food production – mycolab.ai

Cultivation of Different Oyster Mushroom (Pleurotus species) on Coffee Waste and Determination of Their Relative Biological Efficiency and Pectinase Enzyme Production, Ethiopia

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This research shows that oyster mushrooms can be successfully grown on leftover coffee waste (husks and parchment), turning an environmental problem into a nutritious food source. Different oyster mushroom species performed differently, with P. ostreatus being the most efficient. Pre-composting the coffee waste improved mushroom yields significantly. The study demonstrates that using coffee waste for mushroom cultivation is both economically viable and environmentally beneficial.

Isolation and characterization of edible mushroom-forming fungi from Swedish nature

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Swedish researchers isolated 17 strains of wild edible mushroom-forming fungi from nature and studied how they grow at different temperatures and develop fruiting bodies. They found that commercially cultivated mushroom species grow faster and prefer warmer temperatures than wild species. Several strains successfully produced mushrooms on different growing substrates, particularly on birch pellets, with some performing better than established laboratory strains. All newly isolated strains have been preserved in a research collection for future studies and potential commercial mushroom production.

Efficient conversion of tea residue nutrients: Screening and proliferation of edible fungi

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Researchers developed an environmentally friendly method to convert tea waste into nutritious fungal protein using edible mushrooms. By testing six different fungal species, they found that Monascus kaoliang B6 was most efficient at breaking down the complex fiber structures in tea residue and converting them into fungal biomass. This sustainable process eliminates the need for chemical treatments and harsh conditions, turning agricultural waste into valuable food ingredients.

Using spent mushroom substrate (SMS) as a casing boosted bacterial activity and enhanced the mineral profile of the Calocybe indica

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Researchers tested using leftover mushroom material (spent mushroom substrate) as a growing medium for milky mushrooms instead of traditional loamy soil. While traditional soil produced more mushrooms overall, the mushrooms grown in the recycled substrate contained significantly higher levels of beneficial minerals like zinc, copper, and phosphorus. The study found that beneficial bacteria in the recycled material helped make nutrients more available to the mushrooms, making this approach both environmentally friendly and nutritionally advantageous.

Supplementation in mushroom crops and its impact on yield and quality

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Mushroom farmers can increase their harvest and improve mushroom quality by adding nutritional supplements to the growing medium. These supplements can be made from common agricultural waste products like grain bran and soybean meal, making them affordable and environmentally friendly. New research shows that beneficial bacteria and fungi might also boost mushroom production, offering sustainable alternatives to traditional chemical supplements.

Decellularized extracellular matrix scaffolds from Pleurotus ferulae mushrooms for sustainable production of steak-like cultured meat with authentic texture

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Scientists developed a new way to grow steak-like meat in the laboratory using mushroom scaffolds. They used edible oyster mushrooms (Pleurotus ferulae) that were treated to remove all cells while keeping the fibrous structure intact. This mushroom scaffold provided the perfect environment for cow muscle cells to grow and organize into meat-like tissue. The resulting cultured meat had texture and appearance similar to real beef, offering a sustainable alternative to traditional livestock farming.

Upregulation of ACC deaminase gene in Bacillus velezensis UTB96 improved yield and shelf Life of Agaricus bisporus

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Researchers discovered that adding a beneficial bacteria called Bacillus velezensis UTB96 to mushroom growing substrates significantly improves both the amount of mushrooms produced and how long they stay fresh. When this bacteria was grown in a medium containing calcium chloride, it produced more of an enzyme called ACC deaminase that breaks down ethylene, a gas that causes mushrooms to age and brown. Mushrooms treated with this specially-prepared bacteria stayed fresher for three weeks in the refrigerator with minimal browning, and overall mushroom yield increased by up to 23%.

Genetic Ablation of the Conidiogenesis Regulator Enhances Mycoprotein Production

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Researchers created genetically modified versions of a fungus (Fusarium venenatum) used to make mycoprotein, a meat alternative. By removing a gene controlling spore formation, they increased fungal growth by 22%, which could significantly reduce production costs. The modified fungus also contained more amino acids and showed no safety concerns in lab tests, making it a promising advancement for sustainable food production.

Systematically exploring and evaluating core fungal composition and their flavor profile in fermented grains of Jiang-flavor baijiu

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Baijiu is a traditional Chinese alcohol made through complex fermentation involving many microorganisms. This study identified four key fungal groups that are most important for creating the desired flavors. When certain fungi were grown together with yeast, they produced higher amounts of desirable flavor compounds like esters and alcohols. These findings help scientists understand how to improve baijiu quality and consistency by using controlled combinations of microorganisms.

Unraveling the mycobiota of Daqu at the species level using metabarcoding of full-length ITS sequences

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Daqu is a special fermentation starter used to make Baijiu, a traditional Chinese alcohol. Researchers analyzed fungi in 296 Daqu samples from across China using advanced DNA sequencing technology. They identified 86 different fungal species and found that the types of fungi present depend on both the temperature during fermentation and the geographic region where the Daqu is made. These findings could help improve the quality and consistency of Baijiu production.

Research Keyword: food production