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Large scale cultivation of macrofungi is possible with fermentation, using easily accessible lignocellulosic agricultural residues utilising economical methods to generate substantial biomass, food and biofuels. Bioconversion of lignocellulosic wastes by macrofungi generates value-added fungal nutritional biomass for humans and livestock. Besides commercial cultivation techniques, other topics covered include healing potential of mushrooms, industrial opportunities, mycelium-based products, forest wild mushrooms and industrial applications of white rot fungi. This book addresses the various applications of macrofungi. It encourages readers to explore non-conventional sources of nutrition as well as bioactive metabolites to serve as nutraceuticals. The volume emphasizes the significance of macrofungi as source of bioactive compounds to remedy human lifestyle diseases especially cancers and cardiovascular ailments along with immunostimulation potential by Cordyceps. This book also emphasises on the role of mushrooms as a source of cosmeceuticals, source of flavors, essence, scents and perfumes.
Advances in Macrofungi: Diversity, Ecology and Biotechnology discusses the diversity and ecology of edible, toxic, medicinal and mycorrhizal macrofungi; the impact of ectomycorrhizal fungi in terrestrial ecosystems, ectomycorrhizal complex in Boreal forests and commercial application of Pseudotsuga in silviculture; the nutritional evaluation and cultivation of edible wild mushrooms; the diversity of novel metabolites of macrofungi useful in food, pharmaceutical and cosmeceutical industries; mushrooms as tool for eco-friendly synthesis of nanoparticles and proteomics of edible and medicinal mushrooms. In addition, it covers experimental designs, methodological approaches, biogeochemical cycles, conceptual/hypothetical models and life history strategies, linking mycorrhizal diversity to plant performance, chemotaxonomy, role of mycorrhizae in forestry and macrofungi in nanotechnology. It provides a valuable resource to graduate, post-graduate and researchers (in botany, microbiology, ecology, biotechnology, forestry, life sciences and environmental sciences) to understand the diversity, ecology, therapeutic value, mutualistic associations and biotechnological potential of macrofungi.
Large scale cultivation of macrofungi is possible with fermentation, using easily accessible lignocellulosic agricultural residues utilising economical methods to generate substantial biomass, food and biofuels. Bioconversion of lignocellulosic wastes by macrofungi generates value-added fungal nutritional biomass for humans and livestock. Besides commercial cultivation techniques, other topics covered include healing potential of mushrooms, industrial opportunities, mycelium-based products, forest wild mushrooms and industrial applications of white rot fungi. This book addresses the various applications of macrofungi. It encourages readers to explore non-conventional sources of nutrition as well as bioactive metabolites to serve as nutraceuticals. The volume emphasizes the significance of macrofungi as source of bioactive compounds to remedy human lifestyle diseases especially cancers and cardiovascular ailments along with immunostimulation potential by Cordyceps. This book also emphasises on the role of mushrooms as a source of cosmeceuticals, source of flavors, essence, scents and perfumes.
Advances in Macrofungi: Diversity, Ecology and Biotechnology discusses the diversity and ecology of edible, toxic, medicinal and mycorrhizal macrofungi; the impact of ectomycorrhizal fungi in terrestrial ecosystems, ectomycorrhizal complex in Boreal forests and commercial application of Pseudotsuga in silviculture; the nutritional evaluation and cultivation of edible wild mushrooms; the diversity of novel metabolites of macrofungi useful in food, pharmaceutical and cosmeceutical industries; mushrooms as tool for eco-friendly synthesis of nanoparticles and proteomics of edible and medicinal mushrooms. In addition, it covers experimental designs, methodological approaches, biogeochemical cycles, conceptual/hypothetical models and life history strategies, linking mycorrhizal diversity to plant performance, chemotaxonomy, role of mycorrhizae in forestry and macrofungi in nanotechnology. It provides a valuable resource to graduate, post-graduate and researchers (in botany, microbiology, ecology, biotechnology, forestry, life sciences and environmental sciences) to understand the diversity, ecology, therapeutic value, mutualistic associations and biotechnological potential of macrofungi.
Large scale cultivation of macrofungi is possible with fermentation, using easily accessible lignocellulosic agricultural residues applying economical methods to generate substantial biomass, food and biofuels. Bioconversion of lignocellulosic wastes by macrofungi generates value-added fungal nutritional biomass for humans and livestock. Besides commercial cultivation techniques, other topics covered in Advances in Macrofungi: Industrial Avenues and Prospects include: the healing potential of mushrooms, industrial opportunities, mycelium-based products, forest wild mushrooms and industrial applications of white rot fungi. This book reviews the industrial applications and uses of macrofungi. It encourages students and researchers to explore non-conventional sources of nutrition as well as bioactive metabolites to serve as nutraceuticals. It emphasizes the potential of macrofungi as a source of bioactive compounds to remedy human lifestyle diseases especially cancers and cardiovascular ailments along with immunostimulation potential by Cordyceps. This book emphasizes the role of on mushrooms as a source of cosmeceuticals, flavors, essence, scents and perfumes.
