With one volume each year, this series keeps scientists and advanced students informed of the latest developments and results in all areas of the plant sciences.
The present volume includes reviews on genetics, cell biology, physiology, comparative morphology, ecology and vegetation science.

Yeasts are a versatile group of eukaryotic microorganisms, exhibiting heterogeneous nutritional profiles and an extraordinary ability to survive in a wide range of natural and man-associated ecosystems, including cold habitats. Cold-adapted yeasts inhabit numerous low-temperature environments where they are subjected to seasonal or permanent cold conditions. Hence, they have evolved a number of adaptation strategies with regard to growth and reproduction, metabolic activities, survival and protection. Due to their distinctive ability to thrive successfully at low and even subzero temperatures, cold-adapted yeasts are increasingly attracting attention in basic science and industry for their enormous biotechnological potential.

This book presents our current understanding of the diversity and ecology of cold-adapted yeasts in worldwide cold ecosystems, their adaptation strategies, and their biotechnological significance. Special emphasis is placed on the exploitation of cold-adapted yeasts as a source of cold-active enzymes and biopolymers, as well as their benefits for food microbiology, bioremediation and biocontrol. Further, aspects of food biodeterioration are considered.

Simon & Schuster's Guide to Mushrooms is indispensable to anyone fascinated by mushrooms and other fungi. Lavishly illustrated, it contains detailed information about 420 types of mushrooms and other fungi found in the United States and Europe. The comprehensive introduction provides general information on the structure, reproduction, life cycles, classification, and distribution of the various species and describes the individual parts of the fungus as well. The entries describe the appearance, habitat, and geographic distribution of each species of fungi. The easy-to-use visual key provides each entry with immediately recognizable symbols that indicate spore color, ecological environment, and whether the species is edible or poisonous. A glossary and analytical index, plus an Index to Genera for locating particular subjects, help make this the most beautiful, valuable, and authoritative book in the field.

The COVID-19 pandemic that swept the planet in the early 2020s killed more than six million, delivered unimaginable human suffering and $22 trillion in lost global growth. We weren't prepared and should have been.Unraveling the secrets of microbes, an invisible parallel universe of tiny life forms all around us, is central to managing the big twenty-first-century challenges of pandemics, bioterrorism, food security and climate change. Scientists, technologists, entrepreneurs and political leaders are racing to decode this biological realm with powerful new tools to extend human lifespans and make the world safer and more prosperous. Yet such technologies need to be handled with care. The price of getting this wrong will be unbearable.Man Versus Microbe is about humanity's competitive, symbiotic and precarious relationship with the microbial world. Brian Bremner (Senior Executive Editor, Bloomberg) offers a book on the exhilarating fields of synthetic biology and genetics, abundant with material on emerging technologies to deepen one's understanding of how virus hunters chase bugs or how geneticists unlock the workings of a microbe's constituent DNA. This book is for readers who want to learn more about humanity's fight to contain future pandemics and better understand the risks and opportunities of living in the world of microbes. After navigating through a disruptive pandemic, we are all amateur epidemiologists now.

This book provides a comprehensive description of theories and applications of high-solid and multi-phase bioprocess engineering, which is considered as an important way to address the challenges of "high energy consumption, high pollution and high emissions" in bio-industry. It starts from specifying the solid-phase matrix properties that contribute to a series of "solid effects" on bioprocess, including mass transfer restrictions in porous media, water binding effects, rheological changes. Then it proposes the new principles of periodic intensification which combines the normal force and physiologic characteristics of microorganism for the bioprocess optimization and scale-up. Further breakthroughs in key periodic intensification techniques such as periodic peristalsis and gas pressure pulsation are described in detail which provide an industrialization platform and lay the foundation for high-solid and multi-phase bioprocess engineering. This book offers an excellent reference and guide for scientists and engineers engaged in the research on both the theoretical and practical aspects of high-solid and multi-phase bioprocess.

