Frontiers in Aquaculture Biotechnology presents a broad-spectrum of topics, covering different key aspects of aquaculture. With the rising importance of aquaculture research, evidence-based information is integral in advancing this field. This book provides a solid resource of information on DNA barcoding for fish species authentication and seafood labelling and cell culture, including stem cell culture, in vitro research using fish cell lines such as in vitro fish meat, reproductive biotechnology, including surrogate technology, gene editing and genetically modified aquaculture species, biofloc technology, and omic technologies such as proteomics, artificial intelligence and biobanking. This book will be a valuable resource to students, researchers a nd entrepreneurs interested in a better understanding of this emerging field of aquaculture.

The ultimate guide to Scotch whisky. Why does Scotch whisky taste as it does? Where do the flavours come from? How might they have changed over the years? The flavour of Scotch whisky is as much influenced by history, craft and tradition as it is by science. Whiskypedia explores these influences. Introductory sections provide an historical overview, and an explanation of the contribution made by each stage of the production process. Each entry provides a brief account of the distillery's history and curiosities, lists the bottlings which are currently available, details how the whisky is made, and explores the flavour and character of each make. Fully revised and updated edition with new entries on the latest distilleries at Ardross, Bonnington, Burnobennie, The Cair, Falkirk, Holyrood Park and Lagg.

Comprehensive Gut Microbiota, Three Volume Set provides new insights into gut microbiota as a critical mediator of human health and well-being. Comprehensive chapters, split across three volumes, present trusted and authoritative sources of information for novel human gut microbiome and health research. The book focuses on the fascinating intestinal microbiome and its interaction with food, food bioactive components, nutrition and human health. Chapters address the core science in the microbiota field and draw links between the microbiome, food, nutrition and health interaction. The text reflects the current state of evidence available in the field of microbiota, its regulation at the individual and population level, and the importance of the microbiome to human health. Each section includes introductory chapters that present key concepts about the section objective. Later sections focus on the novel findings of the gut microbiome, food and nutrition science. Human studies and systematic literature reviews are also discussed throughout the work.

Comprehensive Foodomics, Three Volume Set offers a definitive collection of over 150 articles that provide researchers with innovative answers to crucial questions relating to food quality, safety and its vital and complex links to our health. Topics covered include transcriptomics, proteomics, metabolomics, genomics, green foodomics, epigenetics and noncoding RNA, food safety, food bioactivity and health, food quality and traceability, data treatment and systems biology. Logically structured into 10 focused sections, each article is authored by world leading scientists who cover the whole breadth of Omics and related technologies, including the latest advances and applications. By bringing all this information together in an easily navigable reference, food scientists and nutritionists in both academia and industry will find it the perfect, modern day compendium for frequent reference. List of sections and Section Editors: Genomics - Olivia McAuliffe, Dept of Food Biosciences, Moorepark, Fermoy, Co. Cork, Ireland Epigenetics & Noncoding RNA - Juan Cui, Department of Computer Science & Engineering, University of Nebraska-Lincoln, Lincoln, NE Transcriptomics - Robert Henry, Queensland Alliance for Agriculture and Food Innovation, The University of Queensland, St Lucia, Australia Proteomics - Jens Brockmeyer, Institute of Biochemistry and Technical Biochemistry, University Stuttgart, Germany Metabolomics - Philippe Schmitt-Kopplin, Research Unit Analytical BioGeoChemistry, Neuherberg, Germany Omics data treatment, System Biology and Foodomics - Carlos Leon Canseco, Visiting Professor, Biomedical Engineering, Universidad Carlos III de Madrid Green Foodomics - Elena Ibanez, Foodomics Lab, CIAL, CSIC, Madrid, Spain Food safety and Foodomics - Djuro Josic, Professor Medicine (Research) Warren Alpert Medical School, Brown University, Providence, RI, USA & Sandra Kraljevic Pavelic, University of Rijeka, Department of Biotechnology, Rijeka, Croatia Food Quality, Traceability and Foodomics - Daniel Cozzolino, Centre for Nutrition and Food Sciences, The University of Queensland, Queensland, Australia Food Bioactivity, Health and Foodomics - Miguel Herrero, Department of Bioactivity and Food Analysis, Foodomics Lab, CIAL, CSIC, Madrid, Spain

