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The strongest IP in history has appeared. From Taiwan Future World Center. The ultimate answer to human life that human beings around the world are waiting for.
View Rights PortalThe strongest IP in history has appeared. From Taiwan Future World Center. The ultimate answer to human life that human beings around the world are waiting for.
View Rights PortalWe are a Japanese publisher of Light Novels, Comics, Literary Fiction, and Picture Books for children. Our titles are translated and distributed by our licensee in 8 countries in Asia, China, Europe and the US.Our publication consist of two companies: 1) MICRO MAGAZINE(MM), and 2) Kill Time Communication (KTC).
View Rights PortalPlants have evolved both general and highly specialized defence mechanisms that function to prevent diseases caused by the majority of microbial pathogens they encounter. Highly specialized defence is governed by specific interactions between pathogen avr (avirulence) genes' loci and alleles of the corresponding plant disease resistance (R) loci. These defences can be very dynamic as microbes from the same species can act differently in their co-evolution with the specific host plant, which in turn has similarly evolved its response to external threats. There have been major developments in the field of plant-microbe interactions in recent years, due to newly developed techniques and the availability of genomic information. Molecular Plant-Microbe Interactions explores these new discoveries, focusing primarily on the mechanisms controlling plant disease resistance, the cross-talk among the pathways involved and the strategies used by the pathogens to suppress these defences. By exploring developments in plant defences, pathogen's counter-defences and mutually beneficial plant-microbe interactions, this book will be useful for researchers and students in plant pathology and plant biology-related areas.
Despite many books on plant invasions, none has focused on the role of species interactions. This book is a comprehensive overview of how plant invasions are mediated by varied species interactions and how such invasions influence this important component of biodiversity which involves the interactions (the 'glue') among a community's species. Besides highlighting relevant findings, the book digs deeply into new methodologies to understand species interactions in plant invasions and how this can improve management of invaded communities. The book covers: - Main theories/hypotheses in plant invasion ecology that invoke species interactions - Plant invasions promoted by mutualistic interactions and release from enemies - Antagonistic interactions preventing or hindering plant invasions - Consequences of plant invasions on native species interactions and ecosystem functioning - The interaction network approach to understanding plant invasions - Importance of considering species interactions in managing plant invasions Future avenues of research are highlighted in a final chapter. Table of contents Part I: Background Chapter 1: Plant invasions: the role of biotic interactions – An overview Chapter 2: The role of biotic interactions in invasion ecology: theories and hypotheses Part II: Positive and negative interactions in the soil Chapter 3: Soil biota and non-native plant invasions Part III: Mutualistic interactions that promote plant invasions Chapter 4: Pollination interactions promoting plant invasions- Chapter 5: Seed dispersal interactions promoting plant invasions Chapter 6: Ungulates as dispersal vectors of non-native plants Chapter 7: The role of plant-plant facilitation in non-native plant invasions Chapter 8: How direct and indirect non-native interactions can promote plant invasions, lead to invasional meltdown, and inform management decisions Part IV: Antagonistic interactions that hinder plant invasions Chapter 9: Biotic resistance to plant invasions Chapter 10: EICA 2.0: A general model of enemy release and defence in plant and animal invasions Chapter 11: The role of pathogens in plant invasions Chapter 12: Direct and indirect effects of herbivores influencing plant invasions Part V: Consequences of plant invasions for biotic interactions among native species Chapter 13: Impacts of non-native plants on plant-pollinator interactions Chapter 14: The effect of non-native plant invasions on seed dispersal of native plants Chapter 15: Allelopathic disruptions of biotic interactions due to non-native plants Chapter 16: Competition between native and non-native plants Chapter 17: Indirect biotic interactions between non-native plants and native plants and animals Part VI: Novel techniques and experimental approaches in the study of plant invasions Chapter 18: How a network approach has advanced the field of plant invasion ecology Chapter 19: Molecular ecology of plant-microbial interactions during invasions: progress and challenges Part VII: Biotic interactions and the management of ecosystems invaded by non-native plants Chapter 20: How can progress in the understanding of antagonistic interactions be applied to improve biological control of plant invasions? Chapter 21: Restoration of pollination interactions in communities invaded by non-native plants Chapter 22: Restoration of seed dispersal interactions in communities invaded by non-native plants Chapter 23: Multiple feedbacks due to biotic interactions across trophic levels can lead to persistent novel conditions that hinder restoration
It‘s a match?! The interaction check plays a key role when it comes to drug therapy safety. These index cards offer a way of keeping track and familiarising yourself with a wide variety of active ingredient combinations. The standardised structure of the case studies helps you learn • to understand the mechanism of interaction, • to assess the clinical relevance, and • to implement any necessary measures. The 2nd edition has not only been updated, but also expanded to include new cases. Thanks to a handy booklet, users can refer quickly to the theoretical principles.
