Bacterial Wilt Disease and the Ralstonia Solanacearum Species Complex


Book Description

The bacterial wilt diseases caused by members of the Ralstonia solanacearum species complex have never been more important. The research presented in this volume reveals a pathogen on the move, with a growing global profile. While these diseases inflict ongoing and increasing crop losses on subsistence farmers, the pathogen now has significant political and economic impact in the developed world.This book, based on the 3rd International Bacterial Wilt Symposium, covers topics ranging from the basic biology of the host-pathogen interaction to applied research, designed to immediately address disease losses in the field. Contributors to the book span a broad range of applied and basic biologists. They work in all parts of the world, offering current data on sustainable low-tech disease control practices and on R. solanacearum as a model system for understanding molecular plant-microbe interactions.Bacterial Wilt Disease and the Ralstonia solanacearum Species Complex opens with two key reviews. One presents a thoughtful analysis of international collaborations on bacterial wilt research in the context of a review of literature published on the topic. The second is a global assessment of the current impact of bacterial wilt. Although there are still significant gaps in the data available, for the first time a general idea of the real impact and extent of these diseases around the world is presented.Topics covered in this resource include: epidemiology, disease management, breeding and deployment, host plant response and disease management, pathogen genetics, R. solanacearum in banana and plantains, and diversity and detection. Experts provide overviews focusing on the pressing research needs in each area. These overview chapters are intended to give the reader the best current understanding of the topic and to suggest promising directions for future research.Global Impact of R. solanacearum:R. solanacearum is a contentious topic in agricultural trade negotiations in the European Union and is subject to strict quarantine and eradication regulations in the United States. This legislation has had unforeseen economic impacts on laborers in developing nations where millions of ornamental plant cuttings are produced for the North American and European markets. In addition, reports at the 3rd International Bacterial Wilt Symposium indicated that the most rapid and alarming increases in bacterial wilt disease incidence around the world are on potatoes, bananas and plantains. More than ever, scientists who work with this pathogen must recognize that although bacterial wilt certainly can cause severe crop losses on a local scale, it also plays a complex and significant role in the worldwide agricultural matrix.




Bacterial Wilt Disease


Book Description

Jointly published with INRA, Paris. Bacterial wilt, caused by Ralstonia solanacearum, is a very destructive plant disease that attacks over 450 different species, including many of the most important economic crop plants. Often endemic, the bacterium transmits through the soil, penetrates the plant root system and eventually causes irreversible wilting and death. This book summarizes the current information on bacterial wilt for both the basic research community and for concerned professionals who are faced with the disease in the field, offering the latest approaches to diagnosis and control of the disease. Emphasis is placed on integrated and biologically sustainable control methods. Also presented is the most recent genetic/biochemical research exploring the interaction between the bacterium and its plant host at the molecular level.




Bacterial Wilt


Book Description

The hostsof Pseudomonas solanacearum; Diversity of Pseudomonas solanacearum and related bacteria in South East Asia: new directions for moko disease; advances in identification and detection of Pseudomonas solanacearum; Whole-genome analysis of Pseudomonads and its application to Pseudomonas solanacearum; Strain differential of Pseudomonas solanacearum by molecular genetic methods; Genomic figerprinting towards a unified view of the Pseudomonas solanacearum species complex; Strain characterization of Pseudomonas solanacearum based on membrane protein patterns; Systematics and phylogeny of Pseudomonas solanacearum: its molecular basis and potential function; Understanding bacterial wilt resistance in tomato through the use of DNA genetic markers; Advances in the control of Pseudomonas solanacearum race 1 in major food crops; Management of bacterial wilt of tobacco; Strategies for integrated control of bacteria vilt of potatoes; Resistance to bacterial wilt (Pseudomonas solanacearum) in tomato: present status and prospects; Biological control of bacterial wilt caused by Pseudomonas solalacearum: state of the art and understanding; Like with a mutable and treacherous tribe.




