Research Keyword: Multilocus phylogenetic analysis

Synergistic curative effects of Trichoderma hamatum and Rumex dentatus against Alternaria alternata, the causal agent of tomato leaf spot disease

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This research discovered that combining a beneficial fungus called Trichoderma hamatum with an extract from Rumex dentatus plant effectively controls tomato leaf spot disease. When used together, these natural treatments reduced disease by over 88% and even outperformed commercial fungicides. The combined treatment also boosted plant health by increasing growth and natural defense mechanisms, offering farmers an affordable and environmentally safe alternative to chemical pesticides.

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Morphological and Phylogenetic Characterization of Endophytic Fungi Isolated from Brown Algae (Phaeophyceae) in Korea

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Researchers in Korea discovered three previously unknown fungal species living inside brown seaweed called Sargassum. These fungi were identified using genetic analysis and microscopy. The discovery suggests that seaweed hosts diverse fungal communities that could have useful properties, such as producing compounds with antimicrobial and anti-cancer potential. This research expands our understanding of marine fungal diversity and its possible applications in medicine and biotechnology.

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Phialomyces koreanus sp. nov., A Novel Soil Fungus from Korea

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Scientists in Korea discovered a new species of fungus in forest soil and named it Phialomyces koreanus. Using both microscopic examination and genetic analysis, they determined this fungus was distinctly different from previously known species in the same genus. This discovery adds to our understanding of the diverse fungi living in Korean soils and may have potential applications in pest control and environmental cleanup. This is the first Phialomyces species ever documented from Korea.

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Diversity of Fungal Genera Associated with Shot-Hole Disease in Cherry Blossoms Across Korea

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Cherry blossom trees in Korea are commonly affected by shot-hole disease, which causes holes in leaves and reduces flowering. Researchers found that four different fungi cause this disease, not just one as previously thought: Alternaria, Diaporthe, Epicoccum, and Botryosphaeria. The types of fungi vary by region and between urban and rural areas, suggesting different management strategies may be needed in different locations.

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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 species of fungi causing serious rot diseases in ginger plants, including two completely new species and one previously unreported in China. These fungi were found in Shandong Province, a major ginger-growing region, and were confirmed to cause the disease through laboratory experiments. The study helps farmers understand and potentially manage these devastating ginger diseases that can destroy up to 100% of crops.

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Phylogenomic, Morphological, and Phylogenetic Evidence Reveals Five New Species and Two New Host Records of Nectriaceae (Hypocreales) from China

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Researchers identified five new species of fusarioid fungi (Fusarium and Neocosmospora) found in China by combining morphological observations with advanced genetic analysis of 4,941 genes. These fungi are important because they can be beneficial endophytes, harmless decomposers, or disease-causing pathogens. The study used modern genomic techniques to clearly distinguish between closely related species and confirmed fundamental differences between the two main genera. These findings will help scientists better identify and manage diseases caused by these fungi in agriculture and medicine.

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