Abstract
Malolactic fermentation using sea buckthorn (Hippophaë rhamnoides) juice as raw material was performed with six different strains of Lactobacillus plantarum. Increasing juice pH from 2.7 to 3.5 or adapting cells to low pH (i.e., acclimation) prior to inoculation allowed malolactic fermentation with all tested strains. Moreover, reducing pH of the growth medium from 6 to 4.5 with l-malate had little or no impact on biomass production. Volatile profile of sea buckthorn juice was analyzed with HS-SPME–GC–MS before and after fermentation. A total of 92 volatiles were tentatively identified and semi-quantified from sea buckthorn juice, majority of which were esters with fruity odor descriptors. Esters and terpenes were decreased in both inoculated and control juices during incubation. Microbial activity increased the levels of acetic acid (vinegar like), free fatty acids (cheese like), ketones (buttery like), and alcohols with fruity descriptors. Conversely, aldehydes associated with “green” aroma were decreased as a result of fermentation. Juices fermented with DSM 1055 had the highest acid and alcohol content, while fermentation with DSM 13273 resulted in the highest content of ketones. Compared to inoculation with other strains, fermentation with strains DSM 16365 and DSM 100813 resulted in rapid malolactic fermentation, less production of volatile acids, and lower loss of esters and terpenes important for natural sea buckthorn flavor.
Highlights
Sea buckthorn (Hippophaë L.) is a genus of deciduous shrubs belonging to the family Elaeagnaceae
As normal basal medium (GEM) has been optimized for growing lactic acid bacteria, it was investigated whether Cell acclimation medium (CAM) would require higher inoculation level due to reduced or limited growth rate
We investigated changes in organic acid content and volatile profile of sea buckthorn juice after malolactic fermentation with different strains of Lactobacillus plantarum
Summary
Sea buckthorn (Hippophaë L.) is a genus of deciduous shrubs belonging to the family Elaeagnaceae. Eight species have been identified within the genus, originating from different regions throughout the Eurasian continent and have been cultivated in Europe, Asia and the North America for sensory value of sea buckthorn characterized by intensive sourness and astringency presents a great hurdle for utilization of the berry in food industry [6, 7]. Sour taste of sea buckthorn juice has been associated with the high content of organic acids, especially those of malic acid and quinic acid, with the total acid content ranging between 31 and 51 g/L, depending on the variety. Astringency of sea buckthorn has been associated with the high content of flavonoids, especially with flavonols and procyanidins [9],. The juice of sea buckthorn has high turbidity (Brix 9.3–22.7) [2] due to the presence of insoluble solids and suspended oil droplets [11]
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