biocontrol – Page 2

The biocontrol potential of endophyte Bacillus velezensis to reduce post-harvest tomato infection caused by Rhizopus microsporus

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Researchers tested a naturally occurring bacteria called Bacillus velezensis as a safe alternative to chemical fungicides for protecting tomatoes from rot-causing mold. The bacteria produces special compounds that can kill or slow down the growth of Rhizopus microsporus, a fungus that commonly spoils tomatoes after harvest. While the results show promise, the effectiveness varied depending on which specific strain of bacteria and mold was used, suggesting more research is needed to fine-tune the approach.

Sustainable Innovations in Food Microbiology: Fermentation, Biocontrol, and Functional Foods

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This review explores how microorganisms can make food production more sustainable and healthier. It discusses traditional fermented foods like yogurt and sauerkraut, modern biotechnology techniques to reduce food waste and create natural preservatives, and special food ingredients with beneficial bacteria that support digestive and mental health. The paper shows how applying microbial science could help address global food challenges while meeting consumer demands for natural, safe, and healthy products.

Development and Transfer of Microbial Agrobiotechnologies in Contrasting Agrosystems: Experience of Kazakhstan and China

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Microbial consortia—communities of beneficial microorganisms—offer promising solutions to modern agriculture’s challenges by enhancing plant growth, improving stress tolerance, and restoring soil health. China has successfully integrated these microbial products into farming through strong government support and research infrastructure, while Kazakhstan has the scientific knowledge but faces funding and implementation challenges. This comparative study shows that adopting these technologies requires both scientific advancement and practical support systems tailored to each country’s specific needs.

A novel partitivirus confers dual contradictory effects to its host fungus: growth attenuation and virulence enhancement

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Researchers discovered a new virus that infects a fungus causing disease in tea plants. Interestingly, this virus has opposing effects: it slows down the fungus’s growth but makes it more damaging to tea leaves. This unusual combination of effects provides new insights into how viruses interact with fungal pathogens and could inform new strategies for managing tea plant diseases.

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.

Recent Advances and Developments in Bacterial Endophyte Identification and Application: A 20-Year Landscape Review

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Bacterial endophytes are beneficial bacteria living inside plants that help them grow stronger, resist diseases, and even clean up polluted soil. Scientists have studied these helpful microbes for 20 years and discovered they can be identified using both traditional laboratory methods and advanced DNA technologies. These bacteria show promise for making farming more sustainable by reducing the need for chemical pesticides and helping crops survive droughts and other stressors.

Geographic variation in fungal diversity associated with leaf spot symptoms of Coffea arabica in Yunnan, China

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Researchers studied the different types of fungi found on coffee plant leaves in two regions of Yunnan, China. They discovered that the mountainous areas of Pu’er had more harmful fungi causing leaf spot disease, while the tropical lowlands of Xishuangbanna had more beneficial fungi that could naturally control pests. This information helps coffee farmers choose better disease management strategies based on their location’s unique environmental conditions.

Draft genome of Conoideocrella luteorostrata ARSEF 14590 (Clavicipitaceae), an entomopathogenic fungus with a wealth of biosynthetic and biocontrol potential

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Scientists have sequenced the complete genome of a fungus that naturally kills elongate hemlock scale insects, pests that damage Christmas trees. The fungus contains genes for producing cephalosporin, a well-known antibiotic, and other bioactive compounds. This discovery opens new possibilities for using this fungus as a natural pest control method and potentially developing new medicines from its biological compounds.

Microcycle Conidia Production in an Entomopathogenic Fungus Beauveria bassiana: The Role of Chitin Deacetylase in the Conidiation and the Contribution of Nanocoating in Conidial Stability

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Researchers developed a method to dramatically increase the production of fungal spores used for controlling crop-damaging insects like armyworms. By using a special growth medium and coating the spores with nanoscale particles, they created more stable and effective fungal pesticides that work faster and better in the field. This advance could make biological pest control more practical and affordable for farmers.

Actinomycetes isolated from rhizosphere of wild Coffea arabica L. showed strong biocontrol activities against coffee wilt disease

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Researchers discovered that certain bacteria called actinomycetes, particularly a strain called MUA26, can effectively fight coffee wilt disease, a serious fungal infection that damages coffee plants. These beneficial bacteria produce natural compounds that kill the disease-causing fungus and were tested on coffee seedlings in a greenhouse, showing 83% effectiveness at preventing the disease. This discovery offers coffee farmers an organic alternative to chemical pesticides, which are expensive and harmful to the environment.

Research Topic: biocontrol