Research Keyword: disease incidence

Biology and epidemiology of Diaporthe amygdali: understanding how environmental factors influence fungal growth, sporulation, infection and lesion development on almond

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This study investigates how temperature and rainfall affect a fungal disease that damages almond trees. Researchers found that the disease is most problematic during spring and autumn when rain is frequent and temperatures are moderate to warm. The pathogen can infect almond trees across a wide temperature range, but requires extended moisture periods for successful infection. These findings help farmers understand when and why this disease occurs, enabling better timing of preventive treatments.

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Luobuma Leaf Spot Disease Caused by Alternaria tenuissima in China

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Researchers in China identified a serious fungal disease affecting Luobuma plants (used for tea, medicine, and textiles) caused by the fungus Alternaria tenuissima. The disease caused leaf spots that spread rapidly, with infection rates reaching 95% in some plants. Testing showed that a fungicide called hymexazol was effective at controlling the disease, offering farmers a practical solution for protecting their crops.

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Non-wounding contact-based Inoculation of fruits with fungal pathogens in postharvest

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Researchers developed a new laboratory method to test how fungal molds spread between fruits during storage without damaging the fruit surface. Using oranges, tomatoes, and apples infected with common storage molds, they showed that disease can successfully spread through simple contact between fruits. The method achieved infection rates of 80% or higher and even detected infections before visible mold appeared using special imaging technology.

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Bio-stimulants for plant growth promotion and sustainable management of Rhizoctonia Solani causing black scurf of potato tubers

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Researchers tested natural treatments called bio-stimulants to help potato plants fight black scurf disease caused by a fungus called Rhizoctonia solani. They found that combining mycorrhizal fungi with seaweed extract was the most effective at reducing disease and improving potato quality. These natural treatments can enhance plant growth and tuber yield while reducing the need for chemical fungicides, making them valuable for sustainable potato farming.

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Seasonal discrepancy of airborne fungal diversity and community structure in Lentinula edodes factory

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This study examined how fungal spores in the air of shiitake mushroom factories change with the seasons and relate to a disease called shiitake artificial log rot disease (SLRD). Researchers found that when temperatures drop and humidity rises in autumn and winter, a harmful fungus called Trichoderma thrives in the air and causes more disease. By keeping the growing areas warmer, growers can significantly reduce disease occurrence and protect both their crops and workers’ health.

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