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Tomato cultivation is a major economic activity in many countries of the world. Thus, strategic efforts should be directed towards mitigating production constraints that limit overall yields and quality. In addressing some of these constraints, researchers are developing and using varieties of modern and innovative techniques to improve local tomato germplasm, make rapid genetic gains, and breed for varieties with resistance to biotic and abiotic stress. This book focuses on recent advances in genomics and genetic improvement of the tomato crop, and production systems, and center around the following themes: (i) disease and pest management in tomato production, and (ii) breeding tools and improvement of the tomato.
This volume covers the advances in the study of tomato diversity and taxonomy. It examines the mapping of simple and complex traits, classical genetics and breeding, association studies, molecular breeding, positional cloning, and structural and comparative genomics. The contributors also discuss transcriptomics, proteomics, metabolomics, and bioinformatics. The information in this book will be useful to researchers working on other Solanaceaous crops as well as those interested in using the tomato as a model crop species.
This book describes the strategy used for sequencing, assembling and annotating the tomato genome and presents the main characteristics of this sequence with a special focus on repeated sequences and the ancestral polyploidy events. It also includes the chloroplast and mitochondrial genomes. Tomato (Solanum lycopersicum) is a major crop plant as well as a model for fruit development, and the availability of the genome sequence has completely changed the paradigm of the species’ genetics and genomics. The book describes the numerous genetic and genomic resources available, the identified genes and quantitative trait locus (QTL) identified, as well as the strong synteny across Solanaceae species. Lastly, it discusses the consequences of the availability of a high-quality genome sequence of the cultivated species for the research community. It is a valuable resource for students and researchers interested in the genetics and genomics of tomato and Solanaceae.
Savor your best tomato harvest ever! Craig LeHoullier provides everything a tomato enthusiast needs to know about growing more than 200 varieties of tomatoes, from planting to cultivating and collecting seeds at the end of the season. He also offers a comprehensive guide to various pests and tomato diseases, explaining how best to avoid them. With beautiful photographs and intriguing tomato profiles throughout, Epic Tomatoes celebrates one of the most versatile and delicious crops in your garden.
Solanum lycopersicum is the scientific name for cultivated tomatoes. Tomatoes are produced and consumed worldwide. Many scientists are investigating such aspects as production, post-harvest, nutritional components, and health benefits of tomatoes. Moreover, Solanum lycopersicum is one of the model plants in recent molecular biology as Arabidopsis. This book consists of recent research topics written by tomato experts in a wide range of scientific fields. In tomato production, improvements of yield and efficiency have been investigated. Dry matter production influences these yields and efficiencies of tomato production. Higashide reviewed factors such as photosynthesis, light interception by plants, and environmental conditions that pertain to dry matter production. Additionally, to improve crop production in greenhouses, Li and Yang reported that the diffusion of light has advantages such as light distribution, less photoinhibition, and lower leaf temperature. Recent molecular biology has clarified genetic and metabolic aspects on tomato plants. Matsuo and Imanishi described recently advanced plant hormone research, especially focused on the mechanism of the tomato fruit set and development. Molecular biological findings on tomato plants were directly related to the breeding and production innovations of tomatoes. Furthermore, Ohyama and Hayashi reviewed DNA markers, quantitative trait locus (QTL) mapping for breeding tomatoes. Higashide reviewed an increase of yield and quality in Dutch and Japanese cultivars, respectively, and the yield improvement by using Japanese cultivars. Nakano described an outline and scope of nutrient management on the advanced protection and cultivation of tomatoes. Kinoshita and Masuda introduced their new hydroponics system using root-proof capillary wicks. Pinheiro et al. reviewed factors during postharvest life that influenced the physical-chemical qualities and nutritional composition of tomato fruits. Domínguez et al. explained roles of flavonoids in the cuticle of tomato fruits. And finally, Ando reviewed the taste compounds of tomatoes, and reported on the analysis of major taste compounds in Dutch and Japanese cultivars using capillary electrophoresis, as well as the accumulation of umami-enhanser guanylic acid by cooking tomatoes.
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.
High-quality seed is essential for healthy crops and greater agricultural productivity. At the same time, advances in breeding technology require equivalent advances in seed technology. In order to ensure food security, it is crucial to develop seeds that are high yielding, and resistant to drought, heat, cold, and insects. Gathering the latest research in seed sciences, the book includes contributions on seed production in crops such as legumes, sugar, rice, wheat and other cereals. It discusses a range of topics, like the effect of climate change on seed quality, production and storage; seed rouging; seed certification for different crop species; seed biology; and seed pathologies and their effective management. Integrating basic and applied research, this compendium provides valuable insights for researchers and students in agricultural and life sciences; professionals involved in seed certification and those working in quarantine laboratories; as well as plant pathologists.
