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This book combines several ideas and philosophies and provides a detailed discussion on the value addition of fruits, vegetables, spices, plantation crops, floricultural crops and in forestry. Separate chapters address the packaging, preservation, drying, dehydration, total quality management and supply chain management of horticultural crops. The book explains value addition as a process of increasing the economic value and consumer appeal of a commodity with special reference to horticultural crops. Each chapter focuses on a specific area, exploring value addition as a production/ marketing strategy driven by customer needs and preferences. But, as such, it is also a more creative field, calling for more imagination than calculated, routine work. Value is added to the particular produce item when the product is still available when the season is out and the demand for the product exceeds the available supply. Value addition is an important factor in the growth and development of the horticultural sector, both in India and around the world. But very little information is available on this particular aspect of horticulture. Albert Einstein famously said, “Try not to become a man of success, but rather try to become a man of value.” This message is not only true for those people who want to make more of themselves, but also for those who want their creation or product in any form to excel. And it certainly applies to horticultural crops, which are extremely perishable. It is true that loss reduction is normally less costly than equivalent increases in production. The loss of fresh produce can be minimized by adopting different processing and preservation techniques to convert the fresh vegetables into suitable value-added and diversified products, which will help to reduce the market glut during harvest season. Value-added processed products are products that can be obtained from main products and by-products after some sort of processing and subsequently marketed for an increased profit margin. Generally speaking, value-added products indicate that for the same volume of primary products, a higher price is achieved by means of processing, packing, enhancing the quality or other such methods. The integrated approach from harvesting to the delivery into the hands of the consumer, if handled properly, can add value to fresh produce on the market. But most of the fresh produce has a limited life, although it can be stored at appropriate temperature and relative humidity for the same time. If such produce is processed just after harvesting, it adds value and stabilizes the processed products for a longer time. Preparing processed products will provide more variety to consumers and improve the taste and other sensory properties of food. This will also promote their fortification with nutrients that are lacking in fresh produce. By adopting suitable methods for processing and value addition, the shelf life of fresh produce can be increased manifold, which supports their availability year-round to a wider spectrum of consumers on both the domestic and international market. With increased urbanization, rising middle class purchasing power, changing food habits and a decline in making preserved products in individual homes, there is now a higher demand for industry-made products on the domestic market. In spite of all these aspects, only 1-2.2% of the total produce is processed in developing countries, as compared to 40-83% in developed countries. The horticultural export industry offers an important source of employment for developing countries. For instance, horticulture accounts for 30% of India’s agricultural GDP from 8.5% of cropped area. India is the primary producer of spices, second largest producer of fruits and vegetables and holds a prominent position with regard to most plantation crops in the world. The cultivation of horticultural crops is substantially more labor-intensive than growing cereal crops and offers more post-harvest opportunities for the development of value-added products. This book offers a valuable guide for students of horticulture, as well as a comprehensive resource for educators, scientists, industrial personnel, amateur growers and farmers.
This book combines several ideas and philosophies and provides a detailed discussion on the value addition of fruits, vegetables, spices, plantation crops, floricultural crops and in forestry. Separate chapters address the packaging, preservation, drying, dehydration, total quality management and supply chain management of horticultural crops. The book explains value addition as a process of increasing the economic value and consumer appeal of a commodity with special reference to horticultural crops. Each chapter focuses on a specific area, exploring value addition as a production/ marketing strategy driven by customer needs and preferences. But, as such, it is also a more creative field, calling for more imagination than calculated, routine work. Value is added to the particular produce item when the product is still available when the season is out and the demand for the product exceeds the available supply. Value addition is an important factor in the growth and development of the horticultural sector, both in India and around the world. But very little information is available on this particular aspect of horticulture. Albert Einstein famously said, "Try not to become a man of success, but rather try to become a man of value." This message is not only true for those people who want to make more of themselves, but also for those who want their creation or product in any form to excel. And it certainly applies to horticultural crops, which are extremely perishable. It is true that loss reduction is normally less costly than equivalent increases in production. The loss of fresh produce can be minimized by adopting different processing and preservation techniques to convert the fresh vegetables into suitable value-added and diversified products, which will help to reduce the market glut during harvest season. Value-added processed products are products that can be obtained from main products and by-products after some sort of processing and subsequently marketed for an increased profit margin. Generally speaking, value-added products indicate that for the same volume of primary products, a higher price is achieved by means of processing, packing, enhancing the quality or other such methods. The integrated approach from harvesting to the delivery into the hands of the consumer, if handled properly, can add value to fresh produce on the market. But most of the fresh produce has a limited life, although it can be stored at appropriate temperature and relative humidity for the same time. If such produce is processed just after harvesting, it adds value and stabilizes the processed products for a longer time. Preparing processed products will provide more variety to consumers and improve the taste and other sensory properties of food. This will also promote their fortification with nutrients that are lacking in fresh produce. By adopting suitable methods for processing and value addition, the shelf life of fresh produce can be increased manifold, which supports their availability year-round to a wider spectrum of consumers on both the domestic and international market. With increased urbanization, rising middle class purchasing power, changing food habits and a decline in making preserved products in individual homes, there is now a higher demand for industry-made products on the domestic market. In spite of all these aspects, only 1-2.2% of the total produce is processed in developing countries, as compared to 40-83% in developed countries. The horticultural export industry offers an important source of employment for developing countries. For instance, horticulture accounts for 30% of India's agricultural GDP from 8.5% of cropped area. India is the primary producer of spices, second largest producer of fruits and vegetables and holds a prominent position with regard to most plantation crops in the world. The cultivation of horticultural crops is substantially more labor-intensive than growing cereal crops and offers more post-harvest opportunities for the development of value-added products. This book offers a valuable guide for students of horticulture, as well as a comprehensive resource for educators, scientists, industrial personnel, amateur growers and farmers.
