anthracnose – Page 3

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

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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.

Endophytic fungal community composition and function response to strawberry genotype and disease resistance

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Researchers studied fungi living inside three varieties of strawberry plants to understand why some varieties are more resistant to diseases. They found that disease-resistant strawberries like White Elves naturally harbor beneficial fungi such as Trichoderma and Talaromyces that fight off pathogens, while disease-susceptible varieties like Akihime have more harmful fungi. This discovery could help farmers grow healthier strawberries without relying solely on chemical pesticides by using natural beneficial fungi.

Antifungal and other bioactive properties of the volatilome of Streptomyces scabiei

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Researchers discovered that Streptomyces scabiei, a bacterium that causes common scab disease in potatoes and other root crops, produces numerous airborne chemical compounds with surprising benefits. Using advanced chemical analysis, they identified 36 different volatile molecules, many of which can kill harmful fungi and promote plant health. This discovery suggests the bacterium’s role in nature is more complex than previously thought, as it may actually help protect plants while causing disease, opening new possibilities for developing natural pest control solutions.

Phylogenetic diversity of Colletotrichum species (Sordariomycetes, Glomerellales, Glomerellaceae) associated with plant diseases in Thailand

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Researchers in Thailand studied a common fungal plant pathogen called Colletotrichum that causes diseases like anthracnose and leaf spots on various plants. They identified eight different species of this fungus and discovered two previously unknown species. The study helps farmers and plant scientists better understand and identify these disease-causing fungi to protect their crops.

Vernicia fordii leaf extract inhibited anthracnose growth by downregulating reactive oxygen species (ROS) levels in vitro and in vivo

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Researchers found that leaves from the tung tree (Vernicia fordii) contain natural compounds that effectively kill a fungus (Colletotrichum fructicola) that damages oil tea plants. The extract works by increasing harmful oxidative stress in fungal cells and turning off genes the fungus needs to survive. This explains why farmers have successfully grown these trees together for centuries to naturally reduce disease.

Study on the Effect of Sooty Mould Disease in Tea Plants

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Sooty mould disease is a serious fungal infection affecting tea plants, causing a black coating on leaves that reduces photosynthesis and decreases the quality of tea. The study identified the fungus responsible (Cladosporium pseudocladosporioides) and showed that friendly bacteria can help prevent the disease. The research provides insights into how the disease damages plants at the cellular and genetic level, offering potential solutions for protecting tea crops.

Isolation and Biological Control of Colletotrichum sp. Causing Anthracnosis in Theobroma cacao L. in Chiapas, Mexico

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Cacao farmers in Mexico’s Chiapas region face serious crop losses from anthracnose, a fungal disease caused by Colletotrichum. Researchers found a beneficial bacterium called Paenibacillus sp. NMA1017 that can suppress this disease as effectively as commercial fungicide alternatives. By testing this natural biocontrol agent both in the laboratory and on actual cacao farms, they demonstrated it could reduce disease occurrence from 65% down to just 12-20%, offering farmers a sustainable alternative to chemical treatments.

Exploring Fungal Communication Mechanisms in the Rhizosphere Microbiome for a Sustainable Green Agriculture

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Fungi in soil communicate with each other and plants through chemical signals, forming protective layers called biofilms that help them cooperate and survive. These fungal communication networks can be either beneficial, helping plants grow and fight diseases, or harmful, causing crop infections and producing toxins. By better understanding how fungi talk to each other, scientists can develop natural ways to improve agriculture and clean up polluted soils without using harmful chemicals.

Essential Oils as an Antifungal Alternative to Control Several Species of Fungi Isolated from Musa paradisiaca: Part III

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This research tested how essential oils from common cooking herbs like oregano, thyme, and cinnamon can prevent fungal diseases on bananas after harvest. Scientists identified five different fungi causing banana rot, then tested six plant-based oils at different strengths to see which ones worked best. Thyme oil was most effective, completely stopping fungal growth at the highest concentration tested. These natural oils could replace harsh chemical fungicides while being safer for people and the environment.

Diversity and pathogenicity of pestalotioid fungi infecting Camellia oleifera in China

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Tea oil plants in China’s Sichuan Province are being infected by three types of fungi that cause serious diseases like leaf spots and blighting. Researchers identified a new fungal species and found that two previously known species can also infect tea oil plants. All three fungi were tested for their ability to cause disease, and they successfully infected tea oil plant leaves under laboratory conditions.

Disease: anthracnose