Green mold disease – mycolab.ai

Management of Green Mold Disease in White Button Mushroom (Agaricus bisporus) and Its Yield Improvement

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Green mold is a serious problem for farmers growing white button mushrooms, often destroying entire crops. This research tested various fungicide treatments to find the most effective ways to control the mold while keeping the mushrooms healthy and productive. The study found that certain chemicals like captan and carbendazim work best at specific concentrations, allowing farmers to get better harvests while protecting their crops.

Identification of a pathogen causing fruiting body rot of Sanghuangporus vaninii

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Sanghuang, a valuable medicinal mushroom grown in China, was suffering from a disease that damaged fruiting bodies and reduced production. Researchers identified the cause as a green mold fungus called Trichoderma virens. The fungus grows best at 25°C and strongly inhibits the mushroom’s growth. Understanding this pathogen is the first step toward developing better ways to prevent the disease and protect this important medicinal crop.

High temperature enhances the ability of Trichoderma asperellum to infect Pleurotus ostreatus mycelia

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Researchers discovered that summer heat makes oyster mushroom crops more vulnerable to green mold disease caused by a fungus called Trichoderma asperellum. When exposed to high temperatures (36°C), the pathogenic fungus becomes more aggressive by producing more spores, germinating faster, and generating molecules like hydrogen peroxide that damage the mushroom mycelia. Meanwhile, the oyster mushroom itself becomes more susceptible to infection at these higher temperatures, explaining why green mold outbreaks are so common during hot summer months in mushroom farms.

Antagonistic mechanism of Bacillus velezensis HX0039 as a biocontrol agent against Trichoderma virens-induced ‘Sanghuang’ green mold

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Scientists discovered a beneficial bacteria called Bacillus velezensis HX0039 that can protect ‘Sanghuang’ mushrooms from harmful green mold disease. This bacteria produces natural antifungal compounds like iturin A that stop the disease without harming the mushrooms or the environment. Testing showed it was 83% effective at preventing green mold and was completely safe for both mushroom cultivation and animal consumption, making it a promising alternative to chemical fungicides.

Phylogenetic Analysis of Trichoderma Species Associated with Green Mold Disease on Mushrooms and Two New Pathogens on Ganoderma sichuanense

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Researchers identified a new species of Trichoderma fungus that causes green mold disease in cultivated medicinal mushrooms, particularly Ganoderma sichuanense. Using DNA analysis and genetic comparison, they showed that this new species belongs to a group of Trichoderma fungi that are close relatives of species used for controlling plant diseases. The study suggests this fungus might have potential as a biocontrol agent while currently being problematic for mushroom farmers in China.

Seasonal discrepancy of airborne fungal diversity and community structure in Lentinula edodes factory

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This study examined how fungal spores in the air of shiitake mushroom factories change with the seasons and relate to a disease called shiitake artificial log rot disease (SLRD). Researchers found that when temperatures drop and humidity rises in autumn and winter, a harmful fungus called Trichoderma thrives in the air and causes more disease. By keeping the growing areas warmer, growers can significantly reduce disease occurrence and protect both their crops and workers’ health.

Genome Sequencing of Three Pathogenic Fungi Provides Insights into the Evolution and Pathogenic Mechanisms of the Cobweb Disease on Cultivated Mushrooms

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This research sequenced the DNA of three fungi that cause cobweb disease, a serious problem in mushroom farming that can destroy entire crops. Scientists discovered that these fungi spread disease by producing special enzymes that break down mushroom cell walls and releasing toxic compounds. By understanding the genetic basis of how these fungi attack mushrooms, researchers can now develop better strategies to prevent infection and protect valuable mushroom crops.

Disease: Green mold disease

Management of Green Mold Disease in White Button Mushroom (Agaricus bisporus) and Its Yield Improvement

Identification of a pathogen causing fruiting body rot of Sanghuangporus vaninii

High temperature enhances the ability of Trichoderma asperellum to infect Pleurotus ostreatus mycelia

Antagonistic mechanism of Bacillus velezensis HX0039 as a biocontrol agent against Trichoderma virens-induced ‘Sanghuang’ green mold

Phylogenetic Analysis of Trichoderma Species Associated with Green Mold Disease on Mushrooms and Two New Pathogens on Ganoderma sichuanense

Seasonal discrepancy of airborne fungal diversity and community structure in Lentinula edodes factory

Genome Sequencing of Three Pathogenic Fungi Provides Insights into the Evolution and Pathogenic Mechanisms of the Cobweb Disease on Cultivated Mushrooms