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The use of chemicals in agriculture and home gardens has become an area of concern due to improper use and negative environmental effects. Environmentally Safe Approaches to Crop Disease Control addresses alternative approaches for managing crop diseases. It gives a balanced overview of state-of-the-art environmentally safe approaches to crop disease control and discusses the latest trends.
The control of diseases in crops is still largely dominated by theuse of fungicides, but with the increasing incidence of fungicideresistance, plus mounting concern for the environment resultingfrom excessive agrochemical use, the search for alternative,reliable methods of disease control is gaining momentum. The purpose of this important book is to examine the developmentand exploitation (or potential for exploitation) of a range ofnon-chemical approaches to disease control, with a focus on theneed for a greater understanding of crop ecology as the basis foreffective disease control in the field. Chapters in the book,written by international experts in the subject area, includecoverage of: biological control methods host-plant resistance the exploitation of tolerance and the use of bacteriophages Carefully edited by Professor Dale Walters, widely respected forhis work in the area of crop protection, Disease Control inCrops is an essential reference book for plant pathologists,microbiologists, plant and agricultural scientists and cropprotection specialists, including those working within, andproviding consultancy to, the agrochemical industries. Libraries inall universities and research establishments where biologicalsciences and agriculture are studied and taught should have copiesof this timely publication on their shelves.
This book is the third of the 3-volume Innovative Approaches in Diagnosis and Management of Crop Diseases, which provides an abundance of new research and information on major diseases of various crops along with new techniques and technology for the detection of plant pathogens along with appropriate management strategies. Divided into three volumes and with chapters written by renowned and expert scientists working in different areas of plant pathology, the volumes cover important diseases of crops, incited by bacteria, fungi, viruses, viroids, phytoplasma, and nematodes. This multi-volume set addresses these disease challenges to commercial field and horticultural crops and their management. Volume 3: Nanomolecules and Biocontrol Agents explores the use of new ways to prevent and mitigate plant diseases. These include novel green nanotechnologies; biosensors; biological management using phyllosphere-, rhizosphere-, and endosphere-derived biocontrol agents; employing biofumigation techniques; and plant immunization approaches. The book also considers the special challenge of plant disease management under the present climate change scenario. Key features: Presents diverse research of leading plant pathologists on detection, diagnosis, and management of crop diseases Shares innovative and emerging techniques for diagnosis and management of major plant diseases Covers a vast array of important crops and their diseases Volume 1 of the 3-volume set focuses on the Mollicute class of bacteria. It looks at the detection, diagnosis, and management of phytoplasma diseases and viroids, CRISPR-Cas9 genome editing in plants for virus resistance, next-generation sequencing technologies, and more, while Volume 3 reviews the advances in the uses of nanomolecules and biocontrol agents. Diagnosis and management of biotic stresses play a pivotal role in efficient agriculture production, and together, these volumes of Innovative Approaches in Diagnosis and Management of Crop Diseases provide reviews of crucial research to effectively advance the detection, diagnosis, and management of crop diseases.
This book provides an account of the classical and recent trends in plant sciences, which have contributed for disease management strategies in plants for sustainable agriculture. Advancements in the disciplines of biological sciences like biotechnology, microbiology, bioinformatics as well as information and communication technology etc has given the new dimensions for the development of new plant disease management strategies. By keeping this perspective in view, the editors collected and compiled the useful, practical and recent information regarding plant disease management from a diverse group of authors from different countries associated with well-reputed scientific, teaching and research organizations with the objective to update and equip the researchers with comprehensive and latest knowledge of plant disease management. This book is based on the knowledge of traditional and modern approaches for plant disease management. It has 15 chapters, each chapter describing the pillar strategies, which may be the possible way for crop protection from diseases.This effort deals with the history and recent trends in plant disease control, plant genetics and physiology in disease prognosis, conventional plant breeding program for disease resistance, synthetic chemicals: major component of plant disease management, biological antagonism: expected safe and sustainable way to manage plant diseases , soil microbes and plant health, conventional and modern technologies for the management of post-harvest diseases, nanobiotechnology, an innovative plant disease management approach, transgenic approaches in plants: strategic control for disease management, exploiting RNAi mechanism in plants for disease resistance, genome editing technologies for resistance against phytopathogens: principles, applications and future prospects, plant health clinics in Pakistan: operations and prospects, precision agriculture technologies for management of plant disease, quarantine and regulations and development and implementation of IDM program for annual and perennial crops.
