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This book covers the applications of fungi used in biorefinery technology. As a great many different varieties of fungal species are available, the text focuses on the various applications of fungi for production of useful products including organic acids (lactic, citric, fumaric); hydrolytic enzymes (amylase, cellulases, xylanases, ligninases, lipases, pectinases, proteases); advanced biofuels (ethanol, single cell oils); polyols (xylitol); single cell protein (animal feed); secondary metabolites; and much more.
This unique book explores fungi as sensors, electronic devices, and potential future computers, offering eco-friendly alternatives to traditional electronics. Fungi are ancient, widely distributed organisms ranging from microscopic single cells to massive mycelium spanning hectares. They possess senses similar to humans, detecting light, chemicals, gases, gravity, and electric fields. It covers fungal electrical activity, sensors, electronics, computing prototypes, and fungal language. Authored by leading experts from diverse fields, the book is accessible to readers of all backgrounds, from high-schoolers to professors. It reveals the remarkable potential of fungal machines while minimizing environmental impact.
Traditional studies in mycology mainly deal with damage caused by fungi, for instance, diseases of plants, animal ailments, air-borne pathogens, decomposition of wood and production of mycotoxins in food. Applied mycology focuses on the fermentation of foods (flours, bakery products, cheese and others) and production of fermented products (wine, beer and spirit). Further value-added approaches show the significance of fungi in the production of bioactive metabolites and pharmaceuticals used in the treatment of human diseases, including cancer, and plant diseases (e.g. pest control). Due to a dependence on fossil resources, production of bio-renewable merchandise gained importance and fungi serve as potential biological agents in sustaining global economy. Recent developments in mycology revealed their significance in the fields of advanced research, in particular building materials, packaging resources, electronic devises and leather-like goods. In addition, fungi possess several qualities to degrade non-biodegradable compounds in the ecosystem and assist in sustainable waste bioremediation. This book covers the current biotechnological advances and bio-prospect potential of fungi. Fungal biopolymers possess various applications, including prebiotics, therapeutics, immunoceuticals, drug-discovery and drug-delivery. Fungal bioactive metabolites have several implications beyond antibiotics, such as volatiles, biofuels, nematicides and pigments. They also serve as prospective tools in the production of nanoparticles of medicinal, nutritional and industrial significance. In view of environmental protection, fungal activity and products aid in bioremediation via degradation of xenobiotics and solid wastes. Fungi can produce agriculturally compatible metabolites to enhance plant production. Knowledge on fungal genomics facilitates the gene manipulation towards biotechnological applications (disease diagnosis, pathogen detection, gene expression and mutualistic interactions). This book addresses the application of fungi in different areas and serves as a potential knowledge bank for graduates, post-graduates and researchers contemplating fungal applications.
The book covers an overview of fungal polymers, fungal mycelial biomass, and their applications besides providing a detailed account of various opportunities. This book also includes information on developments in mycotechnology related to fashion, furnishing, construction, packaging, mycelial-based bricks, construction binder, cementing materials, and so on. Other aspects include the value of chitin, chitosan, hydrophobins, lignocellulosic composites, oil recovery, biosurfactants and bioemulsifiers, nanofibers from pullulan, exopolymeric substances, bioresins, and biocomposites. Additional topics covered in the book include self-healing fungal concrete (which could help to build repairs) and recipe to inhibit fruit body formation, for living fungal biomaterial manufacture. There is no comprehensive book other than – some reviews, which addressed very brief historical developments and preliminary aspects of fungal biopolymers. Written by experts in their field from countries like Australia, India, USA, Germany, Turkey, Philippines, Oman, Belgium, Italy, Egypt, Brazil, and the United Kingdom, the chapters discuss at length applications of filamentous fungi in sustainable industrial pursuits and industrial developments with environmental safety. This book will be useful for students, teachers, researchers, and scientists in botany, microbiology, life sciences, biotechnology, agriculture and, industries that extensively use fungi for the production of value-added products.
Filamentous Fungi Biorefinery, the latest release in the Current Developments in Biotechnology and Bioengineering series, builds on knowledge on the classification of filamentous fungi and presence and roles played in ecosystems. The importance of filamentous fungi is then further corroborated through a description of their present applications in biotechnological processes. Knowledge on fungal biology is extended through discussion on structure and composition together with a description of growth potentialities of filamentous fungi in/on a wide range of substrates. In addition, the morphology of filamentous fungi is then described and its implications during integration in industrial processes is discussed. The book then provides an overview on the use of filamentous fungi for the production of a wide range of value-added products, including feed and food products, alcohols, organic acids, pigments, enzymes, antibiotics and biopolymers. All provided state-of-arts are extended to a description of the present degree of application of filamentous fungi towards the production of those products using low-value substrates, identification of research gaps, and proposes future research avenues. - Presents the first book dedicated to the use of filamentous fungi for process development within waste management - Discusses the transfer of research knowledge into industrial processes and marketable products - Includes industrial applications of filamentous fungi towards valorization of low-value substrates - Provides up-to-date knowledge on research and application fields that can benefit from the integration of filamentous fungi
This book presents selected processes that can be applied in contemporary and future biorefinery systems. It discusses the indicators characterizing the level of sustainable development for these systems as well as the methods of segregation and purification of biorefinery products, the use of enzymes, the possibility of obtaining bioplastics, ethyl alcohol, and co-pyrolysis of coal and biomass. This book is a valuable resource for research teams working on the development of biorefinery technologies as well as teachers and students of biotechnology faculties.
