Filters
Analysis of Sensory Attributes and Purchasing Decisions of Plant-Based Beverages of Young Consumers in Poland on a Vegan and Traditional Diet
This study aimed to analyse young consumers’ behaviour in Poland toward the consumption of plant-based beverages as milk alternatives. The sensory analysis included oat, buckwheat, cashew, almond, soy, pea, rice, coconut, hazelnut, and macadamia nut beverages and their mixtures. Quantitative analysis of sensory desirability and sensory profiling were employed to evaluate plant-based beverages. The study was conducted among young people (aged 18–35) who declared a vegan or omnivorous diet. It was found that the most frequently consumed beverages included oat and soy beverages, both among vegan and traditional (omnivorous) young groups. A significantly lower frequency of plant-based beverage consumption was confirmed in the group of people with an omnivorous diet. The taste characteristics in plant-based beverages are a key factor in driving sensory desirability among young consumers. Analysis of the influence of respondents’ declared diet and gender revealed no significant differences in the desirability of the taste of the plant-based beverages. The consumers rated the coconut, pea, macadamia, oat, and rice–coconut beverages as the most desirable in terms of taste. The lowest taste desirability was confirmed for the soy drink despite its high reported consumption. The importance of this study focused on the local market development in vegan food, as well as its potential due to further consumer expectations.
Analysis of the Use of Carrots, Cauliflower and Broccoli Waste Materials as a Matrix for Thiamine
The investigation aimed to use selected waste plant materials as thiamine matrices for fortification purposes. Thiamine hydrochloride (TCh) and thiamine pyrophosphate (TP) constituted the sources of thiamine. The waste vegetable variables (carrots (crowns, peel), cauliflower, and broccoli (stems, leaves)) were used as a matrix for the thiamine. The peeled carrots, without crowns, as well as the florets of cauliflower and broccoli, were also used as a matrix for thiamine, serving as a reference for the waste used. Fortification effectiveness was analysed based on thiamine content analysis in the product immediately after freeze-drying and after storage (230 days at 4, 21, and 40 °C). The results confirmed that after six months of storage, these products contained thiamine at 55 to 90% of the level found in samples immediately after drying. The results confirm the effectiveness of using analysed waste plant materials as matrices for thiamine. The highest effectiveness was confirmed for broccoli and cauliflower leaves. The analysis of the influence of all predictors on thiamine changes revealed that storage temperature significantly affected thiamine loss in all carriers. It was confirmed that the lower the storage temperature, the lower the dynamics of thiamine loss. It was also confirmed that TP had a lower thiamine retention.
Influence of Heat Treatment Prior to Fortification on Goitrogenic Compounds, Iodine Stability and Antioxidant Activity in Cauliflower
Iodine deficiency remains a global public health concern. Preliminary studies confirmed that cauliflower can serve as a carrier for iodine salts. However, the influence of its endogenous goitrogenic compounds (phenolic compounds and glucosinolates) on iodine utilisation is not fully understood. This study aimed to assess the potential for enhancing cauliflower’s effectiveness as an iodine carrier through various thermal pre-treatment methods, and to examine how these methods, along with the plant’s endogenous goitrogens, affect iodine stability. Cauliflower was cooked by steaming or boiling (covered or uncovered) and fortified with KI or KIO3. Iodine content, selected phenolic compounds (sinigrin, progoitrin, glucobrassicin, gluconapin, indole-3-carbinol) and antioxidant activity (ABTS●+, DPPH●) were analysed immediately after fortification and after 90 days of storage at 4, 21, or 40 °C under controlled humidity and darkness. The results showed that both the heat-treatment method and storage temperature significantly affected iodine retention and were associated with changes in goitrogenic compounds and antioxidant capacity. Cauliflower demonstrated favourable stability as a carrier of iodine, although phytochemical composition influenced fortification outcomes. These findings suggest that the initial heat treatment of cauliflower significantly affects its effectiveness as a matrix for iodine fortification, likely due to differences in the content of goitrogenic compounds.