In this book, the complexity and the significance of the foods we eat are analyzed from a variety of perspectives, by sociologists, economists, geographers and anthropologists. The first part of the book focuses on theoretical and conceptual issues, the second part considers processes of formal and informal regulation, while the third part examines social and political responses to industrialised food production and mass consumption.
Food Quality and Shelf Life covers all aspects and challenges of food preservation, packaging and shelf-life. It provides information on the most important pillars in the field, starting with active and smart packaging materials, novel technologies, and control tools in all stages between production and consumer. The book gives emphasis to methodological approaches for sensory shelf-life estimation and the impact of packaging on sensorial properties. Researchers and professionals alike will find this reference useful, especially those who are interested in the performance evaluation of future packaging for fresh produce in the cold chain and temperature management in the supply chain.
The field of food quality assurance has evolved substantially over the past decade, and certain key developments have become widely accepted. These include Quality Systems (e.g., ISO 9000) and HACCP. Consequently, it has become essential for undergraduate Food Science and Food Technology students preparing for careers in the food industry to have some basic training in these systems as part of the curricula in their university or college programs. Food Quality Assurance: Principles and Practices integrates the latest principles, practices, and terminology of food safety systems with those of quality management systems to provide an understanding of a single food quality management system. Chapters define industry terminology, review the differences and components of food quality and food safety, explain Quality Programs and Quality Systems, and thoroughly examine Good Manufacturing Practices and HACCP. Written primarily as an undergraduate-level text for Food Quality Assurance and Food Quality Management courses, the book combines the fundamentals of food safety and quality systems with the latest data from recognized international and national organizations. This is an essential guide for teaching food quality assurance to students.
Food Processing for Increased Quality and Consumption, Volume 18 in the Handbook of Food Bioengineering series, offers an updated perspective on the novel technologies utilized in food processing. This resource highlights their impact on health, industry and food bioengineering, also emphasizing the newest aspects of investigated technologies and specific food products through recently developed processing methods. As processed foods are more frequently consumed, there is increased demand to produce foods that attract people based on individual preferences, such as taste, texture or nutritional value. This book provides advantageous tools that improve food quality, preservation and aesthetics. - Examines different frying techniques, dielectric defrosting, high pressure processing, and more - Provides techniques to improve the quality and sensory aspects of foods - Includes processing techniques for meat, fish, fruit, alcohol, yogurt and whey - Outlines techniques for fresh, cured and frozen foods - Presents processing methods to improve the nutritional value of foods
The Microbiological Quality of Food: Foodborne Spoilers specifically addresses the role of spoilers in food technology and how they affect the quality of food. Food spoilers represent a great challenge in food quality, determining the shelf-life of many products as they impact consumer acceptability of taste, texture, aroma, and other perceptions. Divided into four sections, the first section defines microbial spoilage of food, with special emphasis on methods for the evaluation of spoiling phenomena and the status of their regulatory framework, examining both existing regulations and possible gaps. The second section examines spoiling microorganisms, covering a range of common spoilage microorganisms, including pseudomonas, yeasts, and molds and spore formers, as well as less-common spoilers, including lactic acid bacteria and specific spoilage organisms in fish. The third section highlights spoiling phenomena within certain food types. Chapters cover dairy, fish, meat, and vegetables, and other products. The final section investigates emerging topics which point to future trends in the research of food spoilers. There is insight into microorganisms resistant to preservation, the role of biofilms in food quality, and the link between food safety and food spoilage, with a special emphasis on certain spoiling microorganisms which could be opportunistic pathogens. Written by an international team of leading authors, this book provides state-of-the-art coverage of this topic, which is essential to the shelf-life and quality of food. - Provides in-depth coverage of the different spoilers which cause the deterioration of foods, including less common spoilers not covered in other publications - Includes dedicated chapters covering the spoilage of specific products, making this book ideal for those working in the food industry - Presents a framework for future research in the area of foodborne spoilers
The area of food adulteration is one of increasing concern for all those in the food industry. This book compares and evaluates indices currently used to assess food authenticity.
Food companies, regardless of their size and scope, understand that it is impossible to establish a single division devoted to "quality", as quality is the responsibility and purpose of every company employee. Applying this theory demands the cooperation of each employee and an understanding of the methodology necessary to establish, implement, and
Food Quality: Balancing Health and Disease, Volume Thirteen in the Handbook of Food Bioengineering series, provides essential information for researchers, scientists and students on the relationship between the quality of foods and disease at the biological level. It presents different technological approaches to detect food properties and their capabilities for balancing health and disease to deliver high-quality products to consumers. This volume explores the dynamic potential of how food bioengineering can improve traditional foods through modern methods to make a positive impact on human health and foster innovation. - Provides information on how bioavailability of nutrients and food formulation can be used to prevent or improve disease - Includes the most recent research methods of metabolomics and genomics to detect best outcomes - Includes innovative applications for anti-aging effects and curative properties in foods - Presents research examples on how both human gut microbiota and food components control the way certain organisms develop and react in different environmental conditions
The aim of the food processing is to ensure microbiological and chemical safety of foods, adequate nutrient content and bioavailability and acceptability to the consumer with regard to sensory properties and ease of preparation. Processing may have either beneficial or harmful effects on these properties, so each of these factors must be taken into account in the design and preparation of foods. This book offers a unique dealing with the subject and provides not only an update of state-of-the art techniques in many critical areas of food processing and quality assessment, but also the development of value added products from food waste, safety and nanotechnology in the food and agriculture industry and looks into the future by defining current obstacles and future research goals. This book is not intended to serve as an encyclopedic review of the subject. However, the various chapters incorporate both theoretical and practical aspects and may serve as baseline information for future research through which significant development is possible.
After a sordid litany of recalls courtesy of the food industry, consumers are pointing the finger at companies that have failed to institute proper recall prevention techniques. While historical analysis shows no company is exempt from recall risk, most can be prevented with an efficient and verifiable quality control program.Authored by a 20-year