Bio-refinery approach of microbial fermentation, production of biogas, bioenergy, enzymes, bioactive molecules, agricultural nutrient and many more, which is presently restricted to specific journals, review articles and research papers in conference proceedings. Hence, my effort is to provide a complete and globally available advance knowledge in wastewater treatment with an aim of recovery of value added products. This will help in designing new approaches of waste water treatment with this value added thoughts. Thus, it will be a boon for a concern broad range of readers and industry professionals to their means of technology development for pollution prevention and economic growth of the country.
Over the last decades, scientists have been intrigued by the fascinating organisms that inhabit extreme environments. These organisms, known as extremophiles, thrive in habitats which for other terrestrial life-forms are intolerably hostile or even lethal. Based on such technological advances, the study of extremophiles has provided, over the last few years, ground-breaking discoveries that challenge the paradigms of modern biology. In the new bioeconomy, fungi in general, play a very important role in addressing major global challenges, being instrumental for improved resource efficiency, making renewable substitutes for products from fossil resources, upgrading waste streams to valuable food and feed ingredients, counteracting life-style diseases and antibiotic resistance through strengthening the gut biota, making crop plants more robust to survive climate change conditions, and functioning as host organisms for production of new biological drugs. This range of new uses of fungi all stand on the shoulders of the efforts of mycologists over generations. The book is organized in five parts: (I) Biodiversity, Ecology, Genetics and Physiology of Extremophilic Fungi, (II) Biosynthesis of Novel Biomolecules and Extremozymes (III) Bioenergy and Biofuel synthesis, and (IV) Wastewater and biosolids treatment, and (V) Bioremediation.
Fungi range from being microscopic, single-celled yeasts to multicellular and heterotrophic in nature. Fungal communities have been found in vast ranges of environmental conditions. They can be associated with plants epiphytically, endophytically, or rhizospherically. Extreme environments represent unique ecosystems that harbor novel biodiversity of fungal communities. Interest in the exploration of fungal diversity has been spurred by the fact that fungi perform numerous functions integral in sustaining the biosphere, ranging from nutrient cycling to environmental detoxification, which involves processes like augmentation, supplementation, and recycling of plant nutrients--a particularly important process in sustainable agriculture. Fungal communities from natural and extreme habitats help promote plant growth, enhance crop yield, and soil fertility via direct or indirect plant growth promoting (PGP) mechanisms of solubilization of phosphorus, potassium, and zinc, production of ammonia, hydrogen cyanides, phytohormones, Fe-chelating compounds, extracellular hydrolytic enzymes, and bioactive secondary metabolites. These PGP fungi could be used as biofertilizers, bioinoculants, and biocontrol agents in place of chemical fertilizers and pesticides in eco-friendly manners for sustainable agriculture and environments. Along with agricultural applications, medically important fungi play significant role for human health. Fungal communities are useful for sustainable environments as they are used for bioremediation which is the use of microorganisms' metabolism to degrading waste contaminants (sewage, domestic, and industrial effluents) into non-toxic or less toxic materials by natural biological processes. Fungi could be used as mycoremediation for the future of environmental sustainability. Fungi and fungal products have the biochemical and ecological capability to degrade environmental organic chemicals and to decrease the risk associated with metals, semi-metals, and noble metals either by chemical modification or by manipulating chemical bioavailability. The two volumes of "Recent Trends in Mycological Research” aim to provide an understanding of fungal communities from diverse environmental habitats and their potential applications in agriculture, medical, environments and industry. The books are useful to scientists, researchers, and students involved in microbiology, biotechnology, agriculture, molecular biology, environmental biology and related subjects.
Platform Chemical Biorefinery: Future Green Chemistry provides information on three different aspects of platform chemical biorefinery. The book first presents a basic introduction to the industry beneficial for university students, then provides engineering details of existing or potential platform chemical biorefinery processes helpful to technical staff of biorefineries. Finally, the book presents a critical review of the entire platform chemical biorefinery process, including extensive global biorefinery practices and their potential environmental and market-related consequences. Platform chemicals are building blocks of different valuable chemicals. The book evaluates the possibility of renewable feedstock-based platform chemical production and the fundamental challenges associated with this objective. Thus, the book is a useful reference for both academic readers and industry technical workers. The book guides the research community working in the field of platform chemical biorefinery to develop new pathways and technologies in combination with their market value and desirability. - Offers comprehensive coverage of platform chemicals biorefineries, recent advances and technology developments, potential issues for preventing commercialization, and solutions - Discusses existing technologies for platform chemicals production, highlighting benefits as well their possible adverse effects on the environment and food security - Includes a global market analysis of platform chemicals and outlines industry opportunities - Serves as a useful reference for both academic readers and industry technical workers