Food process engineering, a branch of both food science and chemical engineering, has evolved over the years since its inception and still is a rapidly changing discipline. While traditionally the main objective of food process engineering was preservation and stabilization, the focus today has shifted to enhance health aspects, flavour and taste, nutrition, sustainable production, food security and also to ensure more diversity for the increasing demand of consumers. The food industry is becoming increasingly competitive and dynamic, and strives to develop high quality, freshly prepared food products. To achieve this objective, food manufacturers are today presented with a growing array of new technologies that have the potential to improve, or replace, conventional processing technologies, to deliver higher quality and better consumer targeted food products, which meet many, if not all, of the demands of the modern consumer. These new, or innovative, technologies are in various stages of development, including some still at the R&D stage, and others that have been commercialised as alternatives to conventional processing technologies. Food process engineering comprises a series of unit operations traditionally applied in the food industry. One major component of these operations relates to the application of heat, directly or indirectly, to provide foods free from pathogenic microorganisms, but also to enhance or intensify other processes, such as extraction, separation or modification of components. The last three decades have also witnessed the advent and adaptation of several operations, processes, and techniques aimed at producing high quality foods, with minimum alteration of sensory and nutritive properties. Some of these innovative technologies have significantly reduced the thermal component in food processing, offering alternative nonthermal methods. Food Processing Technologies: A Comprehensive Review, Three Volume Set covers the latest advances in innovative and nonthermal processing, such as high pressure, pulsed electric fields, radiofrequency, high intensity pulsed light, ultrasound, irradiation and new hurdle technology. Each section will have an introductory article covering the basic principles and applications of each technology, and in-depth articles covering the currently available equipment (and/or the current state of development), food quality and safety, application to various sectors, food laws and regulations, consumer acceptance, advancements and future scope. It will also contain case studies and examples to illustrate state-of-the-art applications. Each section will serve as an excellent reference to food industry professionals involved in the processing of a wide range of food categories, e.g., meat, seafood, beverage, dairy, eggs, fruits and vegetable products, spices, herbs among others.

Encyclopedia of Food Chemistry, Three Volume Set is the ideal primer for food scientists, researchers, students and young professionals who want to acquaint themselves with food chemistry. Well-organized, clearly written, and abundantly referenced, the book provides a foundation for readers to understand the principles, concepts, and techniques used in food chemistry applications. Articles are written by international experts and cover a wide range of topics, including food chemistry, food components and their interactions, properties (flavor, aroma, texture) the structure of food, functional foods, processing, storage, nanoparticles for food use, antioxidants, the Maillard and Strecker reactions, process derived contaminants, and the detection of economically-motivated food adulteration. The encyclopedia will provide readers with an introduction to specific topics within the wider context of food chemistry, as well as helping them identify the links between the various sub-topics.

Analysis of Pesticide in Tea: Chromatography-Mass Spectrometry Methodology is a comprehensive book, providing serial, rapid, high-throughput analytical methods for determining more than 600 pesticides in tea. There are increasing numbers of strict limit standards for pesticide residues in edible agricultural products in countries all over the world. The threshold for pesticide residues in tea is high for international trade. At present, 17 countries and international organizations have stipulated MRL levels for over 800 pesticide residues in tea. All methods described in this book are validated by an independent, U.S.-based organization (AOAC International), and all indexes have satisfied AOAC International's criteria. China has a history of 5000 years in growing tea and is a large tea producer with 80 million people involved in tea growing. China exports tea to over 100 countries worldwide, enjoying a high reputation for quality and variety.

