Research Keyword: biopesticide

Pathogen identification and biological fungicides screening for Plumbago auriculata blight in China

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A newly identified fungal disease caused by Fusarium ipomoeae is harming Plumbago auriculata plants in China. Scientists identified the pathogen using genetic analysis and tested seven plant-based treatments. They found that osthole, a natural compound, effectively controls the disease with 88% success rate, offering an environmentally friendly solution for protecting ornamental plants.

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Microsclerotia formation of the biocontrol fungus Cordyceps javanica IF-1106 and evaluation of its stress tolerance and pathogenicity

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Researchers studied a fungus called Cordyceps javanica that can be used to control harmful soil nematodes that damage crop roots. The fungus produces special dormant structures called microsclerotia that can survive extreme heat and UV radiation for extended periods. These microsclerotia showed excellent effectiveness at controlling root-knot nematodes on cucumber plants while also promoting plant growth, making them a promising natural alternative to chemical pesticides.

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Chilean Aloysia Essential Oils: A Medicinal Plant Resource for Postharvest Disease Control

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Researchers tested essential oils from two Chilean herbs, Aloysia citriodora and Aloysia polystachya, against fungi that cause fruit rot after harvest. They found that oil from Aloysia citriodora, especially a compound called farnesol, effectively killed the disease-causing fungi in laboratory tests. These natural oils could replace synthetic fungicides that are becoming less effective and harmful to the environment, offering farmers a safer way to protect their fruit during storage and transport.

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Genomic characterization and fermentation study of the endophyte Stemphylium sp. (Aa22), a producer of bioactive alkyl-resorcinols

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Scientists have studied a beneficial fungus called Stemphylium sp. Aa22 that lives inside wormwood plants and produces natural insect-repelling compounds called alkyl-resorcinols. By reading the complete genetic code of this fungus, researchers identified the gene responsible for making these compounds and found that growing the fungus in liquid culture produces more of the desired compounds than growing it on solid rice. This research could lead to developing natural, environmentally-friendly pesticides to protect crops from aphids and other pests.

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Advanced fermentation techniques enhance dioxolanone type biopesticide production from Phyllosticta capitalensis

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Researchers discovered that special fermentation techniques can significantly boost the production of natural pesticides from a beneficial fungus called Phyllosticta capitalensis. By using materials like glass wool during fermentation, they increased the production of specific bioactive compounds. The resulting extracts showed excellent effectiveness against garden pests like aphids and harmful nematodes, offering a natural alternative to synthetic pesticides for sustainable agriculture.

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Genomic characterization and fermentation study of the endophyte Stemphylium sp. (Aa22), a producer of bioactive alkyl-resorcinols

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Scientists sequenced the complete genome of a fungus called Stemphylium sp. (strain Aa22) that lives inside wormwood plants without harming them. This fungus produces natural compounds called alkyl-resorcinols that can repel aphids and kill plant-damaging nematodes, making them potentially useful as organic pesticides. The researchers found the genetic instructions for making these compounds and determined that growing the fungus in liquid culture produces more of the useful compounds than growing it on rice, offering a promising path toward developing these natural biopesticides on a larger scale.

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