cultivation – mycolab.ai

Growth and yield performance of Pleurotus ostreatus (Jacq. Fr.) Kumm (oyster mushroom) on different substrates

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This study tested four different waste materials (cotton seed, paper waste, wheat straw, and sawdust) to grow oyster mushrooms. Cotton seed proved to be the best material, producing more mushrooms in less time and with higher efficiency. The research shows that farmers can use agricultural waste to grow nutritious mushrooms, creating a sustainable income source while reducing environmental pollution.

The Possibility of Using Sulphur Shelf Fungus (Laetiporus sulphureus) in the Food Industry and in Medicine—A Review

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Sulphur shelf fungus, known as ‘chicken of the woods,’ is a bright yellow mushroom that grows on tree trunks and has remarkable health benefits. Research shows it contains compounds with antioxidant, antibacterial, and anticancer properties, making it valuable for both food and medicine. The fungus can be cultivated relatively quickly and easily, and some countries already recognize it as safe for food use, potentially opening new applications in the food and pharmaceutical industries.

First Record of the Edible Mushroom Lepista sordida in Western Algerian Forest: Nutritional Value and Physicochemical Parameters of Mycelial Culture

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Researchers in Algeria discovered Lepista sordida, an edible purple mushroom, for the first time in western Algerian forests. They identified the species using DNA analysis and studied how to grow it in laboratories by testing different temperature, humidity, and pH levels. The mushroom is highly nutritious, containing significant amounts of protein and carbohydrates, making it valuable for improving local diets and addressing nutritional deficiencies.

Comparative Analysis of Main Agronomic Traits of Different Pleurotus giganteus Germplasm Resources

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Scientists studied 15 different varieties of giant oyster mushrooms to understand their growth characteristics and quality traits. They tested how fast the mushroom threads grow at different temperatures, measured the size and weight of the mushrooms produced, and calculated how efficiently each variety converts growing material into edible mushrooms. Strain No. 9 performed best with the largest yields and highest quality mushrooms, while different strains showed distinct characteristics that could be used to develop superior commercial varieties.

Genome-wide analysis of bZIP gene family members in Pleurotus ostreatus, and potential roles of PobZIP3 in development and the heat stress response

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Scientists identified 11 genes that code for special proteins called bZIP transcription factors in oyster mushrooms. One particular protein, PobZIP3, was found to help mushrooms survive high temperatures and grow faster. When researchers increased this protein in mushroom strains, the mushrooms became more heat-resistant and produced edible fruiting bodies more quickly, suggesting this discovery could help farmers grow oyster mushrooms more reliably.

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.

Mushroom By-Products as a Source of Growth Stimulation and Biochemical Composition Added-Value of Pleurotus ostreatus, Cyclocybe cylindracea, and Lentinula edodes

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Researchers discovered that leftover mushroom materials from commercial cultivation can be recycled to boost the growth of edible mushroom mycelium. When mushroom waste extracts were added to growing media, they enhanced mycelial growth by up to 89.5% and increased beneficial compounds like chitin and proteins. This finding suggests a promising way to reduce mushroom farming waste while simultaneously improving the nutritional quality of cultivated mushrooms.

Identification of a pathogen causing fruiting body rot of Sanghuangporus vaninii

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Sanghuang, a valuable medicinal mushroom grown in China, was suffering from a disease that damaged fruiting bodies and reduced production. Researchers identified the cause as a green mold fungus called Trichoderma virens. The fungus grows best at 25°C and strongly inhibits the mushroom’s growth. Understanding this pathogen is the first step toward developing better ways to prevent the disease and protect this important medicinal crop.

Integrated Transcriptomics–Proteomics Analysis Reveals the Response Mechanism of Morchella sextelata to Pseudodiploöspora longispora Infection

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White mold disease is a major problem for morel mushroom farmers in China. Researchers identified the fungus causing this disease and studied how morel cells defend themselves. Using advanced molecular techniques, they found that morel cells respond to infection by changing their cell membranes and walls, and by activating protective proteins that fight oxidative stress. This research helps explain how the disease damages morels and could lead to developing stronger, disease-resistant mushroom varieties.

Cultivation and mycelium production from spore suspensions of desert truffles: prospective use as inoculum for host plants in arid zones

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Scientists successfully grew two types of desert truffles from Morocco in the laboratory using simple growth materials. By placing spores in potato dextrose agar or malt extract agar, they were able to produce substantial amounts of fungal threads (mycelium) within a week. This achievement is important because these truffles can now be used to help restore desert soils and grow edible mushrooms in arid regions, providing food and income for communities while fighting desertification.

Research Keyword: cultivation