This book highlights the underlying principles and outlines some of the key hi-tech practices and technology interventions required to achieve enhanced productivity. It discusses horticulture technology interventions like varietal improvement including genetically modified crops; good agricultural practices like optimum planting density, micro-irrigation, fertigation, integrated nutrient management, plant bioregulators, precision horticulture, protected cultivation, nanotechnology, and integrated farming systems; integrated management of insects, mites, disease pathogens, nematodes, and weeds; and post-harvest management practices like handling, storage and processing to reduce crop losses. The importance of attaining food and nutritional security through hi-tech horticulture and profitable marketing of horticultural produce is also discussed. This book will be of immense value to the scientific community involved in teaching, research and extension activities related to hi-tech horticulture strategies for enhancing productivity in enhancing farmers’ income, food, nutrition and livelihood security. The material can be used for teaching postgraduate courses. The book can also serve as a very useful reference to policymakers and practicing farmers.
Oil Seed Crops: Yield and Adaptations under Environmental Stress is a state-of-the-art reference that investigates the effect of environmental stress on oil seed crops and outlines effective ways to reduce stress and improve crop yield. With attention to physiological, biochemical, molecular, and transgenic approaches, the chapters discuss a variety of oil seed crops and also cover a broad range of environmental stressors including microbes, salt, heavy metals, and climate change. Featuring up-to-date research from a global group of experts, this reference provides innovative recommendations for mitigating environmental stress and promoting the healthy growth, development, and adaptation of crops.
The coconut palm (Cocos nucifera L.) is one of the world's most important palms, and contributes significantly to the income and livelihood of many people in tropical countries. Widely referred to as the 'tree of life', coconut has been used as a source of food, drink, oil, medicine, shelter and wood for around 500 years. Every part of the coconut palm can be utilized. The demand for coconut fruit and its products has increased recently as people have become aware of its nutritional and health benefits, especially those of coconut water and virgin coconut oil. This book is a key resource for researchers and students in horticulture, plant science and agriculture, and those interested in the production of tropical crops, and practitioners in the coconut industry.
In a finished nutraceutical product, flavors play an integral role. Flavor Development for Functional Foods and Nutraceuticals is about the crucial role added flavors play in any nutraceutical product. It describes the various extraction techniques that are being adopted for manufacturing flavors from natural raw materials. Yield and retention of aromatic components during several extraction methods and flavor encapsulation techniques for thermal degradable food components are discussed. Advanced methods of flavor extraction techniques like supercritical C02 extraction are emphasized. The safety and quality aspects of flavor incorporation in food processing industries are reviewed with respect to international regulations. The importance of flavor in the nutraceuticals industry is also discussed. In addition, the book stresses the functional value and organoleptic acceptability towards product optimization/formulation. Features: Explains how flavors play an integral role in a finished nutraceutical product Describes the various extraction techniques that are being adopted for manufacturing flavors from natural raw materials Covers flavor encapsulation techniques for thermal degradable food components Provides an introduction to the history of how some natural flavor ingredients, botanicals, and extracts were used in ancient times in Ayurveda and herbal medicine This is an ideal reference book for the flavor chemists, food scientists, nutraceutical formulators, and students and academicians who are working in the area of nutraceutical, supplement, and functional food development and provides very useful information to help them select appropriate flavors for their products. Also available in the Nutraceuticals: Basic Research/Clinical Applications Series: Flavors for Nutraceuticals and Functional Foods, edited by M. Selvamuthukumaran and Yashwant Pathak (ISBN: 978-1-1380-6417-1) Antioxidant Nutraceuticals: Preventive and Healthcare Applications, edited by Chuanhai Cao, Sarvadaman Pathak, Kiran Patil (ISBN 978-1-4987-3703-6) Food By-product Based Functional Food Powders, edited by Özlem Tokuşoğlu (ISBN 978-1-4822-2437-5)
