Review on mushroom mycelium-based products and their production process: from upstream to downstream

Bioresources and Bioprocessing, Journal Year: 2025, Volume and Issue: 12(1)

Published: Jan. 10, 2025

Abstract The global trend toward carbon neutrality and sustainability calls for collaborative efforts in both the basic applied research sectors to utilize mushroom mycelia as environmentally friendly sustainable materials. Fungi, along with animals plants, are one of major eukaryotic life forms. They have long been utilized traditional biotechnology sectors, such food fermentation, antibiotic production, industrial enzyme production. Some fungi also consumed crops, fruiting bodies various mushrooms. Recently, new trends emerged, shifting from applications towards innovative use mycelium eco-friendly bioresources. This approach has gained attention development alternative meats, mycofabrication biocomposites, production mycelial leather fabrics. These aim replace animal husbandry recycle agricultural waste construction electrical paper reviews current on mycelia, covering strain improvements molecular breeding well products processes. Key findings, practical considerations, valorization discussed. Graphical

Language: Английский

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Mycelium-based composites: An updated comprehensive overview

Biotechnology Advances, Journal Year: 2025, Volume and Issue: 79, P. 108517 - 108517

Published: Jan. 6, 2025

Mycelium-based composites hold significant potential as sustainable alternatives to traditional materials, offering innovative solutions the escalating challenges of global warming and climate change. This review examines their production techniques, advantages, limitations, emphasizing role in addressing pressing environmental economic concerns. Current applications span various industries, including manufacturing biomedical fields, where mycelium-based demonstrate capacity mitigate impact enhance sustainability. Key findings highlight benefits, viability, versatile applications, showcasing revolutionize multiple sectors. However, such consumer acceptance, intrinsic variability, need for standardized guidelines persist, underscoring importance further research innovation. By optimizing material properties refining processes, could pave way widespread adoption contributing a greener more environmentally conscious future.

Language: Английский

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Comparative Evaluation of Mechanical and Physical Properties of Mycelium Composite Boards Made from Lentinus sajor-caju with Various Ratios of Corn Husk and Sawdust

Journal of Fungi, Journal Year: 2024, Volume and Issue: 10(9), P. 634 - 634

Published: Sept. 5, 2024

Mycelium-based composites (MBCs) exhibit varied properties as alternative biodegradable materials that can be used in various industries such construction, furniture, household goods, and packaging. However, these are primarily influenced by the type of substrate used. This study aims to investigate MBCs produced from

Language: Английский

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Biotechnological potential of Ganoderma species: current progress and future prospects

New Zealand Journal of Botany, Journal Year: 2024, Volume and Issue: unknown, P. 1 - 60

Published: Aug. 22, 2024

Ganoderma, a genus deeply rooted in traditional medicinal practices across diverse Asian cultures throughout history, has garnered renewed attention due to its promising biotechnological potential, particularly health-enhancing properties. The distinctive characteristics exhibited by various species within the Ganoderma render them invaluable for wide spectrum of applications both industrial and pharmaceutical contexts. Recent advancements research have unveiled plethora captivating opportunities which plays pivotal role. These encompass range applications, including but not limited enzyme production, extraction bioactive compounds, bioremediation, bioprospecting, biodegradation. involvement these areas highlights versatility significance contributing multiple sectors. This comprehensive review explores vistas offering insights into multifaceted potential impact applications. By elucidating biotechnology, this aims underscore role contemporary innovation. Furthermore, through deeper exploration potentials seeks highlight contributions implications future biotechnology sustainability.