This book highlights important aspects of food biotechnology. It is very thoughtfully divided into five sections. The first section introduces the readers to food biotechnology and discusses functional foods, use of plant and animal biotechnology in improving food quality. The second section deals with food microbiology and includes topics such as application of microbial surfactants, use of probiotics, beneficial microorganisms used in food industry etc. The third section describes important macro and micromolecules in foods. It includes chapters on food enzymes, gluten free formulations, use of biopolymers, biofortification of food and other important topics. The next section discusses novel technologies such as use of nanotechnology in food industry, reverse micelle techniques, genome editing in food crops etc. The book culminates with a section on food quality and management. It describes important topics about biosafety and regulatory issues in food biotechnology. This book is meant for students, researchers and course instructors in food science, food technology and biotechnology. It is also useful for industry experts in the area of food technology.

Sebacinales have emerged as a fascinating order with mutualistic plant-fungal symbionts that consists of exclusively beneficial fungi.

This volume of Soil Biology presents an overview of the current results in Sebacinales research with a focus on the potential of these fungi in crop improvement and stress tolerance. The authors demonstrate that Sebacinales are not only extremely versatile in their associations with roots, but are also almost universally present as symptomless endophytes. With this extraordinary diversity, Sebacinales with the key fungus "Piriformospora indica" might possess remarkable significance in natural ecosystems. Their biotechnological applications are expected to improve the quality of crops while maintaining ecologically and economically sustainable production systems.

This book provides excellent techniques for detecting and evaluating biofilms: sticky films on materials that are formed by bacterial activity and produce a range of industrial and medical problems such as corrosion, sanitary problems, and infections. Accordingly, it is essential to control biofilms and to establish appropriate countermeasures, from both industrial and medical viewpoints. This book offers valuable, detailed information on these countermeasures. It also discusses the fundamentals of biofilms, relates various substrates to biofilms, and presents a variety of biofilm reactors. However, the most important feature of this book (unlike others on the market) is its clear focus on addressing the practical aspects from an engineering viewpoint. Therefore, it offers an excellent practical guide for engineers and researchers in various fields, and can also be used as a great academic textbook.

The Argentinean Patagonia offers a great diversity of scarcely explored environments suitable for the bioprospection of biotechnological relevant microorganisms. This book provides readers with a concise and clearly illustrated treatment of outstanding topics of Patagonian microbiology and biotechnology. It covers a wide range of areas interesting to several audiences such as researchers, graduate students and professionals working on the industry food. Among the main topics we will discuss examples of environmental applications, such as heavy metal and hydrocarbon bioremediation, bioprospection of valuable molecules from extremophilic bacteria and yeasts, the use of Patagonian yeasts and lactic acid bacteria in fermented foods and beverages, aquaculture probiotics and yeasts for food biopreservation.

Interest in the field of microbial toxins is ever growing and spreading across a broad spectrum of scientific disciplines." "In an effort to supplement the available reference texts on toxins, "Microbial Toxins: Methods and Protocols" includes protocols on mold fungus toxins, with some focus on aflatoxins. Intended to support a wide variety of researchers, "Microbial Toxins: Methods and Protocols "presents the reader with biological, chemical, physical, and medical approaches, as well as state-of-the-art research techniques. Divided into three convenient sections, this detailed volume covers bacterial protein toxins, endotoxins, and mold fungus toxins. Written in the highly successful "Methods in Molecular Biology " series format, chapters contain introductions to their respective topics, lists of the necessary materials and reagents, step-by-step, readily reproducible laboratory protocols, and notes on troubleshooting and avoiding known pitfalls.

Authoritative and accessible, "Microbial Toxins: Methods and Protocols "seeks to serve both professionals and novices with its well-honed methodologies in an effort to further our knowledge of this essential field.

