Levnedsmiddelteknologi

Wheat (Triticum L.), an annual herbaceous plant in Poacae (Gramineae) family, settles in the Triticeae (Hordeae) subfamily. The grasses (Poaceae Barnhart) are the fifth largest (monocotyledonous flowering) plant family and of great importance for human civilization and life. Cereal crops such as maize, wheat, rice, barley, and millet are the domesticated ones in the family. It is still the most vital economical plant family in modern times, providing food, forage, building materials (bamboo, thatch), and fuel (ethanol). Wheat has many accessions in national and international gene banks. The estimated number of wheats by FAO in 2010 is 856,000, and, followed by rice (774,000), and barley (467,000). However, the recent consumer's (misdirected) focus on gluten content and nutritional value urges scientists to reexamine their knowledge about wheat (i.e., origin, evolution, and general and special quality characteristics), as well as their wild relatives and landraces for newer possible genetic resources. Cultured or non-cultured ancestral wheats: einkorn, emmer, wild emmer, spelt, macha, and vavilovii are still limitedly grown on the higher areas in Turkey, Italy, Germany, Morocco, Israel, and Balkan countries. They are exploited mostly for their desired agronomic, and specific quality. In some cultures, wheat species are believed to be therapeutic, with bioactive compounds that reduce and inhibit stubborn illnesses such as diabetes, cancer, Alzheimer, and cardiovascular diseases. In this book, we summarize the importance of ancestral wheat species, and provide a prospect for their future with special considerations in terms of species conservation and improvement. 

In recent years, consumers are concentrating more on the health benefits of food in order to preserve a healthy lifestyle and therefore becoming more aware of the relationship between diet and disease. This has resulted in a gradual shift from animal-derived to plant-based meals. Functional foods have turned into one of the rapidly expanding areas of the food industry due to the increasing awareness of consumers working to prevent lethal diseases like cancer, diabetes mellitus and cardiovascular disease. Functional foods are seen as the food or food components that manifest efficiency in protecting from diseases and attaining a healthier lifestyle by administering additional benefits on human physiology and metabolic functions apart from basic nutritional requirements of the body. Cereals hold a prominent place in this new market. Cereals and cereal foods are important energy sources and many phytochemicals such as dietary fiber, resistant starch, vitamins, minerals, lignans, phytic acid and phenolic compounds that provide a variety of health benefits. Eating functional cereal foods is an easy method to increase nutrients associated with whole grains without changing eating habits. Functional Cereals and Cereal Foods: Properties, Functionality and Applications comprehensively covers the Chemistry and nutritional composition of functional cereals components, their functionality and therapeutic significance, current innovations and functional approaches in improving attributes and biofortification and quality improvement of cereal products. The different types of functional cereals and their unlimited opportunities for the production of functional foods are covered in full, including gluten-free products and all the newest cereal processing technologies. For researchers in search of a fully up-to-date look at functional cereal foods and technologies and their important place on the current market, this text provides a timely and comprehensive overview. 

As an introductory text book on food engineering principles, this text gives students a firm, quantitative foundation in all aspects of food process and product formulation, packaging, manufacturing processes; engineering aspects of the fate of food in the GI tract; engineering principles of the environmental impact of foods; and principles of process economics and project management. The contents are based on a new definition of Food Engineering which is fit-for-purpose for this day and age:Food Engineering is the work of designing, formulating and manipulating food products which have desired sensory, satiety, health and well-being responses; and developing - across various operational scales - designs for the lowest environmental impact processing, packaging and storage systems capable of realizing the products.Based on this definition, Engineering Principles for Food Process and Product Realization re-defines the core competencies of food engineering, covers the engineering principles needed for food process and product design, and examines the engineering principles relevant to the interactions between food on the one hand, and human health, security and environment on the other - which are the key drivers for the growth of food business. With security, human health and environmental legacy driving business, the engineering paradigm must shift from being farm and preservation focused to becoming consumer focused - which this book aims to achieve. All of these topics are covered at a level that is easy to read and absorb, but with challenging questions and problems which require knowledge integration across topics. This book is uniquely placed to serve as an effective launching pad for undertaking further studies on advanced topics and concepts relating to the design of food processes and products.

This book provides a multidisciplinary analysis of the impact of Brexit on British agriculture and associated areas, discussing the Common Agricultural Policy and the Agriculture Act 2020.The Brexit referendum provoked new debates and questions over the future of agriculture in Britain and the potential positive and negative impacts of Brexit on both farmers and consumers. These debates, as well as the ensuing proposals relevant to the Agriculture Act 2020, have exposed the multidimensional effects of Brexit when it comes to agriculture. With a focus on profitability, the rights of farmers, environmental protection, as well as animal welfare, this book brings together an interdisciplinary analysis of the future of British agriculture in post-Brexit Britain. More specifically, it addresses the criticisms over the Common Agriculture Policy, presents an analysis of the Agriculture Act 2020, and considers suggestions for future developments. Through this analysis, the book suggests a way towards the future, with a positive outlook towards a competitive and sustainable agriculture that will satisfy the needs of farmers and consumers while ensuring environmental protection, animal welfare, and rural development.This book will be of great interest to students and scholars of food and agricultural policy and politics, agroecology and rural development, as well as policymakers involved in Britain's post-Brexit environmental policy.