Plant-parasitic nematodes are a major threat to crop production in all countries, and identification of nematodes and knowledge of their biology is of paramount importance. Providing a broad introduction to nematodes as plant parasites, this book begins by describing nematodes by genera, and then builds on this foundation to detail nematode biology and pest management, including resistance, and biological and chemical control. This 3rd edition is updated to address advances in our knowledge of plant-parasitic nematodes, particularly concerning the molecular aspects of host-parasite relationships, including the application of genomics to nematode biology. Changes in control and management strategies are also covered. The influence of climate change on plant-parasitic nematodes is addressed in a new chapter on ecology. Primarily aimed at students (MSc and PhD), this book is also invaluable for researchers and lecturers in nematology, plant pathology and parasitology, advisory and quarantine services, and crop protection scientists.
Based on a similarly named meeting in December 1999 organised by the British Society for Plant Pathology, this book considers the biology of interactions between host plants and the pathogens that infect them. This important topic has seen some significant advances in the past ten years, especially through the application of molecular techniques, which are extensively covered in this book.
This book reviews research into pathogenic fungi in a diverse selection of economically important crops, including fruits and cereals. The establishment and management of fungal plant diseases, using conventional and ecofriendly methods is discussed with an emphasis on the use of microorganisms and biotechnology. Chapters also examine the role of microbes in growth promotion, as bioprotectors and bioremediators and presents practical strategies for using microbes as well as botanicals in sustainable agriculture. Providing knowledge of plant-pathogen interactions, management strategies and techniques, this will be a useful resource for students, researchers and extension workers in biology and plant pathology.
Genetics has transformed plant pathology on two occasions: first when Mendelian genetics enabled the discovery that disease resistance was a heritable trait in plants, and secondly when Flor proposed the “gene-for-gene” hypothesis to explain his observations of plant-parasite interactions, based on his work on flax rust in North Dakota starting in the 1930s. Our knowledge of the genetics of disease resistance and host-pathogen coevolution is now entering a new phase as a result of the cloning of the first resistance genes. This book provides a broad review of recent developments in this important and expanding subject. Both agricultural and natural host-pathogen situations are addressed. While most of the book focuses on plant pathology, in the usual sense of the term embracing fungal, bacterial and viral pathogens, there is also consideration of parasitic plants and a chapter demonstrating lessons to be learnt from the mammalian immune system. Three overall themes are addressed: genetic analyses and utilization of resistance; population genetics; and cell biology and molecular genetics. Chapters are based on papers presented at the British Society for Plant Pathology Presidential meeting held in December 1995, but all have been revised and updated to mid-1996. Written by leading authorities from North America, Europe and Australia, the book represents an essential update for workers in plant genetics, breeding, biotechnology and pathology.
There have been major developments in the field of plant-microbe interactions in recent years, due to newly developed techniques and the availability of genomic information. Molecular Plant-microbe Interactions explores these new discoveries, focusing primarily on the mechanisms controlling plant disease resistance, the cross-talk among the pathways involved and the strategies used by the pathogens to suppress these defences. By exploring developments in plant defences, pathogen's counter-defences and mutually beneficial plant-microbe interactions, this book will be useful for researchers and students in plant pathology and plant biology-related areas.