This third book in the Trilogy of Traditional Foods, part of the ISEKI Food Series, covers the beneficial properties of functional foods from across the world. The volume is divided into four sections that address different key topics in the area of study. Part I provides a general overview of the material, with chapters on functional aspects of antioxidants and probiotics in traditional food. This section also includes chapters on the potential health benefits of Thai, Slovak and Turkish traditional foods. Part II contains eight chapters on cereal-based foods, including chapters on Carob flour, products from Mexican Chia, and the ancient grain Canahua. Part III is devoted to plant based foods and includes chapters on dates from Israel, medical properties of cactus products from Mexico, beneficial properties of Mastic gum from the Greek island Chios, and the properties of Argan oil from Morocco. Part IV focuses on Honey and Beverages, with chapters on functional and nutritional properties of honey and the properties of Camellia tea, as well as the Spanish drink Horchata De Chufa. The purpose of the book is to describe and sometimes evaluate properties of foods that native consumers have believed to be beneficial. All chaptersare written by practicing Food Scientists or Engineers but are written with the interested general public in mind.The book should cater to the practicing food professional as well as all who are interested in beneficial properties of traditional foods.

Nanotechnology progresses its concerts and suitability by improving its effectiveness, security and also reducing the impact and risk. Various chapters in this book are written by eminent scientists and prominent researchers in the field of nanotechnology across the world. This book is focused to put emerging techniques forward using nanoparticles for safe and nutritional food production, protecting crops from pests, increasing nutritional value and providing solutions for various environmental issues. The outcome of this book creates a path for wide usage of nanoparticles in food, agriculture and the environment fields. This book has clear and simple illustrations, tables and case studies to understand the content even by non-experts. This book especially deals with the nanotechnology for controlling plant pathogens, food packaging and preservation, agricultural productivity, waste water treatment and bioenergy production. Hence, this book can be adopted and used by many researchers and academicians in the fields of food, agriculture, environment and nanotechnology for catering the needs of sustainable future. The salient features of this book are * Describes nanotechnology as an interdisciplinary and emerging field in life sciences* Useful for researchers in the cutting edge life science related fields of nanoscience, nanobiology and nanotechnology* Deal with various problems in food, agriculture and environmental sector for sustainable solutions through the application of nanotechnology* Supported with illustrations in color, tables and case studies (wherever applicable), and * Contributed and well written by nanotechnology experts from across various disciplines

In the pursuit of technological advancement in the field of biotechnology and pharmaceutical industries to counteract health issues, bacterial infections remain a major cause of morbidity and mortality. The ability of bacterial pathogens to form biofilms further agglomerates the situation by showing resistance to conventional antibiotics. To overcome this serious issue, bioactive metabolites and other natural products were exploited to combat bacterial infections and biofilm-related health consequences. Natural products exhibited promising results in vitro, however; their efficacy in in vivo conditions remain obscured due to their low-solubility, bioavailability, and biocompatibility issues. In this scenario, nanotechnological interventions provide a multifaceted platform for targeted delivery of bioactive compounds by slow and sustained release of drug-like compounds. The unique physico-chemical properties, biocompatibility and eco-friendly nature of bioinspired nanostructures has revolutionized the field of biology to eradicate microbial infections and biofilm-related complications. The green-nanotechnology based metal and metal oxide nanoparticles and polymeric nanoparticles have been regularly employed for antimicrobial and antibiofilm applications without causing damage to host tissues. The implications of these nanoparticles toward achieving sustainability in agriculture by providing systemic resistance against a variety of phytopathogens therefore plays crucial role in growth and crop productivity. Also the advent of smart and hybrid nanomaterials such as metal-based polymer nanocomposites, lipid-based nanomaterials and liposomes have the inherent potential to eradicate bacterial biofilm-related infections in an efficient manner. The recent development of carbon-based nanomaterials such as carbon nanotubes (CNTs) and silica based nanomaterials such as mesoporous silica nanoparticles (MSNs) also exploit a target of dreadful healthcare conditions such as cancer, immunomodulatory diseases, and microbial infections, as well as biofilm-related issues owing to their stability profile, biocompatibility, and unique physio-chemical properties. Recently novel physical approaches such as photothermal therapy (PTT) and antimicrobial photodynamic therapy (aPDT) also revolutionized conventional strategies and are engaged in eradicating microbial biofilm-related infections and related health consequences. These promising advancements in the development of novel strategies to treat microbial infections and biofilm-related multidrug resistance (MDR) phenomenon may provide new avenues and aid to conventional antimicrobial therapeutics.

