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This book focuses on recent advances in biosensors and nanosensors to monitor, manage and improve horticultural crops in terms of plant growth, nutrient deficiency, toxicity, diseases, abiotic stress, soil amendments and agrochemicals entry into surrounding environment. Besides contributing to sustainable agriculture, these innovative tools facilitate promoting plant health and horticultural products quality and safety. The book consists of 11 chapters grouped in 4 parts. Part I Growth, Development and Productivity, Part II Trends in Abiotic and Biotic Stress Management, Part III Harvest Quality, Part IV Precision Agriculture and Environment Sustainability. Increased productivity, stimulation of plant growth, precise farming, monitoring food quality and freshness during production, processing, distribution and storage, reduced costs and waste, and sustainable agriculture are some of the concepts discussed. The book presents the mechanisms of biosensors and nanosensors for monitoring the various changes during pre- and post-harvest stages of horticultural crops. These are considered as efficient tools to achieve goals of plant breeders in horticultural crops improvement programs. Chapters are written by globally recognized scientists and subjected to a rigorous review process to ensure quality presentation and scientific precision. Each chapter begins with an introduction that covers similar contexts and includes a detailed discussion of the topic accompanied by high-quality color images, diagrams and relevant details and concludes with recommendations for future study directions in addition to a comprehensive bibliography.
This book focuses on recent advances in Molecular Tools, Nanotechnology and Artificial Intelligence to monitor, manage and improve horticultural crops in terms of plant growth, nutrient deficiency, toxicity, diseases, abiotic stress, soil amendments and agrochemicals entering the surrounding environment. The book consists of 11 chapters grouped in 3 parts. Part I Nanotechnology and Artificial Intelligence, Part II Monitoring Abiotic and Biotic Stress, Part III Genetic Engineering and Genomics. This book provides an overview of nanotechnology and omics used to improve the productivity of crops and sustainability in the future. It also describes the basic structures of six popular artificial intelligence techniques and their applications in horticultural crop improvement. The book presents molecular techniques such as molecular markers, genome sequencing, genome editing and genetic modification that are considered efficient tools to achieve the goals of plant breeders in horticultural crop improvement programs. Chapters are written by globally recognized scientists and subjected to a rigorous review process to ensure quality presentation and scientific precision. Each chapter begins with an introduction that covers similar contexts and includes a detailed discussion of the topic accompanied by high-quality color images, diagrams and relevant details and concludes with recommendations for future study directions in addition to a comprehensive bibliography.
The improvement of crop species has been a basic pursuit since cultivation began thousands of years ago. To feed an ever increasing world population will require a great increase in food production. Wheat, corn, rice, potato and few others are expected to lead as the most important crops in the world. Enormous efforts are made all over the world to document as well as use these resources. Everybody knows that the introgression of genes in wheat provided the foundation for the “Green Revolution”. Later also demonstrated the great impact that genetic resources have on production. Several factors are contributing to high plant performance under different environmental conditions, therefore an effective and complementary use of all available technological tools and resources is needed to meet the challenge.
In the last 25 years, research on horticultural crops, particularly on 'crop improvement and breeding' has been taken up by many SAU's and ICAR institutes with the result the genetic base of a number of horticultural crops has been broadened and many improved cultivars have been developed despite the fact the breeding is relatively cumbersome in many horticultural crops vis a vis agricultural crops. The 3rd fully revised and expanded edition has been specially written with the hope that it may provide a satisfactory guidance for students of agriculture and horticulture including applied botany and also for the horticultural enthusiasts. More emphasis has been given in this book to explain the principles and methods of breeding of important Horticulture Crops and also the achievements made in these crops in the development of new cultivars. The book has been designed with the main consideration to serve a dual purpose of being a text and reference. Keeping this thing in mind the entire book has been divided into three major parts. The first part deals with the principles and methods of breeding adopted in horticultural crops propagated both sexually and asexually. The second part deals with the achievements in breeding of perennial horticultural crops. The third part covers achievements made in breeding of annual horticultural crops.
The field of horticultural biotechnology has witnessed remarkable growth in recent years, offering profound insights and innovations that are reshaping agriculture's future. Biotechnological Advances in Horticultural Crops serves as a comprehensive guide to the latest innovations and applications. This meticulously curated volume bridges the gap between fundamental knowledge and cutting-edge advancements. From plant tissue culture to genomic approaches, this book spans a diverse array of topics, catering to a broad audience of students, researchers, and academics. Key Features: In-depth exploration of plant tissue culture and its applications in horticultural crop improvement. Insightful coverage of transgenic approaches in fruit crops, including genetic modifications for enhancing fruit quality, yield, and resistance to pests and diseases. Detailed examination of the application of omics sciences in tropical fruits, opening up new perspectives for crop improvement and sustainable production. Extensive discussion on the potential of in vitro production techniques for underutilized and unconventional horticultural crops. Exploration of sustainable agriculture practices, including the use of beneficial microbes and the scientific validation of natural and organic farming practices. This book is more than just a collection of topics; it’s a gateway to the transformative potential of biotechnology in horticulture. It empowers readers (students, researchers, and academicians) to comprehend and harness these advancements, promoting innovation and sustainability in horticultural crop improvement.