The handling of drug interactions in the pharmacy has an important significance. A well-functioning interaction management system increases the safety of drug therapy for patients, promotes interdisciplinary exchange between physician and pharmacist, and boosts the skills of the local pharmacy. The author, an experienced practitioner, has developed standard templates for successfully communicating the most commonly occurring, clinically relevant interactions: - Decision aids in the form of flowcharts: When and how should the communication with the physician take place? - Aids to communication as sample forms that can be tailored to the individual pharmacy: What information does the physician need, what solutions does the pharmacy suggest? The forms cover both general interactions and specific interaction pairs and mechanisms: The appropriate solution for every interaction!
Covering the key techniques used when working with fungal plant pathogens, this practical manual deals with recognition of disease symptoms, detection and identification of fungi and methods to characterise them well as curation, quarantine and quality assurance. This new edition includes updates with respect to: Greater awareness and concern internationally about plant health and biosecurity Molecular biology - next generation sequencing and in field detection Improved opportunities for surveillance and detection in substrates, such as remote sensing Changes in taxonomy and reference to more current fungal plant pathogens New chapters on tree health, and public awareness, outreach and communications Fungal Plant Pathogens 2nd edition provides a valuable guide to investigating fungal plant diseases and interpreting laboratory findings for postgraduate and advanced undergraduate students, extension plant pathologists, consultants and advisers in agriculture and horticulture and the food supply chain.
This companion to "The Business of Plant Breeding: Market-led Approaches to Plant Variety Design in Africa contains experiences from postgraduate educators training the next generation of African plant breeders and professional breeders that are implementing best practices in Demand-Led Breeding (DLB) in their current crop improvement programmes. It is written by highly experienced plant breeders representing several universities, national plant breeding programmes, regional and international agricultural research institutes in Africa, together with expert breeders from Australia and developers from private seed companies. It includes specifically points of learning from real implementation situations from crop breeding programmes in NARS and IARCs in Africa, Australia and internationally. It shares experiences on improving tropical crops, strengthening understanding on how to overcome challenges in designing new crops to increase smallholder farmer adoption and advocating best practices. It also presents five case studies on tropical crops, and discusses the need for an enabling policy environment and the changes needed for Africa to achieve its ambition for food security and Africa's vision 2063.
Human-Animal Interactions (HAI) are a primary welfare interest to both animal scientists and practitioners. In zoos and aquariums, the study of Animal-Visitor Interactions (AVI), including both the impact of visitors on animals (the visitor effect) and the impact of animals on visitors (the visitor experience), have become a focus for understanding HAIs in zoos. The study of HAIs in zoos has grown to consider a number of factors, including animal-staff interactions and bonds, modern exhibit design and technology, direct and indirect interactions, as well as positive and negative impacts on both animals and visitor alike. This thought-provoking book summarizes the latest research concerning the impacts of HAIs in zoos, including considerations for conducting research and managing HAIs. The book: Explores the interactions of animals with keepers, veterinary professionals, and other staff, and the effects of those interactions on the welfare of animals. Considers the impact of visitors on the well-being of animals. Covers the effects of interactions on education and the visitor experience. Outlines the use of technology to enhance experience, and improve animal welfare. Details theoretical, ethical, and practical considerations relevant to HAIs in zoos. An invaluable resource for animal behaviour and welfare scientists, students and practitioners, as well as anyone working with zoo animals.
Techniques for Work with Plant and Soil Nematodes is an up-to-date, comprehensive book covering the practicalities of working with and studying soil and plant nematodes. Written by an international team of experts, this book is highly illustrated and provides thorough coverage of methods whilst allowing for relevant information to be located quickly. It includes the fundamental traditional techniques and new methodologies, covering: sampling; extraction; estimating numbers; handling, fixing, staining, mounting; culturing techniques; figure preparation, measurement and image processing; electron microscopy techniques; behavioural and physiological assays; and cytogenetic, biochemical and molecular biology techniques. This book is an essential resource for anyone involved in plant nematology needing to refer to a readily available methodology standard, including students of nematology and parasitology, university lecturers and researchers, diagnostic laboratories, and quarantine and advisory service personnel. It provides a much needed compendium of the spectrum of information needed to work with these microscopic organisms.