New research, outbreaks of foodborne disease and changes to legislation mean that food microbiology research is constantly evolving. Advances in microbial food safety: Volume 1 summarises the key trends in this area for the food industry.
The book begins with an introductory chapter discussing food safety management systems from the past to the present day and looking to future directions. The book moves on to provide updates on specific pathogens including Salmonella, Listeria monocytogenes and Bacillus species. New developments in the area are explored with chapters on emerging parasites in food, advances in separation and concentration of microorganisms from food samples, new approaches in microbial pathogen detection, and an update on novel methods for pathogen control in livestock preharvest.
With its distinguished editor and international team of expert contributors, Advances in microbial food safety: Volume 1 is a standard reference for researchers, consultants and managers in the food industry responsible for food safety, analytical laboratories testing the safety of the food we eat, and researchers in academia working on food microbial safety.
Summarises new research, outbreaks of foodborne disease and changes to legislation in food microbiology researchExamines past, present and future food safety management systemsProvides updates on specific pathogens including Salmonella, Listeria monocytogenes and Bacillus species

The book covers different techniques and methodologies involved in the nutritional quality analysis of forages. It also discusses the nutritional quality, anti-nutritional components, factors affecting forage quality, feed processing and conservation. Different techniques and methodologies have been presented in a simplified manner. The book has been divided in separate chapters and each chapter discusses different aspect of forage quality. Further, the book also covers the topics on conservation and processing of forages and management techniques for improving the forage nutritional quality. This book is an essential source of information for research scholars, post-graduate students and scientists working on forage quality estimation and also in livestock and dairy industries.

Foodborne illnesses caused by various bacterial, viral, and fungal pathogens lead to a high number of morbidity and mortality in the U.S. and throughout the world. Recent advances in microbial genomics have significantly improved our understanding of the physiology, evolution, ecology, epidemiology, and pathogenesis of different foodborne pathogens. This book focuses on the genomics of foodborne bacterial pathogens. It begins with a brief overview of the recent advances in microbial genomics and the impact of genomics on food safety research. Then, eight chapters follow that elaborate some in-depth reviews on the genomics of several common foodborne bacterial pathogens including Bacillus, Campylobacter, Clostridium, Escherichia coli, Listeria, Salmonella, Staphylococcus, and Vibrio. Finally, the last four chapters focus on some current genomic, transcriptomic, and proteomic technologies and their applications in studying the epidemiology, evolution, and pathogenesis of foodborne bacterial pathogens. Genomics of Foodborne Bacterial Pathogens can be used as a reference by scientists and professionals in academia, government, and industry who are interested in understanding microbial genomics and using genomics tools to study foodborne bacterial pathogens. This book can also be used as a textbook for instructors and professors who teach food microbiology or microbial genomics-related courses at the post-graduate level.

The edited book brings out a comprehensive synthesis of latest scientific literature covering various important aspects of anaerobic biodigesters for human waste management that ranges from latest understanding on fundamental concepts/mechanisms of anaerobic biodigestion, modern tools and techniques used in process evaluation, current strategies being recruited for the performance enhancement, and case studies/ success stories across the world on applications of biodigesters used in human waste treatment. The anaerobic biodigestion is a process of break-down of organic waste by anaerobic microorganisms in absence of the oxygen. This process has been conventionally used for treating various types of organic waste including sewage sludge. After optimizing various process parameters, researchers have developed anaerobic biodigesters that have been successfully used for human waste (nigh soil) treatment. The topic of human waste treatment assumes global significance in the wake of UN sustainable Development Goals (SDG) wherein SDG-6 specifically highlights the Sanitation for all by 2030. The anaerobic Biodigester technology has the potential to manage the human waste as well and can contribute immensely in achieving targets of UN-SDG-6. This book is of interest to researchers, academicians, scientists, policy officials and capacity builders. Also the book serves as additional reading material for undergraduate and graduate students of environmental Biotechnology. National and international biotechnologists, environmental engineers and sanitation experts also find this to be a useful read.

