Development of antifungal electrospun nanofiber mats containing Meyerozyma caribbica

To mitigate vegetable and fruit loss caused by post-harvest fungal diseases, polymeric antifungal coatings encapsulating biocontrol yeasts offer a sustainable alternative. Nanofibers derived from pullulan, cashew gum, FucoPol and poly (ethylene oxide) (PEO), were electrospun and loaded with Meyerozyma caribbica (GenBank ID: JQ398674). The morphological, thermal and chemical properties of cashew gum (CG:PEO), FucoPol (FP:PEO), and pullulan nanofibers were characterized. The viability of M. caribbica within the fibers and their in vitro antifungal activity against six phytopathogens were assessed. Morphological analysis exhibited the presence of nanofibers encapsulating M. caribbica. ATR-FTIR spectroscopy identified the absence of interactions between the yeast and polymers. Fibers containing M. caribbica exhibited in vitro fungistatic effects on spore germination. Pullulan nanofibers showed the highest M. caribbica viability and the highest percentage of growth inhibition against the evaluated fungi. These promising nanofibers encapsulating biocontrol yeasts could be used as edible coatings or agricultural aids, which offer an alternative for post-harvest treatment to control fungal diseases, reducing global food loss. [Display omitted] •Meyerozyma caribbica was encapsulated in electrospun nanofibers.•Pullulan, cashew gum, FucoPol and polyethylene oxide were the encapsulation matrixes.•Their antifungal activity was assessed against six common phytopathogens.•Fibers containing M. caribbica exhibited fungistatic effects on spore germination.•Pullulan nanofibers showed the highest growth inhibition against the evaluated fungi.