substrate optimization

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.

Valorization of agro-forest wastes (oak acorns, vineyard pruning, and olive pruning) through the cultivation of shiitake (Lentinula edodes) mushrooms

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Researchers tested growing shiitake mushrooms on locally available waste materials like oak acorns, olive pruning, and grape vine pruning instead of the traditionally used oak sawdust. The study found that mushrooms grown on oak acorns or combinations with grape pruning produced similar quantities while having better nutritional content and faster harvest times. This approach helps reduce environmental impact by using agricultural waste and offers sustainable alternatives for mushroom farmers.

Cultivation of Kabul Dhingri (Pleurotus eryngii) mushroom by standardizing protocols in subtropical zones of world

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Scientists in India developed standard protocols for growing King Oyster mushrooms (Kabul Dhingri) in subtropical regions. They tested different types of straw, sterilization methods, and planting densities to find the best conditions for maximum yield. Paddy straw provided the best results, while chemical sterilization and a 5% spawn rate worked best. These findings help farmers grow nutritious protein-rich mushrooms efficiently using agricultural waste.

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.

Effect of physiochemical parameters on yield and biological efficiency of Volvariella volvacea cultivated on empty fruit bunch pellets

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This study explored ways to improve the farming of straw mushrooms (Volvariella volvacea) using empty fruit bunch pellets from palm oil production. Researchers tested different substrate weights, growing areas, and nutrient mixtures to find the best recipe for high mushroom yields. The best results came from adding black soil to the substrate, achieving a biological efficiency of 17.75%, which could help farmers grow more mushrooms profitably while reducing agricultural waste.

Molecular characterization of most cultivated Pleurotus species in sub-western region Nigeria with development of cost effective cultivation protocol on palm oil waste

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This study identified the types of oyster mushrooms being grown by farmers in Nigeria and found that most were being misidentified by their appearance alone. Researchers used DNA testing to correctly identify two main species: P. ostreatus and P. pulmonarius. They also discovered that using palm oil waste mixed with rice bran as growing substrate produced better yields and lower costs than traditional sawdust methods, making commercial mushroom farming more economically viable for farmers.

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

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This study shows how adding olive mill waste to mushroom growing substrate can increase beneficial compounds in mushrooms while reducing harmful toxins. Researchers grew two types of edible mushrooms (lion’s mane and king oyster) on substrate containing different amounts of olive mill waste and used advanced chemical analysis to identify how the waste affected the mushrooms’ medicinal compounds. Adding olive mill waste increased healthy compounds like hericenones and erinacerins while decreasing toxic enniatin compounds, potentially creating safer and more nutritious mushrooms for consumers.

Effects and formula optimization of Rosa roxbunghii pomace substrate on the yield and volatile flavor compounds of Lentinula edodes

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Researchers discovered that using Rosa roxbunghii fruit waste as 30% of the growing medium for shiitake mushrooms produces better yields and more flavorful mushrooms compared to traditional sawdust-based methods. This sustainable approach solves a waste disposal problem while making mushrooms taste better, with higher levels of umami-contributing compounds. The findings could help local farmers reduce costs and improve mushroom quality while managing agricultural waste responsibly.

Performance of oyster mushroom (Pleurotus ostreatus) on paddy straw, water hyacinth and their combinations

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This study tested different combinations of rice straw and water hyacinth (an invasive aquatic weed) as growing substrates for oyster mushrooms in Nepal. Rice straw alone produced the best mushroom yield and profit. While water hyacinth alone is not suitable as a substrate, mixing it with rice straw at a 2:1 ratio could reduce costs while helping control this problematic weed. This research provides farmers with practical guidance on sustainable mushroom cultivation methods.

Impact of bottom ash addition on Pleurotus ostreatus cultivation on coffee ground substrate

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Researchers studied how to grow oyster mushrooms using leftover coffee grounds mixed with coal ash as a growing medium. They found that adding small amounts of coal ash (1-5%) to coffee grounds actually improved the mushroom quality by reducing harmful heavy metals while keeping beneficial nutrients like phosphorus and zinc. This discovery suggests a promising way to recycle both industrial waste and food waste while producing safer, more nutritious mushrooms.

Research Topic: substrate optimization