plant pathogenic fungi

Streptomyces-Based Bioformulation to Control Wilt of Morchella sextelata Caused by Pestalotiopsis trachicarpicola

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Morel mushrooms are delicious and nutritious but are threatened by a fungal disease that can destroy up to 80% of crops. Scientists discovered that two beneficial bacteria species (Streptomyces) from morel soil produce compounds that kill the disease-causing fungus. When applied to morel fields, these beneficial bacteria not only prevented the disease but also increased mushroom yields by about 30% compared to untreated crops, offering a natural and sustainable solution for morel farmers.

Exploring fungal pathogens to control the plant invasive Rubus niveus on Galapagos Island San Cristobal

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Hill raspberry is a problematic invasive plant covering vast areas of the Galapagos Islands and harming native species. Researchers collected diseased Hill raspberry samples and identified five fungal pathogens that naturally infect the plant. These fungi have potential to be developed as biological control agents to manage the invasive species without using chemical herbicides. Further testing is needed to ensure these fungi only target Hill raspberry and do not harm other plants.

Exploring fungal pathogens to control the plant invasive Rubus niveus on Galapagos Island San Cristobal

mycolabadmin

Scientists in the Galapagos Islands are working to control an invasive raspberry plant that is damaging the unique ecosystem. They identified five types of fungi that naturally attack this invasive plant and could potentially be used as a biological control method. These fungi were isolated from diseased raspberry plants and tested in the laboratory, showing promise as a sustainable alternative to expensive manual removal and chemical herbicides.

Investigating the activity of Bacillus subtilis and Trichoderma harzianum to mitigate Fusarium wilt disease of diverse cultivars of Vicia faba

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Fava beans are damaged by a fungus called Fusarium that causes wilting and crop loss. Scientists tested two beneficial microorganisms—Trichoderma harzianum and Bacillus subtilis—as natural alternatives to chemical fungicides. Trichoderma worked better, reducing disease by over 70% while also boosting plant health and bean production in two different fava bean varieties.

In vitro and in vivo inhibitory effects and transcriptional reactions of graphene oxide on Verticillium dahliae

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Graphene oxide, a nanomaterial derived from graphene, effectively inhibits the growth of Verticillium dahliae, a fungus that causes devastating wilt disease in cotton and many other plants. The study shows that graphene oxide damages the fungal cell membrane and disrupts key metabolic processes, preventing the fungus from growing and infecting plants. When applied to cotton plants, graphene oxide treatment significantly reduced wilt disease symptoms, suggesting it could be a promising alternative to chemical fungicides for controlling this important agricultural disease.

Exploring fungal pathogens to control the plant invasive Rubus niveus on Galapagos Island San Cristobal

mycolabadmin

Scientists in the Galapagos Islands are working to control an invasive raspberry plant (Rubus niveus) that has taken over about 30,000 hectares and is damaging native species. Rather than using costly manual removal or herbicides, researchers isolated and tested five different fungi found naturally on diseased raspberry plants to see if they could be used as biological control agents. These five fungi—including species like Colletotrichum and Fusarium—showed promise by causing leaf damage to the raspberry plant, offering hope for a more sustainable pest management solution.

Polyherbal nanoformulation: a potent antifungal agent on fungal pathogens of Coffea arabica

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Researchers developed an eco-friendly nano-formulation from Triphala to fight fungal diseases that harm coffee plants. The treatment effectively stopped the growth of five different harmful fungi that infect coffee leaves. This green nanotechnology approach offers farmers a safer, environmentally friendly alternative to chemical fungicides that can pollute the environment and harm human health.

Research Keyword: plant pathogenic fungi

Streptomyces-Based Bioformulation to Control Wilt of Morchella sextelata Caused by Pestalotiopsis trachicarpicola

Exploring fungal pathogens to control the plant invasive Rubus niveus on Galapagos Island San Cristobal

Exploring fungal pathogens to control the plant invasive Rubus niveus on Galapagos Island San Cristobal

Investigating the activity of Bacillus subtilis and Trichoderma harzianum to mitigate Fusarium wilt disease of diverse cultivars of Vicia faba

In vitro and in vivo inhibitory effects and transcriptional reactions of graphene oxide on Verticillium dahliae

Exploring fungal pathogens to control the plant invasive Rubus niveus on Galapagos Island San Cristobal

Polyherbal nanoformulation: a potent antifungal agent on fungal pathogens of Coffea arabica