Research Keyword: Yield optimization

Different Symbiotic Species of Armillaria Affect the Yield and Active Compound Contents of Polyporus umbellatus

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Polyporus umbellatus is a medicinal mushroom used in traditional Chinese medicine for treating water retention and swelling. This study found that the type of symbiotic fungus (Armillaria species) growing with the mushroom significantly affects both how much mushroom is produced and the amounts of beneficial compounds it contains. Among three Armillaria species tested, A. gallica produced mushrooms with the highest yields and the most polysaccharides, making it the best choice for cultivation.

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Spent casing, Sphagnum moss, grass fibers, and green compost as peat alternatives in casing soils for Agaricus bisporus cultivation

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Button mushrooms are commonly grown on peat-based soil, but peat extraction damages important ecosystems. This study tested several alternative materials including spent mushroom substrate, moss, processed grass fibers, and compost as peat replacements. Researchers found that up to 75% of peat could be replaced with these alternatives while maintaining mushroom yield and preventing disease, offering promising sustainable options for commercial growers.

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Mechanism of Enzyme Activity Regulation and Strain-Specific Response of Lentinula edodes Cultivation Adaptability Under Peach Wood Substrate

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This study shows that shiitake mushrooms can be successfully grown on peach wood waste from orchards, which reduces costs and helps the environment. While high amounts of peach wood initially slow mushroom growth, the mushrooms adapt through natural enzyme changes that boost final yields. The resulting mushrooms have better nutrition and remain safe to eat, making this an excellent way to use agricultural waste sustainably.

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