Abstract
Versatile microbiota are inevitably naturally present on cereals. Fungi, yeasts and bacteria and their metabolites all contribute to the quality and safety of the final products derived from most common beer cereals—barley and wheat. The microorganisms that are most often associated with the safety and quality of cereals for beer production belong to the Fusarium spp. They greatly influence yields from the field, and can modify and diminish economic success for farmers. However, the real problem is their harmful metabolites—mycotoxins—that affect the health of humans and animals. In the era of emerging analytical methodologies, the spectrum of known toxins originating from microorganisms that can pose a threat to humans has grown tremendously. Therefore, it is necessary to monitor microflora throughout the productive “barley to beer” chain and to act suppressive on the proliferation of unwanted microorganisms, before and during malting, preventing the occurrence of mycotoxins in final products and by-products. Multi-mycotoxin analyses are very advanced and useful tools for the assessment of product safety, and legislation should follow up and make some important changes to regulate as yet unregulated, but highly occurring, microbial toxins in malt and beer.
Highlights
Cereals, such as wheat and barley, have always been a valuable source of food for humans and animals
Wheat is mostly used as a raw material for the baking industry, but malting and brewing industries take up a significant portion of cereal production
Thin-layer chromatography (TLC), gas chromatography (GC), liquid chromatography (LC), LC coupled with mass spectrometry (LC/MS) or immunochemical methods, such as ELISA, can be used for mycotoxin determination [58]
Summary
Cereals, such as wheat and barley, have always been a valuable source of food for humans and animals. Wheat is mostly used as a raw material for the baking industry, but malting and brewing industries take up a significant portion of cereal production. These industries are very conscious of Fusarium infections of cereals intended for malting. Wheat and barley intended for malting have to fulfil strict limits and recommendations on the quality of raw material used for malting and brewing. Some of the main quality parameters for malt are: protein content, β-glucan content, Kolbach index, malt extract, extract difference, saccharification time, wort colour, viscosity FAN (free amino nitrogen) [1]. Protein content is one of the most important parameters and ranges between 11 and
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