Research Topic: lignocellulosic materials

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.

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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.

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Perspectives of Insulating Biodegradable Composites Derived from Agricultural Lignocellulosic Biomass and Fungal Mycelium: A Comprehensive Study of Thermal Conductivity and Density Characteristics

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Scientists created eco-friendly insulation material by combining agricultural waste like wheat, hemp, and flax straw with fungal mycelium as a natural binder. These composites are fully biodegradable, lightweight, and have thermal insulation properties comparable to conventional materials, offering a sustainable alternative for building insulation that performs better per unit weight than many traditional options.

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