Language: Английский

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A Comprehensive Review on Studying and Developing Guidelines to Standardize the Inspection of Properties and Production Methods for Mycelium-Bound Composites in Bio-Based Building Material Applications

Biomimetics, Journal Year: 2024, Volume and Issue: 9(9), P. 549 - 549

Published: Sept. 11, 2024

Mycelium-bound composites (MBCs) represent a promising advancement in bio-based building materials, offering sustainable alternatives for engineering and construction applications. This review provides comprehensive overview of the current research landscape, production methodologies, standardization ideas related to MBCs. A basic search on Scopus revealed over 250 publications MBCs between 2020 2024, with more than 30% focusing materials science. Key studies have investigated physical mechanical properties MBCs, optimizing parameters such as substrate type, fungal species, incubation time, post-processing enhance material performance. Standardizing inspection MBC is crucial ensuring quality reliability. Various testing standards, including those from American Society Testing Materials (ASTM), International Organization Standardization (ISO), Japanese Industrial Standard (JIS), European Standards (EN), Deutsches Institut für Normung (DIN), Thai Institute (TIS), are utilized evaluate density, water absorption, compression strength, tensile insulation, other critical properties. highlights distinction lab-scale apply-scale emphasizing need evaluation protocols. Additionally, process involves steps like preparation, species selection, mycelium growth, necessitating implementation good manufacturing practices (GMPs) ensure consistency quality. The internal external structures significantly influence their performance, standardized methods using advanced techniques scanning electron microscopy (SEM), X-ray computed tomography (CT) scanning, surface profilometry. By establishing robust protocols industry can reliability adoption contributing innovations science promoting environmental sustainability. underscores importance interdisciplinary collaboration, characterization tools, regulatory frameworks address challenges advance field

Language: Английский

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Harmonizing Nature, Engineering and Creativity: An Interdisciplinary Exploration of Engineered Living Materials, Artistry and Sustainability in Collaborative Mycelium Brick Construction

Published: July 24, 2024

This study presents an innovative approach to interdisciplinary education by integrating principles of biology, engineering and art foster holistic learning experiences for children. The focus lies on assembling mycelium bricks as engineered living materials with promising applications in sustainable construction. Through a collaborative group task, children engage the hands-on creation these bricks, gaining insights into mycology, biomaterials artistic expression. curriculum introduces fundamental concepts mycelial growth its potential material development. Children actively participate fabricating 3D forms (negative positive) using thereby practical knowledge shaping moulding materials. experience enhances their understanding biological processes cultivates appreciation design principles. task encourages teamwork, problem-solving, creativity collaboratively compose structures bricks. Integrating activity adds creative dimension, allowing participants explore aesthetic aspects while reinforcing project’s nature. Conversations about material’s end life decomposition are framed within broader context Nature’s cycles, facilitating sustainability. pedagogical provides model educators seeking integrate diverse fields cohesive engaging experience. contributes emerging field biomimetics education, illustrating activities nurture science, expression young learners.

Language: Английский

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Harmonizing Nature, Education, Engineering and Creativity: An Interdisciplinary Educational Exploration of Engineered Living Materials, Artistry and Sustainability Using Collaborative Mycelium Brick Construction

Biomimetics, Journal Year: 2024, Volume and Issue: 9(9), P. 525 - 525

Published: Aug. 31, 2024

This study presents an innovative approach to interdisciplinary education by integrating biology, engineering and art principles foster holistic learning experiences for middle-schoolers aged 11–12. The focus lies on assembling mycelium bricks as engineered living materials, with promising applications in sustainable construction. Through a collaborative group task, children engage the hands-on creation of these bricks, gaining insights into mycology, biomaterials artistic expression. curriculum introduces fundamental concepts mycelial growth its potential material development. Children actively participate fabricating 3D forms (negative positive) using thereby practical knowledge shaping moulding materials. experience enhances their understanding biological processes cultivates appreciation design principles. task encourages teamwork, problem-solving creativity collaboratively compose structures bricks. Integrating activity adds creative dimension, allowing participants explore aesthetic aspects while reinforcing project’s nature. Conversations about material’s end-of-life decomposition are framed within broader context Nature’s cycles, facilitating sustainability. pedagogical provides model educators seeking integrate diverse fields cohesive engaging experience. contributes emerging field nature-inspired education, illustrating materials 3D-understanding activities nurture science, expression young learners.

Language: Английский

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