Fruit technology draws on biology and engineering to maintain quality during storage, distribution, and marketing. This book focuses on the biological processes that determine appearance, texture, taste, nutritional value, and flavor of fleshy fruits. It also focuses on the ways by which these biological processes can be manipulated to maximize quality for the consumer. It discusses the advances in the understanding of these procedures at the molecular level and the mode of action and limitations of current technology for postharvest handling of fruits. A concluding chapter examines prospects for the genetic control of fruit development, composition, and quality.
For centuries we have known that fruit is important for health, but we are only just beginning to fully understand why. Bioactives in Fruit: Health Benefits and Functional Foods aims to summarise some of our current knowledge on the bioactive compounds that are associated with the health benefits of specific fruits with a strong emphasis on the validation of health benefits by human intervention trials. Reflecting the current interest in food and health, the book includes strategies to retain and enhance the bioactives in fruit through breeding, growing conditions, fruit storage, processing into ingredients and production of functional foods. To accomplish this task authors with expertise in biology, chemistry, pharmacology, food science, nutrition, medicine, and horticulture have contributed. They come from universities, government and industry funded research institutes and biotechnology and food companies in Europe, the United States, Asia and New Zealand to give the book a broad perspective. This book, describing fruit bioactives, their health benefits when consumed as a food and related topics regarding their development into fresh or processed functional foods, will be of use to postgraduate students, researchers, functional food product developers, food regulators and anyone who has curiosity about why fruit is good for you. The information contained within will provide plant breeders with new targets for the development of value-added horticultural products, and will also provide nutritionists and dieticians with a useful resource for developing strategies to assist in preventing or slowing disease onset or severity. Bioactives in Fruit: Health Benefits and Functional Foods is a major resource which will be required reading for anyone working in the fields of health and functional foods.
Jane Grigson?s Fruit Book includes a wealth of recipes, plain and fancy, ranging from apple strudel to watermelon sherbet. Jane Grigson is at her literate and entertaining best in this fascinating compendium of recipes for forty-six different fruits. Some, like pears, will probably seem homely and familiar until you've tried them ¾ la chinoise. Others, such as the carambola, described by the author as looking ?like a small banana gone mad,? will no doubt be happy discoveries. ø You will find new ways to use all manner of fruits, alone or in combination with other foods, including meats, fish, and fowl, in all phases of cooking from appetizers to desserts. And, as always, in her brief introductions Grigson will both educate and amuse you with her pithy comments on the histories and varieties of all the included fruits. ø All ingredients are given in American as well as metric measures, and this edition includes an extensive glossary, compiled by Judith Hill, which not only translates unfamiliar terminology but also suggests American equivalents for British and Continental varieties where appropriate.
The processing of fruits continues to undergo rapid change. In the Handbook of Fruits and Fruit Processing, Dr. Y.H. Hui and his editorial team have assembled over forty respected academicians and industry professionals to create an indispensable resource on the scientific principles and technological methods for processing fruits of all types. The book describes the processing of fruits from four perspectives: a scientific basis, manufacturing and engineering principles, production techniques, and processing of individual fruits. A scientific knowledge of the horticulture, biology, chemistry, and nutrition of fruits forms the foundation. A presentation of technological and engineering principles involved in processing fruits is a prelude to their commercial production. As examples, the manufacture of several categories of fruit products is discussed. The final part of the book discusses individual fruits, covering their harvest to a finished product in a retail market. As a professional reference book replete with the latest research or as a practical textbook filled with example after example of commodity applications, the Handbook of Fruits and Fruit Processing is the current, comprehensive, yet compact resource ideal for the fruit industry.
Dragon fruit (pitaya) is a perennial climbing cactus, native to the tropical areas of North, Central and South America. It is suited to tropical and subtropical regions and is commercially grown in an increasing number of countries, including Israel, Australia and the USA. Dragon fruit generates considerable consumer interest because of its exotic appearance and potential health benefits. The fruit is rich in nutrients and phytochemical compounds. It can be eaten fresh or used in the preparation of juices, jellies, jams, etc. The natural bioactive compounds in pitaya have the potential to be exploited in food, pharmaceutical and cosmetic industries. Increasingly cultivated worldwide, the plant is drought-resistant, easily adapts to light intensity and high temperatures, and has a tolerance to a wide range of soil salinities. With ongoing global warming, dragon fruit has great potential as a new crop for many more countries. This book is a compilation of the current state of knowledge on dragon fruit physiology, cultivation, production technology, postharvest management and processing, and is written by leading international authors.
