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The fungal genus Botrytis is the focus of intensive scientific research worldwide. The complex interactions between this pathogen and the plants it infects and the economic importance of the diseases caused by Botrytis (principally grey mould) on more than 1400 species of cultivated plants pre- and post-harvest, render this pathogen of particular interest to farmers, advisers, students and researchers in many fields worldwide. This 20-chapter book is a comprehensive treatise covering the rapidly developing science of Botrytis and reflecting the major developments in studies of this fungus. It will serve as a source of general information for specialists in agriculture and horticulture, and also for students and scientists interested in the biology of this fascinating, multifaceted phytopathogenic fungal species.
This book fully integrates the conventional and biotechnological approaches to fruit crop breeding. Individual chapters are written on a wide variety of species covering all the major fruit crops in one volume. For each crop, there is a discussion of their taxonomy and evolution, history of improvement, crossing techniques, evaluation methods, and heritability of major traits and germplasm resources. Also discussed are the most recent advances in genetic mapping and QTL (quantitative trait loci) analysis, marker assisted breeding, gene cloning, gene expression analysis, regeneration and transformation. Patenting and licensing issues are also covered.
This book provides unparalleled integration of fundamentals and most advanced management to make this strawberry crop highly remunerative besides enhancing per capita availability of fruit even in the non-traditional regions of the world.
The present book entitled, “Re-visiting the Rhizosphere Eco-system for Agricultural Sustainability” written by experts in the field, provides a comprehensive and consolidated state-of art overview of various aspects of rhizosphere biology, ecology and functioning. The role of rhizosphere microbial diversity in enhancing plant health and plant-microbe beneficial symbioses is discussed. Main topics include the diversity of plant-associated microbes in the rhizosphere, below-ground communication among the plant, soil, insects and microbes, rhizosphere ecosystem functioning, rhizosphere engineering, recruitment of microorganisms in the rhizosphere, mycorrhizal fungal symbiosis, positive interaction of the plants with the beneficial soil microorganisms for inducing the plant growth, conferring abiotic and biotic stress tolerance and modulating several pathways of the plants for the proper establishment and revitalization in the degraded and contaminated soils or negative likes the host-pathogen interactions leading to the disease development in plants. Further chapters focus on the role of signaling during the different stages of the plant-microbe coexistence, in symbiotic or pathogenic relationships, in quorum sensing, microbial signaling and cross-talk, bio-film formation, and antimicrobial peptides. The book also discusses the application of microbes in biodegradation of xenobiotic contaminants, bioremediation of heavy metals, sustainable agriculture and soil health, biological control of insect pests and plant pathogens, and the latest tools of omics which offer pioneering approaches to the exploration of microbial structure and function, secretome, holobiome, below-ground interaction, and microbial cooperation for sustainable food production and enhanced resource acquisition. Descriptions of cutting-edge techniques and novel approaches make this book unique in the area of rhizosphere biology. This is a useful reading material for researchers and students of microbiology, agriculture, ecology, and rhizosphser studies.
FAO Plant Production and Protection Papers Greenhouse crop production is an increasing trend throughout the world, with some 405 000 ha of greenhouses spread across Europe. This publication builds on know-how and experience from the South East European region to serve as a guide for trainers and a technical reference for producers and other stakeholders.
With global populations expected to exceed 9.2 billion by 2050 and available land and water resources devoted to crop production dwindling, we face significant challenges to secure global food security. Only 12 plant species feed 80% of the world’s population, with just three crop species (wheat, rice and maize) accounting for food consumed by 50% of the global population. Annual losses to crop pests and pathogens are significant, thought to be equivalent to that required to feed a billion people, at a time when crop productivity has plateaued. With pesticide applications becoming increasingly unfeasible on cost, efficacy and environmental grounds, there is growing interest in exploiting plant resistance and tolerance traits for crop protection. Indeed, mankind has been selectively breeding plants for desirable traits for thousands of years. However, resistance and tolerance traits have not always been those most desired, and in many cases have been inadvertently lost during the domestication process: crops have been effectively ‘disarmed by domestication’. Moreover, mechanistic understanding of how resistance and tolerance traits operate is often incomplete, which makes identifying the right combination for crop protection difficult. We aimed to address this Research Topic by inviting authors to contribute their knowledge of appropriate resistance and tolerance traits, explore what is known about durability and breakdown of defensive traits and, finally, asking what are the prospects for exploiting these traits for crop protection. The research topic summarised in this book addresses some of the most important issues in the future sustainability of global crop production.
Taxonomy; Variation in Botrytis and Botryotinia; Formation, structure and germination of Conidia; Sclerotia and other structures in survival; Behaviour of Conidia on aerial plant surface; The infection process and host-pathogen interactions; Mechanisms of Resistance to Botrytis; Epidemiology; Botrytis cinerea in Enology; Disease Control.