Lactiplantibacillus plantarum was used to ferment the Sanhua plum juice. The optimal process for Sanhua plum juice fermented by L. plantarum was established by screening the protectant of probiotics and optimizing the fermentation process. On this basis, the fermented Sanhua plum juice was stored at 4 ℃ and 25 ℃ for storage experiments. Results showed that the optimal protectant of probiotics for the Sanhua plum juice fermented by L. plantarum was isomaltose, and its optimal addition amount was 0.50%. The optimal fermentation conditions were as follows: inoculation volume, 3%; fermentation temperature, 37 ℃; rotation speed of fermentation, 200 r/min. Under these conditions, the number of viable L. plantarum in the fermented Sanhua plum juice could reach 108 CFU/mL, which was significantly higher than that in the fermented Sanhua plum juice before optimization. The number of viable L. plantarum in the fermented Sanhua plum juice stored at different temperatures was 107~108 CFU/mL, which met the requirements of probiotic fermented juice. During storage, L. plantarum could consume malic acid in fermented plum juice to some extent, and metabolize to produce lactic acid and acetic acid. After 28 days of storage at 4 ℃, the content of soluble solids, content of total phenols, content of total flavonoids, content of total anthocyanins, ABTS+· clearance rates and FRAP of the fermented Sanhua plum juice decreased by 0.20 Brix°, 3.71%, 1.52%, 30.52%, 6.22%, and 0.08 g TE/L, respectively. However, the contents of soluble solids and active substances and antioxidant activity were all higher than those of the fermented Sanhua plum juice stored at 25 ℃ . Therefore, in actual production, the Sanhua plum juice fermented by L. plantarum is more suitable for storage at 4 ℃ . The results of this study provided a theoretical basis for industrial production and application of Sanhua plum juice fermented by L. plantarum. ? 2024 South China University of Technology.

• 单位
  广东省农业科学院; 华南理工大学