Genera Solanacearum


Book Description




A Revision of the Dulcamaroid Clade of Solanum L. (Solanaceae)


Book Description

This volume is a monograph of the 47 species of the Dulcamaroid clade of the large and diverse genus Solanum. Species in the group occur in North, Central and South America, and in Europe and Asia. The group is most species-rich in Peru and Brazil, and three of the component species, Solanum laxum of Brazil, Solanum seaforthianum of the Caribbean and and Solanum crispum of Chile are cultivated in many parts of the world. All species are illustrated and a distribution map of each is provided. All names are typified and nomenclatural and bibliographic details for all typifications presented. One new species from Ecuador is described. The monograph is the first complete taxonomic treatment of these species since the worldwide monograph of Solanum done by the French botanist Michel-Felix Dunal in 1852.




Peppers


Book Description

The group of plants called pepper is diverse, containing plants that contribute to the fresh and processed markets and are also used in pharmaceuticals and other non-food commercial products. Peppers developed in tropical regions, but are grown and used in every country where they can be grown and in countries where production is difficult. The book examines peppers from historical, genetic, physiological, production, and post-harvest standpoints following the development of the cultivated crop from the wild type. The diverse examples of pod types that have been developed and their variation in pungency are examined. Production methods, including the importance of fertilization and irrigation are discussed, as are the constraints on production, including pests, pathogens and weeds. Harvesting methods and the post-harvest challenges and opportunities, which exist at a level not found for other crops, will be explored.




Solanaceae and Convolvulaceae: Secondary Metabolites


Book Description

This comprehensive and interdisciplinary handbook provides a bird’s-eye view of two centuries of research on secondary metabolites of the two large Solanales families, Solanaceae and Convolvulaceae. In this book they’re arranged according to their biosynthetic principles, while the occurrence and chemical structures of almost all known individual secondary metabolites are covered, which are found in hundreds of wild as well as cultivated solanaceous and convolvulaceous species.




Plant-Associated Bacteria


Book Description

This volume is envisioned as a resource for researchers working with beneficial and harmful groups of bacteria associated with crop plants. The book is divided into two parts, with Part I on beneficial bacteria including chapters on symbiotic nitrogen fixers and rhizosphere bacteria. The second part consists of detailed descriptions of 8 genera of plant pathogenic bacteria, including Agrobacterium and Herbaspirillum. Each chapter covers terminology, molecular phylogeny and more. soft-rot, Pseudomonas, Xanthomonas, Ralstonia, Burkholderia and Acidovorax There is an opening chapter on the plant-associated bacteria survey, molecular phylogeny, genomics and recent advances. And each chapter includes terminology/definitions, molecular phylogeny, methods that can be used (both traditional and latest molecular tools) and applications




Phylonyms


Book Description

Phylonyms is an implementation of PhyloCode, which is a set of principles, rules, and recommendations governing phylogenetic nomenclature. Nearly 300 clades - lineages of organisms - are defined by reference to hypotheses of phylogenetic history rather than by taxonomic ranks and types. This volume will document the Real World uses of PhyloCode and will govern and apply to the names of clades, while species names will still be governed by traditional codes. Key Features Provides clear regulations for implementing new guidelines for naming lineages of organisms incorporates expressly evolutionary and phylogenetic principles Works with existing codes of nomenclature Eliminates the reliance on rank-based classification in favor of phylogenetic relationships Related Titles: Rieppel, O. Phylogenetic Systematics: Haeckel to Hennig (ISBN 978-1-4987-5488-0) Cantino, P. D. and de Queiroz, K. International Code of Phylogenetic Nomenclature (PhyloCode) (ISBN 978-1-138-33282-9).




The Wild Solanums Genomes


Book Description

This book gathers the latest information on the organization of genomes in wild Solanum species and emphasizes how this information is yielding direct outcomes in the fields of molecular breeding, as well as a better understanding of both the patterns and processes of evolution. Cultivated Solanums, such as potato, tomato, and pepper, possess a high number of wild relatives that are of great importance for practical breeding and evolutionary studies. Their germplasm is often characterized by allelic diversity, as well as genes that are lacking in the cultivated species. Wild Solanums have not been fully exploited by breeders. This is mainly due to the lack of information regarding their genetics and genomics. However, the genome of important cultivated Solanaceae such as potato, tomato, eggplant, and pepper has already been sequenced. On the heels of these recent developments, wild Solanum genomes are now becoming available, opening an exciting new era for both basic research and varietal development in the Solanaceae.