Pleurotus sapidus – 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.

Comprehensive review on oyster mushroom species (Agaricomycetes): Morphology, nutrition, cultivation and future aspects

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Oyster mushrooms are increasingly popular edible fungi that can be grown on agricultural waste materials like rice and wheat straw. These nutritious mushrooms are rich in protein, vitamins, and minerals while containing compounds with health benefits including antioxidant and anti-inflammatory properties. Their cultivation offers an environmentally friendly solution to waste management while producing highly nutritious food that could help address global food security challenges.

Production of β-Glucans by Pleurotus ostreatus: Cultivation and Genetic Background

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Oyster mushrooms (Pleurotus ostreatus) are increasingly popular edible fungi that can grow on various waste materials like agricultural byproducts and food waste, making them both economical and environmentally friendly. These mushrooms produce valuable health-promoting compounds called β-glucans that have immune-boosting and antioxidant properties. Modern scientific techniques, including genetic analysis and artificial intelligence, are being used to optimize cultivation methods and increase production of these beneficial compounds. This sustainable approach to mushroom farming helps reduce waste while providing nutritious and medicinal food products.

Mycelium Growth and Development of Psilocybe spp. Mother Cultures on Agar-Based Media

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This research examines how different growing media affect four types of psilocybin mushrooms. The study found that malt extract agar worked best for some mushroom types while potato-based media worked better for others. Commercial powdered potato media performed poorly, especially for one sensitive strain. These findings help optimize mushroom cultivation for therapeutic and commercial purposes.

Proteases from Pleurotus spp.: Properties, Production and Biotechnological Applications

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Oyster and king oyster mushrooms produce powerful enzymes called proteases that can break down proteins. These enzymes have multiple uses including fighting parasitic infections in animals and plants, making cheese, dissolving blood clots, and being used in detergents and cosmetics. The mushrooms can be grown on agricultural waste, making this a sustainable and cost-effective way to produce these valuable enzymes.

Effects of a biotechnologically produced Pleurotus sapidus mycelium on gut microbiome, liver transcriptome and plasma metabolome of broilers

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Researchers tested whether mushroom mycelium (the root structure of mushrooms) grown in large bioreactors could be used as a supplement in chicken feed as a sustainable alternative to traditional ingredients. Over 5 weeks, broilers received feed with 0%, 2.5%, or 5% mushroom mycelium, with no negative effects on growth, digestion, or overall health observed. The study suggests that this biotechnologically produced mushroom biomass is a safe and potentially sustainable feed ingredient for poultry production.

Mushroom: an emerging source for next generation meat analogues

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Mushrooms are emerging as excellent meat substitutes because they have a meaty, chewy texture and savory flavor similar to meat, while being nutritious, low in fat, and sustainable to grow. When added to meat products like sausages, burgers, and nuggets, mushrooms improve texture, extend shelf-life, and reduce spoilage. The growing shift toward plant-based eating combined with environmental concerns makes mushroom-based meat alternatives an attractive option for consumers seeking healthier and more sustainable food choices.

Fermentation of cocoa pod husks with Pleurotus salmoneo-stramineus for food applications

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Researchers found a way to transform cocoa pod husks, a major waste product from cocoa production, into a nutritious food ingredient by fermenting them with a special mushroom fungus. The fermented product had nearly triple the protein content of the original husks and maintained high fiber levels, making it comparable to meat in protein quality. This innovation could help cocoa farmers create additional income while reducing waste and supporting more sustainable cocoa production.

Effects of a biotechnologically produced Pleurotus sapidus mycelium on gut microbiome, liver transcriptome and plasma metabolome of broilers

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Researchers tested whether mushroom mycelium grown using agricultural waste could be safely added to chicken feed. The mycelium, rich in beneficial compounds like β-glucans, was added to broiler diets at varying levels for 35 days. Results showed that chickens fed diets containing up to 5% mushroom mycelium performed just as well as control chickens, with no negative effects on health, digestion, or metabolism, suggesting this sustainable feed ingredient could help reduce competition between animal feed and human food.

Influence of Pleurotus sapidus fruiting bodies on the performance, cecal microbiome, and gene expression in the liver and breast muscle of broilers

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Researchers tested whether edible mushroom fruiting bodies could be used as animal feed for chickens. They found that chickens fed diets containing oyster mushroom (Pleurotus sapidus) had reduced growth and lower nutrient absorption compared to control chickens. While mushroom-based feed appeared to increase beneficial gut bacteria diversity, it ultimately impaired overall chicken performance, suggesting mushroom fruiting bodies are not suitable as a primary feed component for commercial poultry production.

Fungal Species: Pleurotus sapidus