause thread mould defects were also found in the cheese factory environment, on cheesemaking equipment, in air, and in curd and whey, providing a wide range of potential sources of contamination.

Inactivation of food spoilage fungi by ultra violet (UVC) irradiation

The effect of ultraviolet irradiation (254 nm, UVC) on Aspergillus flavus, Aspergillus niger, Penicillium corylophilum and Eurotium rubrum was investigated using three different exposure techniques. Survival was determined for spores suspended in liquid medium after 1, 2 and 3 min UVC exposure at 4644 J/m(2)/min. The same UVC dose was applied to spores on the surface of agar plates for 5, 10, 15, 30, 60 and 120 s. Spores of A. niger were dried onto a membrane filter, then exposed to UVC treatment. In the liquid medium, treatments from 1-3 min significantly (P<0.001) reduce the number of viable spores. On the surface of agar plates, after a 15 s exposure, a 80-99% reduction of viable spores was observed for all species except A. niger, for which the reduction was only 62%. For spores dried onto filter membranes, a 3.5 log(10) reduction was achieved for A. niger after 180 s exposure. These observations suggest that UVC irradiation can effectively inactivate spores of A. flavus, P. corylophilum, E. rubrum and A. niger but the efficacy of UVC radiation against fungal spores varies significantly according to methods of exposure to the irradiation, and among genera.

Aspergillus and Related Teleomorphs

Thriving in, or at least tolerant of, elevated temperatures and reduced water activities, species of Aspergillus and its teleomorph Eurotium are the epitome of spoilage fungi. There are few kinds of foods, commodities and raw materials from which Aspergilli cannot be isolated consistently.

Ochratoxin A-producing Aspergilli in Vietnamese green coffee beans

Aims:  To determine the incidence and severity of infection by ochratoxin A (OA)‐producing fungi in Vietnamese green coffee beans.