Food Security and Plant Disease Management offers a comprehensive exploration of biocontrol, the latest technologies being used in plant health assurance, and resulting impacts on crop production and food security. Discussing both theoretical and practical topics, the book examines basic and advanced applications of biosensor and nano-technologies, introduces plant disease, including modes of action and their transmission in host plants, then covers factors contributing to plant disease and various means of addressing those diseases. This volume is part of the Microorganisms in Agriculture and the Environment series and provides important information for developing new effective plant protection practices. The direct or indirect applications of beneficial microbes in the treatment of plant disease is termed “microbial control and these methods have increasingly been identified as important options for plant health management. The beneficial microbes as well as recent omic and nano-technologies also reveal important mechanisms that can be utilized in disease management strategies. Explores the impact of climate change on plant diseases and new methods of resolution Includes information on gene expression during crop disease management Presents insights into the legal and commercial aspects of microbial control
Addressing the most critical issues in the management of emerging diseases throughout the world, experts in plant pathology from internationally renowned institutes share their research and examine key literature. They look at both traditional pathology and advanced biotechnological and molecular diagnosis, and integrated management practices. This book is divided into four parts, covering viral and fungal disease detection and management, nematode diseases and management, bio-control, and biotechnological approaches and impact of climate change. The authors look at the challenges of crop protection against diseases caused by plant pathogens for the most economically important crops. The establishment and management of plant diseases using conventional and eco-friendly methods are discussed with an emphasis on the use of beneficial microbes and modern biotechnological approaches.
Plant diseases worldwide are responsible for billions of dollarsworth of crop losses every year. With less agrochemicals being usedand less new fungicides coming on the market due to environmentalconcerns, more effort is now being put into the use of geneticpotential of plants for pathogen resistance and the development ofinduced or acquired resistance as an environmentally safe means ofdisease control. This comprehensive book examines in depth the development andexploitation of induced resistance. Chapters review currentknowledge of the agents that can elicit induced resistance,genomics, signalling cascades, mechanisms of defence to pests andpathogens and molecular tools. Further chapters consider thetopical application of inducers for disease control, microbialinduction of pathogen resistance, transgenic approaches, pathogenpopulation biology, trade offs associated with induced resistanceand integration of induced resistance in crop protection. The bookconcludes with a consideration of socio-economic driversdetermining the use of induced resistance, and the future ofinduced resistance in crop protection.
This book offers a comprehensive guide to the identification, detection, characterization, classification and management of plant pathogens and other beneficial microbes in agriculture. The science of plant pathology is a dynamic field and, given the growing interest in sustainable agricultural practices, plant disease management has also gained importance. Further, there has been a shift from traditional chemical-based methods to eco-friendly integrated disease management strategies with a greater focus on bio-control and other eco-friendly technologies. This book provides a comprehensive and timely account of latest concepts and advances in the field of plant pathology, including detection and diagnosis, host resistance, disease forecasting and plant biotechnological approaches. Accordingly, it will be of great interest to academics and all stakeholders working in the fields of plant pathology, microbiology, biotechnology, plant breeding, and other life sciences.
To meet the challenge of feeding ever increasing human population, efficient, economical and environment friendly disease control methods are required. Pests are responsible for heavy crop losses and reduced food supplies, poorer quality of agricultural products, economic hardship for growers and processor. Generally, chemical control methods are neither always economical nor are they effective and may have associated unwanted health, safety and environmental risks. Biological control involves use of beneficial microorganism to control plant pathogens and diseases they cause and offers an environmental friendly approach to the effective management of plant diseases. This book provides a comprehensive account of interaction of host and its pathogens, induced host resistance, development of biological control agents for practical applications, the underlying mechanism and signal transduction. The book is useful to all those working in academia or industry related to crop protection.
This guide presents new and promising, alternative methods for controlling fungal, viral, and bacterial diseases of plants--methods which limit and, in some cases, eliminate the use of biocides. Considers three major concepts of disease control including biological control systems, biochemical and physiological manipulations in plants, and the use of molecular biology and the potential of genetic engineering. Presents updated findings together with authors' views and speculations on plant disease control.