Research Topic: Phytopathology

Rhizoctonia solani causes okra (Abelmoschus esculentus) seedling damping-off in South China with biological characterization and fungicide sensitivity profiling

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Researchers identified Rhizoctonia solani as the fungus causing a serious disease in okra seedlings in southern China that was destroying about 35% of crops. The fungus dies when exposed to high temperatures (45-48°C) and grows best at about 28°C. Among seven tested antifungal treatments, a combination of trifloxystrobin and tebuconazole was most effective at controlling the pathogen, providing farmers with practical strategies for managing this crop disease.

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Essential Oil of Xylopia frutescens Controls Rice Sheath Blight Without Harming the Beneficial Biocontrol Agent Trichoderma asperellum

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Researchers discovered that oil extracted from leaves of a Brazilian plant called Xylopia frutescens effectively kills the fungus that causes rice sheath blight, a serious disease that can destroy rice crops. The oil contains two main compounds that work against the fungus and can be applied before or after infection to prevent or treat the disease. Importantly, the oil doesn’t harm beneficial fungi like Trichoderma asperellum that farmers use as natural pest control, making it an environmentally friendly alternative to chemical fungicides.

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First molecular confirmation of Lasiodiplodia theobromae causing grapevine trunk disease in southern Egypt

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Researchers in Egypt identified a fungus called Lasiodiplodia theobromae as the cause of a serious disease affecting grapevines in the southern region. Using both microscopic examination and genetic analysis, they confirmed the fungus causes dark streaking in grape vine trunks, leading to branch death and decline. When they tested the fungus on grape tissues in the laboratory, it successfully infected all tested samples, showing it is a highly virulent pathogen. The findings suggest farmers need to use disease-resistant grape varieties and implement management strategies to prevent losses.

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Transcriptome sequencing reveals Vmplc1 involved in regulating the pathogenicity of Valsa Mali under low temperature induction

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Apple trees suffer from a fungal disease called Valsa canker that becomes more severe in cold weather. Scientists discovered that the fungus has a special protein called Vmplc1 that acts like a temperature sensor, telling the fungus to produce more aggressive enzymes when it’s cold. When researchers disabled this protein, the fungus lost its ability to damage apple trees during cold periods. This discovery helps explain why the disease is worse in spring and could lead to better disease management strategies.

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Antifungal activities of Rosmarinus extracts against Fusarium oxysporum, the pathogenic fungus of Anoectochilus stem rot

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Researchers found that extracts from rosemary plants can effectively fight a fungus that causes stem rot disease in Anoectochilus, a valuable medicinal herb. The rosemary extracts worked both in laboratory tests and when applied to infected plants, reducing disease symptoms and boosting the plant’s natural defense mechanisms. These findings suggest rosemary extracts could be developed as a natural, safer alternative to synthetic chemical fungicides that harm the environment.

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FoCup, a secreted protein, is essential for virulence of Fusarium oxysporum f. sp. cucumerinum on cucumber

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Researchers identified a key protein called FoCup that helps a fungal pathogen infect cucumber plants and cause devastating wilt disease. By deleting this protein from the fungus, scientists significantly reduced its ability to cause disease and produce spores needed for spreading. This discovery could help develop new ways to protect cucumber crops by targeting this critical virulence factor.

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FONPS6, a Nonribosomal Peptide Synthetase, Plays a Crucial Role in Achieving the Full Virulence Potential of the Vascular Wilt Pathogen Fusarium oxysporum f. sp. Niveum

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This research explores how a specific fungal gene called FoNPS6 helps the watermelon-wilt-causing fungus Fusarium oxysporum attack plants. Scientists deleted this gene and found that mutant fungi were much less aggressive, couldn’t handle stress well, and struggled to penetrate plant roots. When the gene was restored, the fungi regained full virulence. The study reveals that FoNPS6 helps the fungus absorb iron and break down plant defense chemicals.

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Unveiling Species Diversity of Plectosphaerellaceae (Sordariomycetes) Fungi Involved in Rhizome and Root Rots of Ginger in Shandong Province, China

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Researchers in China identified four fungal species that cause serious diseases in ginger plants, destroying the underground rhizomes and roots. Two of these species are newly discovered and named after the ginger host and the region where they were found. These fungi are major threats to ginger farming in China’s largest ginger-producing region, causing crop losses ranging from 20-100%.

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First Report of Trametes hirsuta, Causal Agent White Rot in Avocado Trees Grown in the State of Michoacán, México

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Researchers discovered that a wood-decay fungus called Trametes hirsuta is causing serious damage to avocado trees in Michoacán, México, the world’s largest avocado-producing region. The fungus infects tree trunks and branches, causing white rot that eventually kills the trees. About 60% of surveyed avocado trees showed signs of infection. Laboratory experiments confirmed that this fungus, previously known only as a decomposer of dead wood, can actively infect and destroy living avocado trees through wounds in the bark.

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