Enzymes in Food Biotechnology: Production, Applications, and Future Prospects presents a comprehensive review of enzyme research and the potential impact of enzymes on the food sector. This valuable reference brings together novel sources and technologies regarding enzymes in food production, food processing, food preservation, food engineering and food biotechnology that are useful for researchers, professionals and students. Discussions include the process of immobilization, thermal and operational stability, increased product specificity and specific activity, enzyme engineering, implementation of high-throughput techniques, screening to relatively unexplored environments, and the development of more efficient enzymes.

Postharvest Disinfection of Fruits and Vegetables describes available technologies to reduce microbial infection for maintaining postharvest quality and safety. The book analyzes alternative and traditional methodologies and points out the significant advantages and limitations of each technique, thus facilitating both cost and time savings. This reference is for anyone in the fresh produce industry who is involved in postharvest handling and management. It discusses, in detail, the latest disinfection approaches, low-cost treatment strategies, management and protocols to control fresh produce qualities, diseases and insect infestation.

Biological Emerging Risks in Foods, Volume 86, addresses the emerging biological risks in food from a global context. Specific sections in this new release include discussions on parasites in foods as an emerging issue and antimicrobial resistance in the food chain. Specific chapters cover Norovirus: the burden of the unknown, Hepatitis E virus: a new foodborne zoonotic concern, Parasites in foods: from a neglected position to an emerging issue, Antimicrobial resistance in the food chain: an emerging global concern, Salmonella in foods: a reemerging problem, Listeria monocytogenes in foods, and Campylobacter in the food chain.

Therapeutic, Probiotic and Unconventional Foods compiles the most recent, interesting and innovative research on unconventional and therapeutic foods, highlighting their role in improving health and life quality, their implications on safety, and their industrial and economic impact. The book focuses on probiotic foods, addressing the benefits and challenges associated with probiotic and prebiotic use. It then explores the most recently investigated and well-recognized nutraceutical and medicinal foods and the food products and ingredients that have both an impact on human health and a potential therapeutic effect. The third and final section explores unconventional foods and discusses intriguing and debated foods and food sources. While research has been conducted on the beneficial biological effects of probiotics and therapeutic food, the use of these foods remains controversial. To overcome the suspicion of the use of alternative, homeopathic and traditional products as therapy, this book reveals and discusses the most recent and scientifically sound and confirmed aspects of the research.

Lipid Modification by Enzymes and Engineered Microbes covers the state-of-the art use of enzymes as natural biocatalysts to modify oils, also presenting how microorganisms, such as yeast, can be designed. In the past ten years, the field has made enormous progress, not only with respect to the tools developed for the development of designer enzymes, but also in the metabolic engineering of microbes, the discovery of novel enzyme activities, and in reaction engineering/process development. For the first time, these advances are covered in a single-volume that is edited by leading enzymatic scientist Uwe Borchscheuer and authored by an international team of experts.

Unconventional Oilseeds and New Oil Sources: Chemistry and Analysis is presented in three parts, with each section dedicated to different types of oil sources. Part One deals with plants (vegetable, herbs, shrubs), such as Hibiscus, Mexican Poppy, Cucumber, Squashes, Sesame, etc. Part Two presents unconventional oils found in trees (like Balanites aegyptiaca, Annona squamosal and Catunaregam nilotica), and Part Three deals with new oils found in insects, as in the water melon bug and sorghum bug. This book will be of interest to researchers in oilseed production, research and development personnel, food scientists, plant breeders, product development personnel, and government agency personnel involved in the production, transportation, distribution, and processing of oilseeds.

Sweet Potato Processing Technology systematically introduces processing technologies of sweet potato starch and its series products including sweet potato protein, dietary fibers, pectin, granules, anthocyanins and chlorogenic acids. The book provides a detailed and comprehensive account of physicochemical and functional properties of sweet potato products, the nutritional components extracted from sweet potato, as well as their utilization in food, medicine and cosmetic fields. This book can provide the scientific basis and technical support for virtuous circle promotion and structure upgrade of sweet potato processing industry. This book will be a valuable reference for undergraduate and graduate students, as well as specialists and enterprise research staff in the field of food technology.