Genetic Engineering of Horticultural Crops provides key insights into commercialized crops, their improved productivity, disease and pest resistance, and enhanced nutritional or medicinal benefits. It includes insights into key technologies, such as marker traits identification and genetic traits transfer for increased productivity, examining the latest transgenic advances in a variety of crops and providing foundational information that can be applied to new areas of study. As modern biotechnology has helped to increase crop productivity by introducing novel gene(s) with high quality disease resistance and increased drought tolerance, this is an ideal resource for researchers and industry professionals. Provides examples of current technologies and methodologies, addressing abiotic and biotic stresses, pest resistance and yield improvement Presents protocols on plant genetic engineering in a variety of wide-use crops Includes biosafety rule regulation of genetically modified crops in the USA and third world countries
This book examines the development of innovative modern methodologies towards augmenting conventional plant breeding, in individual crops, for the production of new crop varieties under the increasingly limiting environmental and cultivation factors to achieve sustainable agricultural production, enhanced food security, in addition to providing raw materials for innovative industrial products and pharmaceuticals. This Volume 9, subtitled Vegetable Crops: Fruits and Young Shoots, consists of 12 chapters focusing on advances in breeding strategies using both traditional and modern approaches for the improvement of individual vegetable crops. Chapters are arranged in 2 parts according to the edible vegetable parts. Part I: Fruits - Bell Pepper (Capsicum annuum L. var. grossum Sendt.), Chili pepper (Capsicum frutescens L.), Bitter gourd (Momordica charantia L.), Bottle gourd (Lagenaria siceraria (Molina) Standl.), Eggplant (Solanum spp.), Okra (Abelmoschus esculentus L.), Plantain (Musa paradisiaca L.), Sweet gourd (Cucurbita moschata Duch. ex Poir.), Melon (Cucumis melo L. Groups Dudaim and Flexuosus), Tomato (Solanum lycopersicum L.) and Zucchini (Cucurbita pepo L.) and Part II: Young shoots - Asparagus (Asparagus officinalis L.). The chapters were contributed by 43 internationally reputable scientists from 11 countries. Each chapter comprehensively reviews the modern literature on the subject and reflects the authors own experience.
This book examines the development of innovative modern methodologies towards augmenting conventional plant breeding, in individual crops, for the production of new crop varieties under the increasingly limiting environmental and cultivation factors to achieve sustainable agricultural production, enhanced food security, in addition to providing raw materials for innovative industrial products and pharmaceuticals. This is Vol 6, subtitled Industrial and Food Crops, which consists of two parts. Included in Part I are 11 industrial plant species utilized as sources of raw materials for the production of industrial products including pulp and wood crops (acacia), fiber (cotton, jute and ramie), rubber (guayule and rubber tree), oil (jojoba and flax), biofuels and pharmaceutical (agave) and sugar source (sugarcane). Part II covers 7 food plants selected for their utilization in food industries for the production of chocolate (cacao), cooking oil (oil palm, safflower, sesame and sunflower) and natural flavors and aroma (saffron and vanilla). This volume is contributed by 60 internationally reputable scientists from 14 countries. Each chapter comprehensively reviews the modern literature on the subject and reflects the authors own experience.
This book examines the development of innovative modern methodologies towards augmenting conventional plant breeding, in individual crops, for the production of new crop varieties under the increasingly limiting environmental and cultivation factors to achieve sustainable agricultural production, enhanced food security, in addition to providing raw materials for innovative industrial products and pharmaceuticals. This Volume 4, subtitled Nut and Beverage Crops, focuses on advances in breeding strategies using both traditional and modern approaches for the improvement of individual plantation crops. Included in Part I, eleven important nut species recognized for their economical and nutritional importance including Almond, Argan, Brazil nut, Cashew nut, Chestnut, Hazelnut, Macadamia, Peanut, Pine nut, Pistachio and Walnut. Part II covers two popular beverage species, coffee and tea. This volume is contributed by 53 internationally reputable scientists from 13 countries. Each chapter comprehensively reviews the modern literature on the subject and reflects the authors own experience.