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A proper understanding of the structural organization of the plant body is essential to any study in plant biology. Experimental studies in vivo and in situ will lead to structural, physiological, and cellular changes of the experimental material. To study macroscopic and microscopic changes, different histological methods and microtechniques can be used as they provide valuable information of the experimental system. In addition, the observed structural changes allow investigators to set hypothesis for further studies based on one’s own observation. Thus, proper selection and utilization of microtechniques are a must for the success of a research program. At present, an up-to-date collection of protocols are not readily available in the literature. The latest work in plant microtechniques was published in 1999 by Ruzin but many others are no longer in print [e.g., Jensen (1964); O’Brien and McCully (1981)]. Furthermore, a majority of published works focus on techniques related to general processing and staining procedures. A comprehensive treatment that encompasses broader applications of microtechniques to other disciplines is lacking [e.g., archeology, wood science, etc.]. There is a need to create a comprehensive volume of botanical methods and protocols which includes traditional and novel techniques that can be used by researchers in plant science and investigators in other disciplines that require plant microtechniques in their research and teaching. This book covers a wide variety of applications and brings them up-to-date to make them understandable and relevant, especially to students using the methods for the first time. It is our intention to create a useful reference for plant histology and related methods that will serve as a foundation for plant scholars, researchers, and teachers in the plant sciences.​
Plant microtechnique has generated renewed interest in recent years, due in part to the need for molecular biologists to visualize a gene or gene product in the context of the whole plant. Plant Microtechnique and Microscopy offers uniquely in-depth coverage of this reinvigorated field. Thoroughly covering classical aspects of microscope slide preparation, it goes a step beyond all other available manuals by also documenting the theory and practice of modern applications. The text opens with single-page "Quick Start" protocols that provide students with fundamental instructions to complete eight of the most common microtechnique protocols used today. The following sections cover the theory and practice of microtechnique. The traditional paraffin method is demonstrated by explicit step-by-step protocols, and theoretical background is incorporated to give students the tools required to design their own experiments and to interpret existing results. In addition, modern applications such as methacrylate embedding and sectioning, microwave tissue processing, fluorescence histochemistry, and in situ hybridization are discussed in detail. The manual also contains a definitive chapter on microscopy and describes, in both text and diagrams, the optical principles of techniques such as phase contrast and DIC as well as confocal and deconvolution wide-field microscopy. Appendices on laboratory practice (chemical toxicities, common calculations, and buffer tables), an extensive appendix on optics and its application to the microscope, and an extensive bibliography of over 550 references are also included. Ideal for courses in plant biology, Plant Microtechnique and Microscopy also serves as an indispensable reference for all students of microscopy, histology, and histological technique. It is a valuable addition to every biological laboratory.
Plant-associated microbes are ubiquitous organisms living in a range of interactions with their host. Involving two organisms, research and applications of plant microbes are challenging and often require specific skills. This book guides the reader in the word of plant-associated fungi, giving both theoretical and practical insight on the potential of this interaction in biotechnology. Detailed instructions and step-by-step protocols are described for isolation, identification, localization and community analysis of fungi, studies on their bioactivity, molecular plant-fungal interactions, and development of fungi as tools for biotechnology.
This handbook presents a compilation of plant histopathology laboratory practices and microscopy techniques for study plant tissues under biotic stress. It will serve as an easy-to-reference material for professors, undergraduate and graduate students and researchers from different areas who work with the interaction between plants and pathogens, whether they are fungi, viruses or bacteria. Besides, it will also help unveil the structural, ultrastructural and histochemical changes induced by plants when challenged by plant pathogens.
1 MICROSCOPY 2 MICROSCOPES 3 DOCUMENTATION OF IMAGES OBTAINED IN MICROSCOPY 4 MICROTECHNIQUE Appendix Glossary References Index
Mycorrhiza - symbiotic associations between plant roots and fungi - play a major role in many fundamental plant functions such as mineral nutrition or stress resistance. As the link between plants and the soil, mycorrhiza are now of great interest for developing new strategies in sustainable agriculture. Since they allow a decreased use of fertilizer and pesticides, negative impacts on the environment can be minimized. With contributions from renowned international scientists, this manual offers a great variety of practical protocols for analyzing mycorrhiza, including the latest molecular, biochemical, genetical, and physiological techniques.
The 1,150 pages contain more information than any other comparable book. It is not a glossary or dictionary or review because all concepts are explained, not just defined or mentioned.Covers the latest developments, usually missed in textbooks and monographs.The broad range of modern genetics, of cell and molecular biology, biometry, etc. are included without glossing over the classical foundations.The hundreds of simple and clear illustrations are vey useful for classroom purposes because they can be drawn on the blackboard or projected on a screen without taking much time to make the crucial points.The cross-references among the entries tie the contents into an extremely useful comprehensive textbook.The concise style leads the reader to the point without verbiage.The etymology of the terms is explained.The text is not intimidating and it is very easy to read because all the terms are explained within the book. Most of the biometrical procedures are presented by worked-out examples in a plain form, rarely or not found at all in other books.It effectively reaches out to non-geneticists without compromising high scientific standards. Usually the most essential features of a concept are presented at the beginning of the entry, and the reader can go as far as she/he feels needed about the logic.The WEB and e-mail addresses of databases and other sources of detailed information are very helpful.A well selected list of about 1000 references, published mainly in the last couple of years, completes the volume.The moderate price makes it a best buy, and an excellent choice to own for students, teachers, scientists, physicians, lawyers and all educated persons who cannot afford an entire library yet wish to be well informed.