All aerial plant surfaces, including leaves, stems and flowers are inhabited by diverse assemblages of microorganisms, including filamentous fungi, yeasts, bacteria, and bacteriophages. These organisms have profound effects on plant health and thus impact on ecosystem and agricultural functions. This book is based on proceedings from the 8th International Symposium on the mircobiology of aerial plant surfaces, held in Oxford 2005. This is a five yearly conference which brings together international scientists and provides a unique opportunity to discuss developments in this field.
Interactions between medicines and foodstuffs may be just as clinically relevant as interactions between individual drugs. A single meal contains several hundred potentially interacting compounds that, in an individual patient, may be the deciding factor as to whether a treatment is successful or not. The resulting, sometimes serious risks are not known to most patients – nor to many physicians and pharmacists. This practical handbook enables anyone interested in applied pharmacotherapy to keep abreast of the complex field of drug interactions. The authors – proven experts in clinical pharmacology and pharmaconutrition – describe the most important interactions and give concrete recommendations for action. Tables and overviews permit fast access to potentially problematic combinations. This completely updated edition now also includes information about fruit juices and curcumin as well as a new chapter on food interactions in oncology.
As agricultural production increases to meet the demands of a growing world population, so has the pace of biotechnology research to combat plant disease. Diseases can be caused by a variety of complex plant pathogens including fungi, bacteria, viruses and nematodes, and their management requires the use of techniques in transgenic technology, biochemistry and genetics. While texts exist on specific pathogens or management practices, a comprehensive review is needed of recent developments in modern techniques and the understanding of how pathogens cause disease. This collection of studies discusses the key approaches to managing each group of pathogens within the context of recent developments in biotechnology. Broad themes include microbe-plant interactions, molecular diagnostics of plant pathogens and enhancing the resistance of plants.
Plants are the foundation of ecosystems. They convert energy from sunlight into carbohydrates, direct the cycling of nutrients, shape the hydrologic cycle, and influence weather. Many other ecologically important phenomena are the result of the interactions between plants, animals, fungi, and bacteria, and these natural processes reveal an amazing array of traits and strategies that have allowed plants to survive through the years. Plant Ecology, Second Edition explores these major ecological roles and dynamics of plants and their place in the environment. This reference is a vital tool for students and teachers of plant biology.
This book highlights the latest and most exciting technological tools for plant breeding that are becoming the staple of all crop improvement programs. Using case studies and an evidence-based approach to examine the current status of each technique, the book discusses the challenges so far uncovered and future trends. Crop improvement relies on modulating the genes and genomic regions underlying key traits, either directly or indirectly. Direct approaches include overexpression, RNA interference, and genome editing, while conventional breeding constitutes the indirect approach. The integration of cutting-edge tools and technologies has the potential to expedite improvements in crop species. Innovations such as next-generation sequencing, high-throughput genotyping, precision editing, and the utilization of space technology to accelerate growth have opened new avenues in crop improvement programs, aimed at delivering new crop varieties capable of resilience to a variety of challenges. The book presents a systematic guide to various genomics approaches deployed for trait discovery and improvement in crop species. The chapters comprehensively cover each application, its advantages, and disadvantages, and its potential for improvement, supported by illustrative examples. The book: · Emphasizes the latest scientific and technological tools which are becoming the norm in all major crop improvement programs · Explores innovative approaches and cutting-edge technologies utilized in the development and improvement of climate-resilient crops. · Each chapter is supplemented with ample illustrations to clarify and summarize the key points and provides an easy-to-understand overview of the most important concepts, applications and advances in crop improvement technologies.
After only 200 years, the field of genetics is young compared to how long plants and animals have inhabited the earth. What was once the scientific study of inherited traits has come to include the study of everything related to genes, the "building blocks of life," including their functions, structures, interactions, and sequences. Plant Genetics, Second Edition gives a detailed look at the genetics of plants through historical scientific achievements, discussions of genetic diversity, agricultural practices, and comparisons to animal and human genetics. A brief history provides a sketch of two genetic pioneers, Gregor Mendel and Barbara McClintock, who have left everlasting impressions on the field of plant genetics. A technical overview explains basic genetic terminology and fundamental processes. Details of some widely used methods in biotechnology are also included in an attempt to demystify certain aspects of genetic engineering. This reference is a vital tool for students and teachers.