The book highlights the importance of prebiotics, probiotics and synbiotics in the signalling mechanism between gut microbiota and brain, also referred to as the gut-brain axis. A stable gut microbiota is essential for normal gut physiology and overall health, since it assists in proper signalling along the brain-gut axis. The book describes how the cross talks between gut microbiota and brain, not only regulate gastro-intestinal functions but also ensure proper functioning of cognitive behaviour and immunological functions. The various chapters describe probiotic microorganisms that colonize gastrointestinal tract and provide an array of health benefits to the host. It further elaborates about certain non-digestible oligosaccharides (prebiotics) are easily fermented by specialist microbes in the gut, to produce health-promoting metabolites and inhibit the growth of pathogenic bacteria. This book is useful for students, researchers and scientists in the field of microbiology, food science and nutrition. It is also meant for industry experts involved in developing nutraceuticals.

This book is devoted to nanomicrobiology and the nanosystems of bacteria. The initial chapter discusses some of the controversies in the geochemical and biomedical fields associated with the reports of nanobacteria in the environment. Current knowledge of several internal and surface structures of bacteria is addressed in this book. Included are chapters discussing carboxysomes, S-layers, gliding motility of bacteria, and aggregation of iron to produce nano-magnetite. Information about the activities of outer membrane vesicles produced by Gram-negative bacteria is discussed as a benefit to bacteria that produce it and some potential industrial applications are presented. A broad review of bacterial-mineral interactions is addressed in a chapter of metallic nanoparticles and colloids production by bacterial reduction of soluble redox active elements. The structures of bacterial nanowires are discussed and their application in extra-cellular electron transport is reviewed. Nanomotor activities of bacteria are discussed as pertains to the mechanics of flagellar rotation, production of energy by ATP synthase, DNA packing, and translocation of proteins across membranes by secretion systems. The rapidly evolving field of nanosystem technology is embracing many areas, and it is the hope that this book will stimulate the use of bacterial nanostructures for future developments in nanotechnology.

This book is devoted to alkaliphiles, their microbiology, biotechnological applications and adaptive mechanisms. Alkaliphiles are extremophilic organisms that are adapted to thrive in alkaline environments. Over the years, a wide variety of alkaliphiles belonging to domain Bacteria, Archaea and Eukarya have been isolated and studied. These organisms use various adaptive mechanisms to thrive in 'extreme' alkaline environments, and some of these adaptive mechanisms are of immense importance to a range of biotechnological applications. In this book, readers will learn about the adaptive strategies of alkaliphiles in colonizing alkaline habitats, with a main focus on: (1) the production of enzymes that are active and stable in the high pH environment, and (2) the production of acids that decrease the pH of their immediate surrounding environment. Enzymes that are operationally stable at high pH (also known as alkaline active enzymes) are desirable in several applications such as detergent formulating and leather tanning processes, and they are among the major selling enzymes and the most important industrial enzymes. The growing demand in many existing and emerging biotechnological applications led to the discovery, characterization, engineering and evaluation of diverse types of alkaline active enzymes. In addition to the use of these fascinating enzymes in biotechnological applications, readers will discover the mechanisms of action and stability of these enzymes at extreme pH. Studies have shown that some alkaliphiles decrease the severity of the high pH of their media by producing substantial amount of organic acids, which could be of great interest in various applications presented in this book. In addition to enzymes and organic acids, other products of biotechnological importance such as carotenoids, bioactive substances, and chelators have also attracted researchers' attention. Whole-cells of alkaliphiles have been used as food and feed, and are also useful in environmental applications such as in waste treatment and construction.

"Hydrogenosomes and Mitosomes: Mitochondria of Anaerobic Eukaryotes" provides a summary of the current knowledge of these organelles which occur in unicellular, often parasitic organisms, including human pathogens. These organelles exhibit a variety of structures and functions. This work describes properties such as protein import, structure, metabolism, adaptation, proteome and their role in drug activation and resistance. Further topics include organelle evolution and biogenesis.

