food safety – Page 6

Morphological, molecular, and biological characterization of bulb rot pathogens in stored Lanzhou lily and the in vitro antifungal efficacy of three plant essential oils

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Lanzhou lily is a valuable medicinal and food plant that loses 20-25% of its crop annually due to fungal rot during storage. Researchers identified the main culprit as a fungus called Fusarium oxysporum and found that natural essential oils from cinnamon, tea tree, and angelica plants can effectively inhibit this fungus’s growth. Cinnamon essential oil proved most effective and could serve as a natural alternative to chemical fungicides for protecting stored lily bulbs.

One-Health Approach to Managing Aflatoxin-Producing Aspergillus flavus Using Spent Mushroom Substrate of Pleurotus spp

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This study shows that leftover substrate from growing oyster and red mushrooms can work together with a common antifungal fungicide to better prevent harmful Aspergillus fungi from contaminating corn. The combination of mushroom waste and fungicide was more effective than using either alone, and could potentially reduce the amount of chemicals needed in agriculture while protecting the environment and preventing drug resistance.

Olive mill solid waste induces beneficial mushroom-specialized metabolite diversity revealed by computational metabolomics strategies

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Researchers studied how adding olive mill waste to mushroom growing substrate affects the beneficial compounds in two edible mushrooms. They used advanced computer analysis of chemical data to find that this waste product increases healthy compounds like hericenones while reducing potentially harmful mycotoxins. This discovery could help make mushroom farming more sustainable and produce safer, healthier mushrooms for consumers.

Impact of OTAbZIP on Ochratoxin A production, mycelium growth and pathogenicity of Aspergillus westerdijkiae under water activity stress

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Researchers studied how a specific gene (OTAbZIP) in a fungus called Aspergillus westerdijkiae controls the production of ochratoxin A, a poisonous substance that can contaminate food. By removing this gene, scientists found that the fungus could no longer produce the toxin, even when exposed to different moisture levels. This discovery could help prevent food contamination with this dangerous mycotoxin and protect human health.

Comparative genome analysis of patulin-producing Penicillium paneum OM1 isolated from pears

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Researchers sequenced the complete genome of a mold called Penicillium paneum that produces a toxic substance called patulin, which contaminates apples and pears. They found all 15 genes responsible for making patulin and discovered the mold has similar genetic patterns to other patulin-producing fungi. This information could help scientists develop better ways to prevent patulin contamination on fruit crops and improve food safety.

The Efficacy of Clove Oil Against Aspergillus flavus and the Production of Aflatoxin B1 in Organic Peanuts in Georgia

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Researchers tested clove essential oil as a natural antifungal treatment for peanuts infected with a mold that produces aflatoxin, a dangerous toxin harmful to human health. They found that clove oil significantly reduced both the mold growth and toxin production, with the best results at moderate concentrations. This discovery offers organic farmers an eco-friendly alternative to synthetic fungicides for protecting their peanut crops. The findings could help reduce a major agricultural problem that costs the Southeast millions of dollars annually.

In Vitro Screening of the Antifungal and Antimycotoxin Effects of a Stilbenoids-Rich Grapevine Cane Extract on Fusarium graminearum, Aspergillus flavus and Penicillium expansum

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Researchers tested an extract made from grapevine pruning waste to see if it could stop harmful fungi and the toxins they produce. The extract, rich in natural compounds called stilbenoids, successfully reduced growth and toxin production in three dangerous fungi that contaminate crops. The effects were strong enough that scientists believe this agricultural waste could become a natural alternative to chemical fungicides for protecting crops.

Algae and Cyanobacteria Fatty Acids and Bioactive Metabolites: Natural Antifungal Alternative Against Fusarium sp.

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Fusarium fungi cause serious crop diseases that farmers traditionally treat with chemical fungicides, but these chemicals harm the environment and create resistant fungi. Scientists are finding that algae and cyanobacteria (blue-green algae) produce natural compounds like fatty acids that can fight these fungi effectively. This research shows promising results for developing natural, environmentally-friendly fungicides that could help farmers protect crops without chemical damage.

Knowledge, attitude, and practice on mushroom poisoning among residents of Jilin province

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This study surveyed over 500 residents in Jilin Province about their understanding of mushroom poisoning risks. The results showed that most people had limited knowledge about toxic mushrooms, though many held positive attitudes about food safety. However, knowing about the dangers did not always translate into safer behaviors. The research suggests that better education, especially for rural residents, could help prevent dangerous mushroom poisoning incidents.

Exploring the Core Functional Microbiota Related to Flavor Compounds in Douchi from the Sichuan–Chongqing Region

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Douchi is a traditional Chinese fermented soybean product valued for its unique flavor. This research examined seven different douchi samples to understand which bacteria and fungi create the flavor compounds. The scientists found that specific microorganisms like Bacillus and Mucor produce different flavor molecules including fruity, floral, and caramel aromas. These findings can help producers select the best microorganisms to create better-tasting douchi products.

Research Keyword: food safety