crop protection – mycolab.ai

Impact of Volatile Organic Compounds on the Growth of Aspergillus flavus and Related Aflatoxin B1 Production: A Review

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Aspergillus flavus is a dangerous fungus that produces aflatoxin B1, a poison that can cause serious diseases and survives even when food is heated. Scientists have discovered that certain smelly chemicals called volatile organic compounds, produced by other organisms or plants, can stop this fungus from growing and making its toxin. This research suggests these natural chemicals could be used to protect our crops and food supply from contamination.

Nanomaterials for Plant Disease Diagnosis and Treatment: A Review

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Scientists are developing tiny particles called nanomaterials to fight plant diseases caused by bacteria, fungi, viruses, and worms. These nanoparticles can detect infections quickly and treat diseases more effectively than traditional pesticides, while reducing harmful environmental impacts. The technology shows promise for safer, more sustainable farming that could help feed a growing global population.

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.

Pest categorisation of Fusarium pseudograminearum

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Fusarium pseudograminearum is a harmful fungus that infects cereal crops like wheat and barley, causing crown rot and head blight diseases that reduce crop yields and contaminate grain with toxic compounds. The fungus is already present in parts of southern Europe but is not widely distributed in the EU. Scientists evaluated whether this pathogen should be classified as a quarantine pest requiring strict import controls to prevent its spread across Europe.

Chitosan-mediated copper nanohybrid attenuates the virulence of a necrotrophic fungal pathogen Macrophomina phaseolina

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Researchers developed tiny copper particles coated with chitosan (a natural compound from shellfish) that effectively kill a destructive fungus called Macrophomina phaseolina, which damages hundreds of plant species worldwide. When used at the right concentration, these nanoparticles completely stopped the fungus from growing while causing minimal damage to plants. This innovation offers a promising natural alternative to traditional chemical fungicides for protecting crops while being more environmentally friendly and sustainable.

Management of Green Mold Disease in White Button Mushroom (Agaricus bisporus) and Its Yield Improvement

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Green mold is a serious problem for farmers growing white button mushrooms, often destroying entire crops. This research tested various fungicide treatments to find the most effective ways to control the mold while keeping the mushrooms healthy and productive. The study found that certain chemicals like captan and carbendazim work best at specific concentrations, allowing farmers to get better harvests while protecting their crops.

Advances of Peptides for Plant Immunity

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Plant peptides are small signaling molecules that help plants defend themselves against diseases and pests. These peptides can work by directly killing pathogens or by activating the plant’s immune system. Researchers have identified over 1000 different plant peptides, and this review explains how they work and how they could be used to create disease-resistant crops and natural biopesticides.

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.

Novel Antimicrobial Activities of Albofungin, Albonoursin, and Ribonucleosides Produced by Streptomyces sp. Caat 5-35 Against Phytopathogens and Their Potential as a Biocontrol Agent

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Scientists discovered that a soil bacterium called Streptomyces sp. Caat 5-35 produces natural compounds that can kill crop-damaging pathogens. These compounds, including albofungin and albonoursin, showed strong activity against diseases affecting cacao and palm crops. The bacterium also helps plants by breaking down cellulose and making phosphorus more available, making it a promising tool for natural crop protection without synthetic chemicals.

Rice varietal intercropping mediates resistance to rice blast (Magnaporthe oryzae) through core root exudates

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Growing different varieties of rice together can help protect susceptible rice plants from blast disease. When resistant and susceptible rice varieties are planted together, the resistant plants release special chemicals from their roots that help the susceptible plants fight off the fungal disease. Scientists identified four key chemicals—azelaic acid, sebacic acid, betaine, and phenyl acetate—that work together to boost the immune system of susceptible rice plants and directly kill the blast fungus.

Research Keyword: crop protection