Fruits and fruit based products are, in most cases, associated with very good sensory characteristics, health, well-being, perishability, relatively easy to mix with food products of diverse origin, amenable to be processed by conventional and novel technologies. Given the multiplicity of aspects whenever fruit preservation is considered, the editors took the challenge of covering in a thorough, comprehensive manner most aspects dealing with this topic. To accomplish these goals, the editors invited well known colleagues with expertise in specific disciplines associated with fruit preservation to contribute chapters to this book. Eighteen chapters were assembled in a sequence that would facilitate, like building blocks, to have at the same time, a birds-eye view and an in-depth coverage of traditional and novel technologies to preserve fruits. Even though processing took center stage in this book, ample space was dedicated to other relevant and timely topics on fruit preservation such as safety, consumer perception, sensory and health aspects. FEATURES: Traditional and Novel Technologies to Process Fruits Microwaves Ohmic Heating UV-C light Irradiation High Pressure Pulsed Electric Fields Ultrasound Vacuum Impregnation Membranes Ozone Hurdle Technology Topics Associated with Fruit Preservation Safety Nutrition and Health Consumer Perception Sensory Minimal Processing Packaging Unit Operations for Fruit Processing Cooling and Freezing Dehydration Frying
"Value Addition of Fruit Wastes: Extraction, Properties, and Applications provides the latest technologies used in fruit waste to extract, isolate, and characterize functional, active compounds and their diversified pharmacological, food, agricultural, and industrial applications. Divided in 3 sections, the book explores emerging technologies for extraction of functional components, thoroughly discusses value-added components and works as a guide to its applications. The book also covers fruit wastes for extracting starch to provide more cereal crops available as food, besides supporting the efficient utilization of fruit wastes to bring many more opportunities for extraction of functional components in a sustainable manner for food applications. Written by a team of experts in the field, this book provides technicians, researchers, food technology experts, food industry personnel, and academia with value addition to the fruit waste and a lot more opportunities for extraction of functional components in a sustainable manner for food applications. - Covers valorization approaches of fruit waste for starch, protein, fibers, and phenolics - Includes novel green techniques for the extraction of the functional compounds - Brings industrial applications of value-added functional compounds
Science and Technology of Fruit Wine Production includes introductory chapters on the production of wine from fruits other than grapes, including their composition, chemistry, role, quality of raw material, medicinal values, quality factors, bioreactor technology, production, optimization, standardization, preservation, and evaluation of different wines, specialty wines, and brandies. Wine and its related products have been consumed since ancient times, not only for stimulatory and healthful properties, but also as an important adjunct to the human diet by increasing satisfaction and contributing to the relaxation necessary for proper digestion and absorption of food. Most wines are produced from grapes throughout the world, however, fruits other than grapes, including apple, plum, peach, pear, berries, cherries, currants, apricot, and many others can also be profitably utilized in the production of wines. The major problems in wine production, however, arise from the difficulty in extracting the sugar from the pulp of some of the fruits, or finding that the juices obtained lack in the requisite sugar contents, have higher acidity, more anthocyanins, or have poor fermentability. The book demonstrates that the application of enzymes in juice extraction, bioreactor technology, and biological de-acidification (MLF bacteria, or de-acidifying yeast like schizosaccharomyces pombe, and others) in wine production from non-grape fruits needs serious consideration. - Focuses on producing non-grape wines, highlighting their flavor, taste, and other quality attributes, including their antioxidant properties - Provides a single-volume resource that consolidates the research findings and developed technology employed to make wines from non-grape fruits - Explores options for reducing post-harvest losses, which are especially high in developing countries - Stimulates research and development efforts in non-grape wines
Nutritional Composition of Fruit Cultivars provides readers with the latest information on the health related properties of foods, making the documentation of the nutritive value of historical cultivars especially urgent, especially before they are lost and can't be effectively compared to modern cultivars. Because there is considerable diversity and a substantial body of the compositional studies directed towards commercial varieties, this information is useful for identifying traits and features that may be transposed from one variety to another. In addition, compositional and sensory features may also be used for commercialization and to characterize adulteration. Detailed characterization of cultivars can be used to identify "super-foods". Alternatively, unmasked historical cultivars may be the focus of reinvigorated commercial practices. Each chapter in this book has sections on the botanical aspects, the composition of traditional or ancient cultivars, the composition of modern cultivars, a focus on areas of research, the specialty of the communicating author of each chapter, and summary points. - Presents the botanical aspects and composition of both traditional and modern plants, including in-depth insight into current research, and overall summary points for each fruit for consistent comparison and ease of reference - Provides important information in the consideration of preservation, transference, or re-introduction of historical/traditional cultivars into current crop science - Provides details on compositional and sensory parameters, from aroma and taste to micro- and macronutrients - Includes data on nutraceuticals and novel components that have proven to impact on, or be important in, food quality, storage, processing, storage, and marketing
