Investigating the Nano-Films Effect on Physical, Mechanical Properties, Chemical Changes, and Microbial Load Contamination of White Button Mushrooms during Storage

Nutrient-rich edible white button mushrooms were coated with Chitosan (1%), Chitosan/nano-silica, and Chitosan/nano-titanium and then stored at 4 degrees C to investigate the physical, mechanical properties, chemical changes, and microbial load contamination at an interval of 3 days up to a 12 days storage period. It was noticed that Chitosan/nano-titanium and Chitosan/nano-silica preserved the weight loss percentages as 11.80% and 12.69%, respectively. Treatment with Chitosan/nano-silica coating was found to have positive impacts on the overall color parameters. Both of the nano-coating films enhanced headspace gas compositions and firmness. Chitosan/nano-silica samples recorded the least electrolyte leakage value (24.44%), as low oxygen gas concentration can reduce the respiration rate, weight loss, and cap opening. Chitosan/nano-titanium treatment showed the lowest cap opening value (19.58%), PPO activity (16.98 mg(-1) protein), and microbial load contamination (6.12 log CFU/g) at the end of the whole storage period, suggesting that nano-films are a promising preservation method for prolonging the white button mushroom's shelf-life.

Automated summary

The study found that Chitosan/nano-silica and Chitosan/nano-titanium have positive impacts on preserving white button mushrooms by reducing weight loss and improving overall color parameters, as well as enhancing headspace gas compositions and firmness. Chitosan/nano-silica samples showed the lowest electrolyte leakage value and Chitosan/nano-titanium treatment displayed the lowest cap opening value, PPO activity, and microbial load contamination, indicating that nano-films are a promising method for extending the shelf-life of white button mushrooms.