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Authored by an integrated committee of plant and animal scientists, this review of newer molecular genetic techniques and traditional research methods is presented as a compilation of high-reward opportunities for agricultural research. Directed to the Agricultural Research Service and the agricultural research community at large, the volume discusses biosciences research in genetic engineering, animal science, plant science, and plant diseases and insect pests. An optimal climate for productive research is discussed.
This field manual is designed to provide background and instruction on a broad spectrum of techniques and their use in the evaluation of entomopathogens in the field. The second edition provides updated information and includes two additional chapters and 12 new contributors. The intended audience includes researchers, graduate students, practitioners of integrated pest management (IPM), regulators and those conducting environmental impact studies of entomopathogens.
Hemp is enjoying a worldwide resurgence. This book combines a useful review of the hemp pest and disease literature published over the past 50 years, with up-to-date information on modern biological control techniques. Each pest and disease organism is presented in the same format, covering range and economic impact, symptoms, life history, diagnosis, and both new and old techniques for biological control and chemical control. Easy to use keys are included for rapid identification of the most common pests. Introductory chapters describe the general principles of plant protection, requirements for healthy plant growth, and taxonomy of parasites and pathogens.
The 38 chapters of this Field Manual provide the tools required for planning experiments with entomopathogens and their implementation in the field. Basic tools include chapters on the theory and practice of microbial control agents, statistical design of experiments, equipment and application strategies. The major pathogen groups are covered in individual chapters (virus, bacteria, protozoa, fungi, nematodes). Subsequent chapters deal with the impact of naturally occurring and introduced exotic pathogens and inundative application of microbial control agents. The largest section of the Manual is composed of 21 chapters on the application and evaluation of entomopathogens in a wide range of agricultural, forest, domestic and aquatic habitats. Mites and slugs broaden the scope of the book. Supplementary techniques and media for follow-up laboratory studies are described. Three final chapters cover the evaluation of Bt transgenic plants, resistance to insect pathogens and strategies to manage it, and guidelines for evaluating the effects of MCAs on nontarget organisms. Readership: Researchers, graduate students, practitioners of integrated pest management, regulators, those doing environmental impact studies. The book is a stand-alone reference, but is also complementary to the laboratory-oriented Manual of Techniques in Insect Pathology and similar comprehensive texts.
Price collapse and oversupply have made coffee a high-profile crop in recent years: never has efficient production and crop protection been more important for reducing costs and increasing quality. Packed with illustrations, this book covers the origins, botany, agroecology and worldwide production statistics of coffee, and the insect pests, plant pathogens, nematodes and nutrient deficiencies that afflict it. With emphasis on integrated crop management, this book reviews control measures suitable for any coffee pest or disease and will enable agriculturists to design and implement sustainable pest management systems.
The proceedings of a 1979 conference on the application of mathematical tools and policy analysis to ecological problems such as insect pests, plant pathogens, and human disease organisms are presented by international contributors. Compares and contrasts different methods of control used in a number of research programs, and discusses how systems analysis techniques can increase the effectiveness of ecological, biological, and chemical approaches.
Insect Pathology is designed for a broad spectrum of readers. Is should be useful to students, lecturers, and researchers requiring information about the principles in insect pathology and the biology of pathogens. It should serve as a resource for specialists to learn about other insect pathogen systems, for generalists to become aware of advances in insect pathology, and for scientists and students, beginning or otherwise, interested in learning about insect pathology. This book was originally intended to update the 1949 test by E. A. Steinhaus entitled Principles of Insect Pathology. The purpose for this book was twofold: To serve (1) as a text for an insect pathology and/or biological control class and (2) as a comprehensive reference source. Because this book summarizes much of the available information, its usefulness as a textbook for an insect pathology class is apparent. Although the literature citations are extensive, they are far from complete. The literature in insect pathology is voluminous and for the past decade has been expanding at an almost exponential rate. A complete review of the literature is beyond the scope of the book, and an omission of a reference does not preclude its importance. Our citations, however, should serve as a good starting point for those who wish to obtain further information. We have attempted to cover equally all subdisciplines, but shortcomings are unavoidable. For these, we take full responsibility.
Tripartite interactions between symbiotically associated entomopathogenic bacteria, nematodes, and their hosts. The insect immune proteins and the regulation of their genes. Interaction of bacillus thuringiensis endotoxins with the insect midgut epithelium. Viral pathobiology in relation to insect control. Baculoviruses, vertebrate viruses, and cytoskeletons. Baculovirus enhancing proteins as determinants of viral pathogenesis. Invertebrate transposable elements in the baculovirus genome: characterization and significance. Genetic manipulation of the baculovirus genome for insect pest control. Insect resistance to viruses. Biology and mechanisms of insect-cuticle invasion by deuteromycete fungal pathogens. Host-parasitoid-pathogen interactions.
This manual was prepared for the diagnosis of insect diseases caused by infectious agents. The agents (or pathogens) included here are fungi, protozoans, bacteria, viruses, and rickettsias. The present work was prepared after much deliberation and discussion with students and teachers who felt a guide of this type would be valuable for diagnosing the microbial diseases of insects. It was modeled after a seminar given on the same subject at Berke ley, which had as its major goal the recognition and identification of insect pathogens for practical purposes. The present work in cludes numerous timesaving "short cuts" which were developed after years of experience of diagnosing insect diseases. Although emphasis is placed on identification, general back ground information on the various pathogens is also included. Thus, under each of the five groups of pathogens, the following topics are discussed: (1) various types of associations with insects, (2) defini tion and classification, (3) general life cycle, (4) characteristics of diseased insects, (5) factors affecting natural infections, (6) methods of examination, (7) isolation and cultivation, (8) important taxonomic characters, (9) tests for infectivity, (10) storage, (11) an illustrated key to the genera (or group in the case of viruses), and (12) literature, especially that pertaining to identification. Although often included with insect pathogens, entomogenous nematodes are not covered here since illustrated keys to those gen era that infect insects are already available (Poinar, 1975, 1977).