Handbook of Grape Processing By-Products explores the alternatives of upgrading production by-products, also denoting their industrial potential, commercial applications and sustainable solutions in the field of grape valorization and sustainable management in the wine industry. Covering the 12 top trending topics of winery sustainable management, emphasis is given to the current advisable practices in the field, general valorization techniques of grape processing by-products (e.g. vermi-composting, pyrolysis, re-utilization for agricultural purposes etc.), the newly introduced biorefinery concept, different techniques for the separation, extraction, recovery and formulation of polyphenols, and finally, the healthy components of grape by-products that lead to target applications in the pharmaceutical, enological, food and cosmetic sectors.

In 1980, the American Soybean Association and the American Oil Chemists' Society jointly published the Handbook of Soy Oil Processing and Utilization. This new Practical Handbook of Soybean Processing and Utilization is intended to provide a single source of practical information on the subject to an international audience. It is designed not only to revise and update the content of the original Handbook on soy oil but also to expand the content to include all soybean products.

This book acknowledges the importance of fats and oils and surveys today's state-of-the-art technology. To pursue food technology without knowing the raw material would mean working in a vacuum. This book describes the raw materials predominantly employed and the spectrum of processes used today. It is the updated and revised English version of Nahrungsfette und Ole, originally printed in German. It contains 283 tables, 647+ figures, and over 850 references. "If you can afford only one book on oils and fats, their composition, processing and use, then this should probably be the one!"

This book covers the progress of the last 10 years of studies on cocoa butter. Descriptions of several aspects, including physical characteristics such as rheology, hardness, melt profiles, etc., studied by new and advanced techniques are included. Similarly, the polymorphism of cocoa butter is reconsidered in light of studies done by synchrotron DSC, FTIR, and SAXS techniques. These data are complemented by new understandings on the cause of the crystallization and transitions of the polymorphs. Other aspects such as the effect of minor components, emulsifiers, and other fats are discussed in great detail in this book.

Featuring recognized academic and industrial experts in this cutting-edge field, this book reviews single cell oils (SCO) currently in the market. The text mainly focuses on the production of the long chain polyunsaturated fatty acids, Arachidonic acid, and Docosahexaenoinc acid. All chapters provide up to date references for navigating the vast amount of historic data available in the field. The authors provide real world examples of the commercial development and applications of various SCO in a variety of fields, from food ingredients and disease treatment to aquaculture and fish farming. The highlight of the book is perhaps the first chapter in which Colin Ratledge, a world renowned expert in SCO and lipid biochemistry, gives an interesting and informative overview on the history of SCO development, together with his perspectives on the future of this industry in light of competition arising from genetically modified plant oils. Zvi Cohen, a renowned expert in PUFA-producing microalgae, describes some of his metabolic studies on PUFA production and TAG biosynthesis. Chapter 10 deals with EPA-producing microalgae and some cultivation strategies for their large scale production. This chapter includes a number of tables summarizing the various organisms under investigation which I found to be of great use. Since the development of EPA single cell oils is still in its infancy, this chapter is quite helpful for researchers thinking along those lines.

A staple food for thousands of years in the Mediterranean region, olive oil is now becoming popular all over the world. Olive oil has several unique characteristics that set it apart from other vegetable oils. Recent research suggests that olive oil produces many healthful benefits, including reduced risk of coronary heart disease. This second edition of Olive Oil includes new material from contributors and additional chapters that explore the most important aspects of chemistry, technology, quality, analysis and biological importance of olive oil. The topics selected will provide the reader with a solid background that will inspire and facilitate future research.

Since the publication of the first edition in 1992, the bleaching process has continued to attract the attention of researchers and the edible-oil industry. In this second edition, readers are directed to modern techniques of trace-metal analysis, including flame-atomic adsorption, graphite furnace atomic adsorption, and atomic emission spectrometry involving direct current plasma (DCP) and inductively coupled Plasma (ICP). The book discusses the Freundlich Equation and reports on high-temperature water extraction, high- temperature oxidative aqueous regeneration, and extraction with supercritical CO2. Various degumming methods improved over the past several decades are also discussed.

