phytopathogen control

Nanoemulsion formulation of lemongrass essential oil using Pseudomonas-derived rhamnolipids for targeted phytopathogen suppression

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This study developed a nano-sized formulation of lemongrass oil stabilized with naturally-derived rhamnolipid surfactant to fight plant fungal diseases. The formulation successfully inhibited the growth of three major plant pathogens and remained stable during storage. This bio-based approach offers farmers an environmentally-friendly alternative to synthetic chemical fungicides for protecting crops.

Novel Antimicrobial Activities of Albofungin, Albonoursin, and Ribonucleosides Produced by Streptomyces sp. Caat 5-35 Against Phytopathogens and Their Potential as a Biocontrol Agent

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Scientists discovered that a soil bacterium called Streptomyces sp. Caat 5-35 produces natural compounds that can kill crop-damaging pathogens. These compounds, including albofungin and albonoursin, showed strong activity against diseases affecting cacao and palm crops. The bacterium also helps plants by breaking down cellulose and making phosphorus more available, making it a promising tool for natural crop protection without synthetic chemicals.

Evaluation of electrolyzed water to control fungal trunk pathogens in grapevine nurseries

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Scientists tested a new disinfection treatment called electrolyzed water on grapevine nursery plants to prevent fungal infections. The treatment uses a simple process of mixing water, salt, and electricity to create a natural disinfectant. Tests showed the treatment effectively reduced fungal infections in young grapevines without harming the plants, offering grape growers a promising new way to protect their nursery stock.

Trichoderma: The Current Status of Its Application in Agriculture for the Biocontrol of Fungal Phytopathogens and Stimulation of Plant Growth

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Trichoderma is a beneficial fungus that grows naturally in soil and can protect crops from harmful fungal diseases while promoting plant growth. It works through multiple mechanisms including directly attacking pathogenic fungi, competing for nutrients, and boosting the plant’s own defense systems. With over 77 commercial products already available, Trichoderma offers a promising sustainable alternative to chemical pesticides for protecting major world crops.

Application of Nanocomposites-Based Polymers on Managing Fungal Diseases in Crop Production

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Scientists are developing tiny particles made from natural materials like chitosan to protect crops from fungal diseases. These nanoparticles work better than traditional fungicides and can be combined with metals or plant extracts to boost their effectiveness. The new approach is more environmentally friendly and can reduce crop loss caused by fungal infections while maintaining sustainable agricultural practices.

Research Keyword: phytopathogen control

Nanoemulsion formulation of lemongrass essential oil using Pseudomonas-derived rhamnolipids for targeted phytopathogen suppression

Novel Antimicrobial Activities of Albofungin, Albonoursin, and Ribonucleosides Produced by Streptomyces sp. Caat 5-35 Against Phytopathogens and Their Potential as a Biocontrol Agent

Evaluation of electrolyzed water to control fungal trunk pathogens in grapevine nurseries

Trichoderma: The Current Status of Its Application in Agriculture for the Biocontrol of Fungal Phytopathogens and Stimulation of Plant Growth

Application of Nanocomposites-Based Polymers on Managing Fungal Diseases in Crop Production