The genus Cordyceps and allied species, such as entomopathogenic fungi, mainly parasitize insects and other arthropods and have been known since ancient times. They are a source of hundreds of metabolites of medicinal significance used in drug discovery and drug development. The book reviews the developments in cordyceps research and its applications. It covers areas such as diversity, distribution, taxonomy, phylogeny, genetics, bioactive potential, nutraceutical values, biotechnological prospects, plant protection, safety concerns, and marketed products. Further, the impact of human interference as well as climate change on the habitats of Cordyceps has been discussed. The book is meant for readers with an interest in mycology and allied areas. It is also invaluable to personnel carrying out research in disciplines like applied biology, biochemistry, biotechnology, botany, ecology, entomology, environmental biology, field biology, forestry, and zoology.
The discipline of mycology is a fascinating one. It has a major influence on the nutrition, health and environmental safety of mankind. Cultivation of edible and non-edible mushrooms for nutrition, pharmaceuticals, biopolymers and biocomposites will open up new avenues in research as well as the more profitable utilization of agricultural residues. Cultivation and of domesticated and wild mushrooms poses a challenge to fulfill the needs of human/animal nutrition and utilization of agrowastes tangibly. Cultivation of ectomycorrhizal fungi benefits nutrition as well as plant protection. Macrofungi are the major source of several metabolites of nutritional, health, agricultural and industrial significance (e.g., antioxidants, antimicrobials and pigments). Macrofungal bio composites provide alternatives to the use of animal-derived or plant-derived products (e.g., nanopapers, leather and packaging materials). They serve a dual role in providing nutrition and pharmaceuticals (nutraceuticals) to humans as well as livestock. Macrofungi interact with insects symbiotically (e.g., Termitomyces with termites) and provide delicious nutraceutical product. They also control insects by infecting and producing pharmaceutically and metabolite-rich products (e.g., Cordyceps attacks insects). Macrofungi have a strong potential to control pathogens like nematodes in soil (bioremediation). They are also useful as biofertilizers to meet the needs of plant nutrition. The book outlines current advances in macrofungal technology. It highlights different facets of macrofungal cultivation, bioactive compounds, biocomposites, nutraceuticals, benefits with interaction with insects, application as biofertilizers and ecosystem services like bioremediation.
Macrofungi have significant importance in human health, particularly in nutrition, medicine, pharmaceuticals, agriculture and industries. They occupy a variety of ecosystems such as terrestrial (agricultural lands, forests and deserts), freshwater (bogs and marshes) and maritime (mangroves and coastal sand dunes) habitats. Their ecosystem services like nutrition (humans and animals), medicinal pursuits (antibiotics and pharmaceuticals) and bioremediation (degradation of xenobiotics and insect control) potential are dependent on their diversity and ecological conditions. Macrofungal ecology serves as the basis for nutraceutical values, agricultural benefits, plant productivity, environmental protection and industrially valued biocomposites. This book focuses on various aspects of macrofungal distribution in diverse habitats, participation in organic matter decomposition, ectomycorrhizal associations and participation in biogeochemical cycles. This book reviews the current developments in macrofungal ecology in different habitats and their benefits. Due to the topics dealt with on macrofungal diversity, distribution, dynamics, lifestyles, ecosystem or substrate preferences and ecosystem services, this book is valuable to mycologists, botanists, zoologists, ecologists, foresters, geneticists, agronomists and field biologists.
Biodiversity of Fungi is essential for anyone collecting and/or monitoring any fungi. Fascinating and beautiful, fungi are vital components of nearly all ecosystems and impact human health and our economy in a myriad of ways. Standardized methods for documenting diversity and distribution have been lacking. A wealth of information, especially regrading sampling protocols, compiled by an international team of fungal biologists, make Biodiversity of Fungi an incredible and fundamental resource for the study of organismal biodiversity. Chapters cover everything from what is a fungus, to maintaining and organizing a permanent study collection with associated databases; from protocols for sampling slime molds to insect associated fungi; from fungi growing on and in animals and plants to mushrooms and truffles. The chapters are arranged both ecologically and by sampling method rather than by taxonomic group for ease of use. The information presented here is intended for everyone interested in fungi, anyone who needs tools to study them in nature including naturalists, land managers, ecologists, mycologists, and even citizen scientists and sophiscated amateurs. - Covers all groups of fungi - from molds to mushrooms, even slime molds - Describes sampling protocols for many groups of fungi - Arranged by sampling method and ecology to coincide with users needs - Beautifully illustrated to document the range of fungi treated and techniques discussed - Natural history data are provided for each group of fungi to enable users to modify suggested protocols to meet their needs
This book presents various biotechnological applications of the fungal systems in pharmaceuticals, nutraceuticals, textile industry, bioremediation, biofuel, and the production of biomolecules. It discusses the important role of fungal secondary metabolites in human welfare and nutrition. It explores fungi as the vital sources of novel substances with antidiabetic, antibiotic as well as prebiotic properties. The book further describes the natural and unique ability of fungi to biodegrade macro- and microplastics by using them as a source of carbon and energy. Notably, it presents the properties and applications of bioactive fungal polysaccharides and discusses the latest developments in utilizing these biopolymers in human nutrition. In addition, the book examines the production of biodegradable and sustainable natural colorants from fungal sources. This book is a valuable source for mycologists, biotechnologists, and microbiologists for understanding the important role of fungi in biotechnology.