postharvest disease control

Bacteria from the Amphibian Skin Inhibit the Growth of Phytopathogenic Fungi and Control Postharvest Rots

mycolabadmin

Researchers discovered that bacteria living on frog skin can effectively prevent fungal diseases that rot fruits after harvest. These bacteria work by producing toxic compounds and releasing protective gases that stop fungi like green mold from growing. When applied to citrus, tomatoes, and blueberries, the bacteria significantly reduced fruit rot, offering an eco-friendly alternative to chemical fungicides for food preservation.

Green synthesis of silver nanoparticles by sweet cherry and its application against cherry spot disease

mycolabadmin

Researchers developed a natural, eco-friendly method to fight a fungal disease that damages sweet cherries after harvest. Using tiny silver particles created from cherry fruit extracts, they successfully stopped the growth of harmful Alternaria fungi. This approach offers farmers an environmentally safe alternative to traditional chemical fungicides while protecting cherry crops from rot.

Non-wounding contact-based Inoculation of fruits with fungal pathogens in postharvest

mycolabadmin

Researchers developed a new laboratory method to test how fungal molds spread between fruits during storage without damaging the fruit surface. Using oranges, tomatoes, and apples infected with common storage molds, they showed that disease can successfully spread through simple contact between fruits. The method achieved infection rates of 80% or higher and even detected infections before visible mold appeared using special imaging technology.

Biocontrol Potential of a Mango-Derived Weissella paramesenteroides and Its Application in Managing Strawberry Postharvest Disease

mycolabadmin

Researchers discovered that a beneficial bacteria called Weissella paramesenteroides, naturally found on mango surfaces, can protect strawberries from fungal spoilage. This bacteria works by releasing special aromatic compounds (VOCs) into the air that kill disease-causing fungi without direct contact. When used in strawberry storage boxes, this biocontrol method reduced fruit disease from 70% to 35%, offering a safer, natural alternative to synthetic fungicides.

Characterization of a bacterial strain T226 and its efficacy in controlling post-harvest citrus anthracnose

mycolabadmin

Scientists discovered a beneficial bacterium called Lysobacter enzymogenes (strain T226) that effectively controls anthracnose, a fungal disease affecting citrus fruits after harvest. This bacterium was isolated from soil and shows strong ability to inhibit the disease-causing fungus while remaining stable over time. The research demonstrates that this biological control agent could be a promising eco-friendly alternative to chemical fungicides for protecting stored citrus fruits.

Research Keyword: postharvest disease control

Bacteria from the Amphibian Skin Inhibit the Growth of Phytopathogenic Fungi and Control Postharvest Rots

Green synthesis of silver nanoparticles by sweet cherry and its application against cherry spot disease

Non-wounding contact-based Inoculation of fruits with fungal pathogens in postharvest

Biocontrol Potential of a Mango-Derived Weissella paramesenteroides and Its Application in Managing Strawberry Postharvest Disease

Characterization of a bacterial strain T226 and its efficacy in controlling post-harvest citrus anthracnose