A Complete Course in Canning is firmly established as a unique and essential guide to canning and related processes. Professionals in the canning industry and students have benefited from successive editions of the book for over 100 years. This major new edition continues that reputation, with extensively revised and expanded coverage. The three-title set is designed to cover all planning, processing, storage and quality control phases undertaken by the canning industry in a detailed, yet accessible fashion. Major changes for the new edition include new chapters on regulation and labelling that contrast the situation in different regions worldwide, updated information on containers for canned foods and new information on validation and optimization of canning processes, among many others.

Allergens in food and their detection, management and elimination constitute a key issue for food manufacturers, especially in terms of safety. This book reviews current and emerging technologies for detecting and reducing allergens, as well as issues such as traceability, regulation and consumer attitudes. Following an introductory chapter by a distinguished expert, part one covers allergen management throughout the food chain. Part two details current and emerging methods of allergen detection in food, and part three covers methods for reducing and eliminating allergens in food. Finally, part four focuses on the control and detection of individual food allergens and the risks each one presents in food manufacture.
Reviews current and emerging technologies for detecting and reducing allergens, as well as issues such as traceability, regulation and consumer attitudesCovers allergen management throughout the food chain and reviews current and emerging methods of allergen detectionExamines methods for reducing and eliminating allergens in food and provides a detailed overview of the control and detection of individual food allergens

As tree nuts and peanuts become increasingly recognised for their health-promoting properties, the provision of safe, high quality nuts is a growing concern. Improving the safety and quality of nuts reviews key aspects of nut safety and quality management.
Part one explores production and processing practices and their influence on nut contaminants. Chapters discuss agricultural practices to reduce microbial contamination of nuts, pest control in postharvest nuts, and the impact of nut postharvest handling, de-shelling, drying and storage on quality. Further chapters review the validation of processes for reducing the microbial load on nuts and integrating Hazard Analysis Critical Control Point (HACCP) and Statistical Process Control (SPC) for safer nut processing. Chapters in part two focus on improving nut quality and safety and highlight oxidative rancidity in nuts, the impact of roasting on nut quality, and advances in automated nut sorting. Final chapters explore the safety and quality of a variety of nuts including almonds, macadamia nuts, pecans, peanuts, pistachios and walnuts.
Improving the safety and quality of nuts is a comprehensive resource for food safety, product development and QA professionals using nuts in foods, those involved in nut growing, nut handling and nut processing, and researchers in food science and horticulture departments interested in the area.
Reviews key aspects of nut safety and quality management and addresses the influences of production and processing practices on nut safetyAnalyses particular nut contaminants, safety management in nut processing and significant nut quality issues, such as oxidative rancidityPlaces focus on quality and safety in the production and processing of selected types of nuts

The development of high-quality foods with desirable properties for both consumers and the food industry requires a comprehensive understanding of food systems and the control and rational design of food microstructures. Food microstructures reviews best practice and new developments in the determination of food microstructure.
After a general introduction, chapters in part one review the principles and applications of various spectroscopy, tomography and microscopy techniques for revealing food microstructure, including nuclear magnetic resonance (NMR) methods, environmental scanning electron, probe, photonic force, acoustic, light, confocal and infrared microscopies. Part two explores the measurement, analysis and modelling of food microstructures. Chapters focus on rheology, tribology and methods for modelling and simulating the molecular, cellular and granular microstructure of foods, and for developing relationships between microstructure and mechanical and rheological properties of food structures. The book concludes with a useful case study on electron microscopy.
Written by leading professionals and academics in the field, Food microstructures is an essential reference work for researchers and professionals in the processed foods and nutraceutical industries concerned with complex structures, the delivery and controlled release of nutrients, and the generation of improved foods. The book will also be of value to academics working in food science and the emerging field of soft matter.
Reviews best practice and essential developments in food microstructure microscopy and modellingDiscusses the principles and applications of various microscopy techniques used to discover food microstructureExplores the measurement, analysis and modelling of food microstructures