Enhancement in physicochemical parameters and microbial populations of mushrooms as influenced by nano-coating treatments

White button mushrooms are greatly high perishable and can deteriorate within a few days after harvesting due to physicomechanical damage, respiration, microbial growth of the delicate epidermal structure. For that reason, the present research work was applied to evaluate the effect of chitosan combination with nano-coating treatments on physicochemical parameters and microbial populations on button mushrooms at chilling storage. Nano coating with the addition of nisin 1% (CHSSN/M) established the minimum value for weight loss 12.18%, maintained firmness 11.55 N, and color index profile. Moreover, O-2% rate of (CHSSN/M) mushrooms was the lowest at 1.78%; while the highest rate was reported for CO2 24.88% compared to the untreated samples (Control/M) on day 12. Both pH and total soluble solid concentrations increased during storage. Results reported that the (CHSS/M) mushroom significantly (P<0.05) reduced polyphenol oxidase activity (24.31 U mg(-1) Protein) compared with (Control/M) mushrooms that increased faster than the treated samples. (CHSSN/M) treatment was the most efficient in the reduction of yeast and mold, aerobic plate microorganisms (5.27-5.10 log CFU/g), respectively. The results established that nano-coating film might delay the aging degree and accompany by marked prolongation of postharvest mushroom freshness.

Automated summary

This study aimed to evaluate the effects of chitosan combined with nano-coating treatments on white button mushrooms during chilling storage. The results showed that the addition of 1% nisin in the nano coating treatment had the best performance in reducing weight loss, maintaining firmness, inhibiting microbial growth, and delaying the aging process of mushrooms. The nano-coating film was found to be effective in prolonging the postharvest freshness of mushrooms.