This new volume focuses on novel breeding and biotechnological approaches for crop improvement, covering recent advances in molecular breeding and plant breeding, such as pre-breeding, reverse breeding, allele mining, next-generation sequencing, etc. The authors consider the important necessity and development of climate-resilient crops that can withstand hostility or adversities of climate without substantially compromising yield and discuss ways to mitigate plant stress. The recent developments in breeding and biotechnological approaches concerning crop improvement that are discussed in the book include molecular markers, their genesis, and their significant applications for crop improvement; QTL mapping, a modern breeding approach for mapping quantitative traits; pulse molecular breeding and genomics; and approaches for precise gene alterations in the genome of organisms by using genome editing. Other techniques include reverse breeding, a technique that allows breeders to develop parental lines directly from the heterozygous plant within a shorter time frame; pre-breeding approaches for biotic and abiotic stress management in crop plants; allele mining as a way to find existing variations in an organism’s gene pool by scanning the entire gene; marker-assisted selection, where molecular markers have played a significant role in accelerating breeding programs; and next-generation sequencing (NGS) platforms in crop improvement, where the authors summarize the technical know-how of each sequencing platform and its merits and demerits. The book introduces the design and importance of Mutmap and its variant in modern breeding, a novel gene mapping approaches that allows rapid identification of causal nucleotide changes of mutants by whole-genome resequencing. Examples and case studies of the various approaches are included as well, with several examples of marker-assisted selection of rice and maize crop and other agriculturally important crops. This informative volume will enhance readers’ knowledge about the recent developments in breeding and biotechnological approaches concerning crop improvement.
This book offers comprehensive insights into the management of agroforestry for livelihood security and sustainable development in the tropics, addressing ecological interactions, productivity, and the monetization of carbon credits, while also outlining a future roadmap and policy challenges. Agroforestry is a brilliant land use farming practice that covers 1.6 billion hectares (78 percent in the tropics and 22 percent in the temperate regions) to enhance plant diversification, productivity, and livelihood across generations, maintaining eco-restoration. It ensures socioeconomic upliftment and a standard livelihood for people along with many ecosystem services for sustainable development under resilient climates, which are today’s key topics popularized among policy makers, stakeholders, scientists, ecologists, and climate supporters in the tropical world. However, more than 75 percent of the world’s poor directly depend on natural resources for their livelihoods. Adopting climate resilient agroforestry not only maximizes productivity and farmers’ socioeconomic status but also mitigates climate change issues through carbon sequestrations for better carbon management in the tropics. This book addresses agroforestry management for livelihood security and sustainable development in the tropics. Readers will earn about ecological interactions and productivity in tropical agroforestry ensuring greater ecosystem services and livelihood resilience under changing climates, as well as building livelihood resilience through monetization of carbon credits in agroforestry in the tropics. Livelihood and sustainability-based policy in agroforestry, its challenges, and a future roadmap are also covered. This volume provides new insights related to updated research, development and extension activities for combating climate change through carbon sequestration to enhance intensify greater productivity, and livelihood and ecosystem services for ensuring the goals of sustainable development.
This book deepens the study and knowledge on fiber-reinforced plastics (FRPs), which are composite materials made of a polymer matrix reinforced with fibers. The fibers are usually glass, carbon, or aramid, although other fibers such as paper, wood, or asbestos are sometimes used. The polymer is usually an epoxy, vinyl ester, or polyester thermosetting plastic, and phenol-formaldehyde resins are still in use. Among, the most prominent applications of FRPs are in the aerospace, automotive, marine, and construction industries. The development of FRPs has a very promising future with a marked annual increase and with a wide range of sources. This book presents comprehensive information on FRPs and their wide variety of applications in the industry worldwide.
Essential Oils: Extraction, Characterization and Applications covers sixteen essential oils from different herbal and aromatic plants, including production, composition and extraction techniques such as distillation, chemistry and properties, characterization and applications. The book also presents their safety, toxicity and regulation, alongside trade, storage, stability and transport concepts. Essential oils in plants, extraction and analysis, and current trends in the use of essential oils, like aroma therapy, agro-food and non-food usage are thoroughly explored. Remaining chapters are dedicated to different essential oils, including lavender, peppermint, sandalwood, citrus, eucalyptus, tea tree, clove, ginger, cinnamon, nutmeg, rosewood, juniper and pine, patchouli, clary, and more. Edited by a global team of experts in essential oils, this book is designed to be a practical tool for the many diverse professionals who develop and market essential oils. - Thoroughly explores the extraction and characterization of essential oils - Contains comprehensive information on major, popular essential oils - Provides an exceptional range of information on properties, applications, safety, toxicity and regulations