postharvest fruit decay

Identification of Avocado Fruit Disease Caused by Diaporthe phaseolorum and Colletotrichum fructicola in China

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Researchers in China identified two fungal pathogens responsible for major avocado fruit diseases: Diaporthe phaseolorum causes fruit rot while Colletotrichum fructicola causes anthracnose. These diseases affect approximately 22% and 15% of avocado fruits respectively in Yunnan Province. This first-time identification of these pathogens on avocado provides growers with crucial information to implement targeted disease prevention strategies and protect their crops.

Comparative genome analysis of patulin-producing Penicillium paneum OM1 isolated from pears

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Researchers sequenced the complete genome of a mold called Penicillium paneum that produces a toxic substance called patulin, which contaminates apples and pears. They found all 15 genes responsible for making patulin and discovered the mold has similar genetic patterns to other patulin-producing fungi. This information could help scientists develop better ways to prevent patulin contamination on fruit crops and improve food safety.

Metabolic profiling of endophytic fungi acting as antagonists of the banana pathogen Colletotrichum musae

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Scientists found three special fungi living inside rainforest plants in the Philippines that can fight the fungus causing banana rot. These endophytic fungi produce chemical compounds that stop the disease-causing fungus from growing, offering a natural alternative to traditional fungicides. The researchers found that the type of growing medium affects which compounds these fungi produce, and two promising strains could potentially be used to reduce fruit losses during storage and transport.

Inhibitory Effects and Mechanisms of Perilla Essential Oil and Perillaldehyde against Chestnut Pathogen Botryosphaeria dothidea

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Chestnut rot caused by the fungus Botryosphaeria dothidea is a major problem during fruit storage. Researchers found that essential oil from perilla plants and its main component perillaldehyde effectively kill this fungus by damaging its cell walls and membranes. This natural solution could replace harmful synthetic fungicides while keeping chestnuts fresh longer during storage.

Mechanism Analysis of Amphotericin B Controlling Postharvest Gray Mold in Table Grapes

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This research shows that amphotericin B, a natural compound produced by bacteria, can effectively prevent gray mold from spoiling table grapes after harvest. The compound works by damaging the mold’s cell membranes and also activates the grapes’ own defense systems. At a treatment level of 200 mg/L, it completely prevented mold growth on grapes over a three-day storage period, offering a safer, more environmentally friendly alternative to synthetic fungicides.

Disease: postharvest fruit decay

Identification of Avocado Fruit Disease Caused by Diaporthe phaseolorum and Colletotrichum fructicola in China

Comparative genome analysis of patulin-producing Penicillium paneum OM1 isolated from pears

Metabolic profiling of endophytic fungi acting as antagonists of the banana pathogen Colletotrichum musae

Inhibitory Effects and Mechanisms of Perilla Essential Oil and Perillaldehyde against Chestnut Pathogen Botryosphaeria dothidea

Mechanism Analysis of Amphotericin B Controlling Postharvest Gray Mold in Table Grapes