Applied plant genomics and biotechnology reviews the recent advancements in the post-genomic era, discussing how different varieties respond to abiotic and biotic stresses, investigating epigenetic modifications and epigenetic memory through analysis of DNA methylation states, applicative uses of RNA silencing and RNA interference in plant physiology and in experimental transgenics, and plants modified to produce high-value pharmaceutical proteins. The book provides an overview of research advances in application of RNA silencing and RNA interference, through Virus-based transient gene expression systems, Virus induced gene complementation (VIGC), Virus induced gene silencing (Sir VIGS, Mr VIGS) Virus-based microRNA silencing (VbMS) and Virus-based RNA mobility assays (VRMA); RNA based vaccines and expression of virus proteins or RNA, and virus-like particles in plants, the potential of virus vaccines and therapeutics, and exploring plants as factories for useful products and pharmaceuticals are topics wholly deepened. The book reviews and discuss Plant Functional Genomic studies discussing the technologies supporting the genetic improvement of plants and the production of plant varieties more resistant to biotic and abiotic stresses. Several important crops are analysed providing a glimpse on the most up-to-date methods and topics of investigation. The book presents a review on current state of GMO, the cisgenesis-derived plants and novel plant products devoid of transgene elements, discuss their regulation and the production of desired traits such as resistance to viruses and disease also in fruit trees and wood trees with long vegetative periods. Several chapters cover aspects of plant physiology related to plant improvement: cytokinin metabolism and hormone signaling pathways are discussed in barley; PARP-domain proteins involved in Stress-Induced Morphogenetic Response, regulation of NAD signaling and ROS dependent synthesis of anthocyanins. Apple allergen isoforms and the various content in different varieties are discussed and approaches to reduce their presence. Euphorbiaceae, castor bean, cassava and Jathropa are discussed at genomic structure, their diseases and viruses, and methods of transformation. Rice genomics and agricultural traits are discussed, and biotechnology for engineering and improve rice varieties. Mango topics are presented with an overview of molecular methods for variety differentiation, and aspects of fruit improvement by traditional and biotechnology methods. Oilseed rape is presented, discussing the genetic diversity, quality traits, genetic maps, genomic selection and comparative genomics for improvement of varieties. Tomato studies are presented, with an overview on the knowledge of the regulatory networks involved in flowering, methods applied to study the tomato genome-wide DNA methylation, its regulation by small RNAs, microRNA-dependent control of transcription factors expression, the development and ripening processes in tomato, genomic studies and fruit modelling to establish fleshy fruit traits of interest; the gene reprogramming during fruit ripening, and the ethylene dependent and independent DNA methylation changes. - provides an overview on the ongoing projects and activities in the field of applied biotechnology - includes examples of different crops and applications to be exploited - reviews and discusses Plant Functional Genomic studies and the future developments in the field - explores the new technologies supporting the genetic improvement of plants
Potato is the most significant non-cereal crop. Much attention has been paid to this commercially important crop. The aim of this volume is to capture the recent advances made in improving potatoes using traditional breeding methods as well as genetic engineering technology. The book provides a critical appraisal of the state-of-the-art finding on
The tomato is commercially important throughout the world both for the fresh fruit market and the processed food industries. It is grown in a wide range of climates in the field, under protection in plastic greenhouses and in heated glasshouses. Genetic, physiological and pathological investigations frequently adopt the tomato plant as a convenient subject. Hitherto, much of the information on tomatoes has been fragmented: tomatoes grown in the field and under protection have been considered separately and the more fundamental findings from research have often failed to reach those involved directly or indirectly in commercial crop production. Similarly, the research scientist is often unaware of the problems of commercial crop production and the possible relevance of his work to the crop. This book is an attempt to rectify that situation. By giving a thorough scientific review of all factors influencing tomato production systems, it is hoped that this book will prove useful to students, researchers and commercial producers alike. It gives the basis for the develop ment of improved cultivars, the formulation of strategies for managing pest, disease and disorder problems and the production of high yields of good quality fruit as well as suggesting important areas for scientific initiatives. The extensive bibliographies provide a comprehensive database for tomato researchers. Such a vast subject could not be covered with authority by anyone author.