Disease: Botrytis cinerea

Microbial-mediated induced resistance: interactive effects for improving crop health

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This research explores how beneficial microbes like Trichoderma fungi and Bacillus bacteria can help plants naturally defend themselves against diseases. These microbes trigger the plant’s built-in immune system through chemical signals and molecular processes similar to how our immune system responds to threats. The approach offers an eco-friendly alternative to chemical pesticides for protecting crops, though effectiveness varies depending on environmental conditions.

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Carvacrol Encapsulation in Chitosan–Carboxymethylcellulose–Alginate Nanocarriers for Postharvest Tomato Protection

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Researchers created tiny nanocarriers made from natural biopolymers that can deliver carvacrol, a natural antimicrobial compound from oregano and thyme, to protect tomatoes from fungal rot after harvest. These nano-sized delivery systems were more effective than the unencapsulated carvacrol at fighting three common postharvest fungal pathogens. The treatment is safe and could offer a sustainable alternative to conventional fungicides for keeping harvested tomatoes fresh longer.

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Carbon and Nitrogen Sources Influence Parasitic Responsiveness in Trichoderma atroviride NI-1

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Scientists studied a beneficial fungus called Trichoderma atroviride that kills crop-damaging pathogens. They discovered that the type and quality of nutrients available directly affects how aggressive this fungus becomes. When provided with better nutrients like glucose and ammonia, the fungus produces more powerful enzymes to attack and destroy its prey. Remarkably, this fungus can even tell the difference between different types of pathogens and adjusts its attack strategy accordingly, making it a promising candidate for environmentally-friendly crop protection.

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Fungal inhibitory activity of sesquiterpenoids isolated from Laggera pterodonta

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Researchers isolated six antifungal compounds from a traditional Chinese medicine plant called Laggera pterodonta. One compound called costic acid showed excellent ability to kill common crop-destroying fungi like P. nicotianae and F. oxysporum by damaging their cell membranes. These natural compounds could serve as safer alternatives to synthetic fungicides in agriculture, offering environmental benefits without toxic chemical residues.

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