The effects of yoghurt fortification with rhubarb (RE), grape seed (GSE), thyme (TE), green tea (GTE) and mint (ME) extracts on the physicochemical, rheological, textural and sensory properties during cold storage were investigated. The syneresis value of the extract‐fortified yoghurts was higher and the colour was lighter in comparison with control sample. The values of texture parameters such as firmness and consistency in RE and TE samples were higher than of CS, and all extract‐fortified samples, except GSE, showed higher cohesiveness and viscosity. The ME‐fortified yoghurt was found tastiest with the highest overall appreciable score. These food‐agriculture wastes could be valorised for improving the nutritional and textural properties of yoghurt.
The acidification and reducing capacities of yoghurt bacteria were evaluated in different plant extract-enriched milk samples. The milk samples enriched with thyme and grape seed extracts exhibited the highest values of acidification capacity for Lactobacillus delbrueckii subsp. bulgaricus (LB) (0.0065 pH unit/min) and Streptococcus thermophilus (ST) (0.0068 pH unit/min). The highest values of reducing capacity were observed in thyme (À0.98 mV/min), grape (À1.92 mV/min) and green tea (À0.75 mV/min)-enriched samples for LB, ST and mixed culture of LB + ST, respectively. The fortification of yoghurt with plant extracts modified the acidification and reducing activities of starters, thus changing the fermentation time and quality attributes of the product.
Yogurt is defined as a coagulated dairy product fermented by typical starter cultures (Adolfsson et al., 2004). Among various dairy products, yogurt is one of the most popular and highly accepted in the global market (Kumar et al., 2015). It is not surprising to see yogurt as one of the leader products among the other foods due to its functional properties in terms of nutrition and product design and alterations. Functional foods are foods that include active compounds that have clinically proven health benefits (Martirosyan & Singh, 2015). These functional properties can derive from the natural content (of the bioactive ingredient), enrichment of the component, or removal of the unwanted compound. Yogurt is one of the naturally functional food which can also be boosted in terms of its functionality. Naturally, itself is known as a health promoter due to the starter culture content, which is also responsible for the
The effects of washing raw butter with hydrogen-rich water (HRW), prepared with hydrogen (H2) and/or magnesium (Mg), on butter quality were investigated in this research paper. During the washing process, titratable acidity (TA) decreased by 12% for all washed samples. During the storage period, TA increased by 28% and 93% (control), 14% and 58% (H2), and 10% and 66% (Mg) for the 60th and 90th days, respectively. Peroxide value (mEq O2/kg) increased to 2.76 and 8.83 (control), 1.92 and 7.25 (H2), and 2.02 and 8.12 (Mg) for the 60th and 90th days. HRW samples showed the lowest acid degree value (ADV) and the highest color notes (L*, C*, and h). The HRW treatment of raw butter has shown improving effects on the product without any harmful residuals in the final product or the environment.
The transfer of heavy metals to products during food processing forms serious health concerns. The impact of cultured‐cream butter washing with hydrogen‐rich water (HRW) on the deaccumulation of arsenic (As), cadmium (Cd), antimony (Sb), mercury (Hg), and lead (Pb) in butter was evaluated. Raw cultured‐cream butter was washed with ordinary water or HRW prepared with molecular hydrogen (H2) and magnesium (Mg). While ordinary water‐washed butter samples exhibited an increase in As (7%), Cd (62%), and Pb (206%) and a decrease in Sb (26%) and Hg (17%) levels, HRW samples showed a decrease in As, Cd, Sb, and Hg levels ranged between 14 and 74% except for Pb that increased by only 29% (Mg) and 3% (H2). The proposed method is a green and eco‐friendly strategy to solve the transfer problem of heavy metals to food products.
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