This book focuses on the different kinds of biofuels and biofuel resources. Biofuels represent a major type of renewable energy. As part of a larger bio-economy, they are closely linked to agriculture, forestry and manufacturing. Biofuels have the potential to improve regional energy access, reduce dependence on fossil fuels and contribute to climate protection. Further, this alternative form of energy could revitalize the forestry and agricultural sector and promote the increased use of renewable resources as raw materials in a range of industrial processes. Efforts are continuously being made to develop economically competitive biofuels, and microbes play important roles in the production of biofuels from various bioresources. This book elaborates on recent advances in existing microbial technologies and on sustainable approaches to improving biofuel production processes. Additionally, it examines trends in, and the limitations of, existing processes and technologies. The book offers a comprehensive overview of microbial bioresources, microbial technologies, advances in bioconversion and biorefineries, as well as microbial and metabolic engineering for efficient biofuel production. Readers will also learn about the environmental impacts and the influence of climate change on the sustainability of biofuel production. This book is intended for researchers and students whose work involves biorefinery technologies, microbiology, biotechnology, agriculture, environmental biology and related fields.

Novel Food Fermentation Technologies provides a comprehensive overview of innovations in food fermentation technologies and their application. Current novel technologies for microbial culture production and preservation are covered in detail, as are fermentation techniques for the production of bioactives from various food matrices, including food processing by-products and waste. Readers are provided with a close look at thermal and non-thermal technologies applicable to fermented food products. The text covers immobilization, microencapsulation technologies and novel preservation techniques for cultures in fermentation. In-depth studies of high pressure processing, pulsed electric field, power ultrasound and gamma irradiation in fermentation are provided in addition to novel thermal and non-thermal technologies and process analytical techniques. A wide variety of fermented products are covered, including meat, marine-based, grain-based, dairy and vegetable-based products. Current technologies for extraction of bioactives are examined, as are current innovations in fermented food packaging. Readers are presented with current and future challenges in food fermentation as well. As a comprehensive reference for food fermentation, this work provides up-to-date insights into emerging fermentation technologies which facilitate the processing of wholesome and safe food products.

This volume covers a wide array of topics that will aid researchers in the task of engineering complex biological systems. This book is divided into three parts: Part One discusses the discovery and identification of relevant biosynthetic pathways for engineering; Part Two looks at the development of genetic tools for manipulating enzymes, biosynthetic pathways, and whole genomes; and Part Three covers the characterization of engineered microbes using targeted and global systems biology tools, as well as in silico models. Chapters explore topics such as leveraging enzyme promiscuity to construct novel biosynthetic pathways; assembling combinatorial multigene pathways for rapid strain optimization; applying 'omics technologies for identifying bottlenecks; and engineering nontraditional host organisms like cyanobacterium and Yarrowia lipolytica. Written in the highly successful Methods in Molecular Biology series format, chapters include introductions to their respective topics, lists of the necessary materials and reagents, step-by-step, readily reproducible laboratory protocols, and tips on troubleshooting and avoiding known pitfalls. Cutting edge and authoritative, Microbial Metabolic Engineering: Methods and Protocols is a valuable resource for researchers and scientists interested in engineering and optimizing microbes for a variety of biotechnological applications.

Textiles and Their Use in Microbial Protection: Focus on COVID-19 and Other Viruses provides readers with vital information about disinfection mechanisms used in textile applications in the fight against dangerous microbes and viruses. KEY FEATURES: Introduces the basics of textile materials used for medical applications Features key information on virology, characterization, indication, and passivation of COVID-19 Describes UV, photocatalysis, photooxidation, application of TiO2, copper-based viral inhibition, and activated carbon Discusses antiviral finishes for the protection against SARS-CoV-2, particle penetration in dense cotton fabrics under swollen state, and the impact of moisture on face masks and their designs Aimed at textile and materials engineers as well as readers in medical fields, this text offers a comprehensive view of fundamentals and solutions in the use of textiles for microbial protection.