Browsing by Subject "Volatiles"

As the number of vegetarians and flexitarians is increasing, the demand for meat alternatives is following the same trend. Faba bean is a promising crop for environmental, health, and social reasons. From its seeds, several products can be produced, such as flour, protein concentrate, and protein isolate. These materials can be further processed for the development of texturized vegetable proteins. In this context, high moisture extrusion (HME) is an innovative technology, which requires more water, but milder temperatures than the more studied low moisture extrusion. The present thesis aimed at covering the current knowledge gap on this technology, by focusing on the flavor aspect of faba bean-based meat alternatives. The volatile profile of faba bean flour, protein concentrate, protein isolate, and mixtures was studied before and after high moisture extrusion by means of HS-SPME-GC-MS. Comparisons were made between raw materials (flour, protein concentrate, protein isolate, mixtures) and extrudates. The effect of the origin (Canadian and Finnish) of the protein concentrate was also investigated. Materials were also characterized for the following aspects: moisture, ash, protein, lipids, lipid-degrading enzymes (lipase and lipoxygenase), free amino acids, and free mono-, di-, and oligosaccharides. Several classes of volatile compounds were observed in both raw materials and extrudates, namely organic acids, alcohols, aldehydes, alkanes, alkenes, aromatic compounds, furans, esters, ketones, nitro compounds, and terpenes. Many compounds were characteristic of only one material, demonstrating that the formation of certain volatiles was product dependent. However, some other compounds were found in all materials, such as 1-hexanol, hexanal, and 2-pentylfuran. Literature addresses these compounds as responsible for the beany flavor. HME caused the inactivation of lipase and lipoxygenase but did not prevent the formation of lipid oxidation products. Products from Maillard reaction were not found in the extrudates. After HME, 1-hexanol levels decreased, whereas the abundance of 2-pentylfuran significantly increased. The behavior of hexanal after HME was less stable and predictable than the two beforementioned compounds. Not only these novel findings could have application in product development, but they also laid the basis for further research aimed at improving the flavor of faba bean.