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There has been a significant surge of interest in the study of the physiology and biochemistry of plant host-parasite interactions in recent years, as evidenced by the number of research papers currently being published on the subject. The in creased interest is probably based on the evidence that effective management of many plant diseases is, for the most part, contingent upon a clear understanding of the nature of host-parasite interactions. This intensified research effort calls for a greater number of books, such as this one, designed to compile, synthesize, and evaluate widely scattered pieces of information on this subject. The study of host-parasite interactions concerns the struggle between plants and pathogens, which has been incessant throughout their coevolution. Such in teractions are often highly complex. Pathogens have developed sophisticated of fensive systems to parasitize plants, while plants have evolved diversified defen sive strategies to ward off potential pathogens. In certain cases, the outcome of a specific host-parasite interaction seems to depend upon the presence or efficacy of the plant's defense system. A plant may become diseased when a parasite manages to invade it, unhindered by preexisting defense systems and/or without eliciting the plant's induced resistance response(s). Absence of disease may re flect the inability of the invading pathogen to overcome the plant's defense sys tem(s).
This book describes the genetics, biochemistry, and epidemiology of host-pathogen interactions in plant disease, especially as they concern the breeding of crops for disease resistance. It analyzes a wealth of information that has not previously been recorded in other books or reviews. Some of it stems from basic surveys of disease in the field. The analysis of these surveys not only explains a great deal about host-pathogen interactions that was heretofore obscure, but also indicates directions for future research. Other data, from original papers, have now been coordinated for the first time and organized in a way that suggests new areas of research. The book contains more than fifty new tables that integrate data and relate them to general principles of host-pathogen interactions.For plant pathologists and plant breeders concerned with the control of plant disease, the book shows how to manipulate the host and, indirectly, the pathogen in order to control disease. It analyzes records of resistance against disease that time has shown to be stable in an effort to determine what has kept this resistance stable. It also analyzes the structure of virulence in populations of a pathogen, and demonstrates how virulence can be deliberately restricted. The author updates information on the gene-for-gene hypothesis and discusses the numerical and biological implications of the hypothesis. He analyzes the structure of epidemics based on three fundamental variables: the initial inoculum, the progeny/parent ratio of the pathogen, and the latent period. The author concentrates on the progeny/parent ratio - a subject not hitherto probed in detail in the literature - and shows how to determine the type of epidemic that can occur.
Molecular Host Plant Resistance to Pests examines environmentally safe and integrated techniques for effective pest management. Offering more than 1500 references for further exploration of the topic, this reference details the bioactivity, biosynthetic pathways, mechanisms of action, and genetic regulation for improved methods of crop protection a
The chapters of this book, which was originally published in 1986, give a broad perspective on the relationship between water, fungi and plants.
The Biochemistry of Plants: A Comprehensive Treatise, Volume 3: Carbohydrates: Structure and Function is a compilation of contributions dealing with studies in the area of plant carbohydrates. The articles in this volume are grouped into three sections. The first section deals with topics concerning the monosaccharides and their derivatives found in plants. The integration and control of vital pathways concerned with hexose phosphate metabolism, glycolysis, gluconeogenesis; the metabolism of monosaccharide derivatives; and the formation of sugar nucleotides and their various transformations to the many novel sugar derivatives normally found in plant cell walls and complex carbohydrates are discussed in this section. The second part deals with the occurrence, biosynthesis, and transport of disaccharides and oligosaccharides. The final section of the volume is concerned with the occurrence, structure, and biosynthesis of simple and complex polysaccharides and glycoconjugates associated with cell walls and membranes. Biochemists and botanists will find the book a great reference material.
Phytopathogenic Prokaryotes, Volume 2, provides an understanding of the diversity and complexity of diseases caused by these organisms. It is part of a two-volume treatise that summarizes current research on phytopathogenic prokaryotes. The book is organized into five parts. Part I describes the movement of pathogens from one host to another. The concepts to be presented are essential for understanding the epidemiology and, therefore, the control of diseases caused by prokaryotes. Parts II and III elaborate on the dynamic nature of host/parasite interaction. First to be presented are methods by which hosts may evolve to minimize damage caused by their pathogens. Second, the mechanisms for rapid genetic change available to the pathogen to counteract host defenses are discussed. Part IV emphasizes control of diseases caused by prokaryotes. Manipulation of plant-prokaryote interactions to break the disease cycle or minimize losses is discussed in regard to cultural practices, host breeding, biological control, and chemical control. Part V deals with cultivation and preservation of phytopathogenic prokaryotes.
The Volume 2 of the treatise on the Developments in Physiology, Biochemistry and Molecular Biology of Plants provides additional information in the crucial areas for making precise and applied research in the national context, on the one hand, and to unravel the science, on the other hand. In the earlier volume, the theme of publishing this needful treatise has been already made obvious. However, in view of the experiences and enormous advances in plant science research in the last few decades providing enough insight to scan vital research in this century has, almost certainly, enlightened the path to undertake necessary research projects for the benefit of mankind to which we are indispensably committed. We, the plant physiologists, biochemists, molecular biologists and plant nutritionists must be proud of our support to the world's farmers which has helped them make their achievement possible. In this century, up to 2025, the human population is expected to double and that is in truth a serious issue for us to trace out the limiting factors reducing yield potentiality of crop plants, on the one hand, and to understand the science of related processes at different levels, alternatively. This principally necessitates for elucidation of dimensions of environmental stresses in relation to crop plants and their genotypes, optimally suitable to prevailing stress conditions. Of course, in the last few decades more emphasis was laid in this direction and remarkable progress has been made at the global scale to meet the challenges. Owing to this, distinguished scientists have been consistently reviewing and synchronizing the manifold research and signifying specific research of basic and applied implication in classified segment. It is delightful to mention that our attempt to sufficiently provide the essential and comprehensive literature to speed up important research in explicit areas of plant sciences has been once again tremendously satisfactory due to exceptional dedication of illustrious Indian scientists in the preparation of this momentous work. This treatise has been ordered with twelve excellent contributions in the form of review articles by thirty well- known Indian workers and academicians. The reviews are relevant to guide for theme oriented research as well as for scientific future planning of research projects. The four applicable sections related to: I. Sustainable Crop Productivity, II. Recent Advances in Plant Metabolism; III. Molecular Physiology of Plants; IV. Environmental Stresses in Plants consist of over twelve meaningful review articles as substantial chapteMoreover, as promised, prominence has been given to compile extremely important aspects of Stress Physiology. The detailed choice of the contents of the various contributions has been left largely to the individual authoDoubtless, this book will be of immense help to scientists, teachers and students of almost all disciplines of Agriculture, Botany and Biotechnology.
Biology of the Rhizobiaceae covers the genetics, molecular biology, agricultural, and morphological aspects of the rhizobia. The book discusses the taxonomy and identification of the Rhizobiaceae; the biology of Agrobacterium tumefaciens and the specific events in the disease cycle of crown gall; and the agricultural control of Agrobacterium tumefaciens. The text also describes the growth potential of crown gall tumors and crown gall teratoma; plasmid studies in crown gall tumorigenesis; and the biology and microbiology of Agrobacterium rhizogenes. The recognition in rhizobium-legume symbioses; the rhizobium bacteroid state; and the exchange of metabolites and energy between legume and rhizobium are also considered. The book further tackles the mutants of rhizobium that are altered in legume interaction and nitrogen fixation; as well as the significance and application of Rhizobium in agriculture. Botanists, agriculturists, geneticists, molecular biologists, microbiologists, plant pathologists, and agronomists will find the book invaluable.