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Mapping of animal genomes has generated huge databases and several new concepts and strategies, which are useful to elucidate origin, evolution and phylogeny. Genetic and physical maps of genomes further provide precise details on chromosomal location, function, expression and regulation of academically and economically important genes. The series Genome Mapping and Genomics in Animals provides comprehensive and up-to-date reviews on genomic research on a large variety of selected animal systems, contributed by leading scientists from around the world. This volume summarizes the first era of genomic studies of aquaculture species, in which the tools and resources necessary to support whole-genome sequencing were developed. These tools will enhance efforts toward selective breeding of aquaculture species. Included in this volume are summaries of work on salmonids, cyprinids, catfish, tilapias, European sea bass, Japanese flounder, shrimps and oysters.
Mapping of animal genomes has generated huge databases and several new concepts and strategies, which are useful to elucidate origin, evolution and phylogeny. Genetic and physical maps of genomes further provide precise details on chromosomal location, function, expression and regulation of academically and economically important genes. The series Genome Mapping and Genomics in Animals provides comprehensive and up-to-date reviews on genomic research on a large variety of selected animal systems, contributed by leading scientists from around the world. Laboratory animals are those species that by accident of evolution, domestication and selective breeding are amenable to maintenance and study in a laboratory environment. Many of these species are studied as 'models' for the biology and pathology of humans. Laboratory animals included in this volume are sea-urchin, nematode worm, fruit fly, sea squirts, puffer fishes, medaka fish, African clawed frog, mouse and rat.
Genomics research on animals has generated huge databases and several new concepts and strategies, which are used to elucidate origin, evolution and phylogeny of species. Genetic and physical maps of genomes give details on chromosomal location, function, expression and regulation of genes. The series Genome Mapping and Genomics in Animals provides comprehensive and up-to-date reviews on genomic research on selected animal systems contributed by leading scientists from around the world. This volume offers information on gene mapping and genomics research in domesticated and farmed animals including cattle, water buffalo, sheep, deer, poultry, turkeys, rabbits, dogs and pigs. While the genome maps for some species are very limited, full genome sequences are available for cattle, chickens and dogs. Genomic research contributes to the identification of genetic regions that control the functionality and well-being of animals. Several farmed species are also used as models for biomedical studies.
Following the extremely well-received structure of the firstedition, this carefully revised and updated new edition nowincludes much new information of vital importance to those workingand researching in the fisheries and aquaculture industries. Commencing with chapters covering genetic variation and how itcan be measured, the authors then look at genetic structure innatural populations, followed by a new chapter covering genetics inrelation to population size and conservation issues. Geneticvariation of traits and triploids and the manipulation of ploidyare fully covered, and another new chapter is included, entitled'From Genetics to Genomics'. The book concludes with a chaptercovering the impact of genetic engineering in aquaculture. With the inclusion of a wealth of up-to-date information, newtext and figures and the inclusion of a third author, PierreBoudry, the second edition of Biotechnology and Genetics inFisheries and Aquaculture provides an excellent text andreference of great value and use to upper level students andprofessionals working across fish biology, aquatic sciences,fisheries, aquaculture, genetics and biotechnology. Libraries inall universities and research establishments where biologicalsciences, fisheries and aquaculture are studied and taught shouldhave several copies of this excellent new edition on theirshelves. Completely updated, revised and expanded new edition Subject area of ever increasing importance Expanded authorship Commercially useful information for fish breeders
The series "Genome Mapping and Genomics in Animals" provides comprehensive and up-to-date reviews on genomic research on a large variety of selected animal systems, contributed by leading scientists from around the world. The huge amount of information hitherto dispersed in journals is now available in this clearly structured reference work. Arthropods covered here include honeybee, bumblebee, the parasitic Jewel Wasp, silkworm, pea aphid, mosquito, Hessian fly and tick.
Marine Bivalve Molluscs is a comprehensive and thoroughlyupdated second edition of Bivalve Molluscs, covering allmajor aspects of this important class of invertebrates. As well asbeing an important class biologically and ecologically, many of thebivalves are fished and cultured commercially (e.g. mussels,oysters, scallops and clams) in a multi-billion dollar worldwideindustry. Elizabeth Gosling has written a landmark book that will stand formany years as the standard work on the subject. Chapters inMarine Bivalve Molluscs cover morphology, ecology, feeding,reproduction, settlement and recruitment, growth, physiology,fisheries, aquaculture, genetics, diseases and parasites, andpublic health issues. A full understanding of many of these aspectsis vital for all those working in bivalve fisheries andculture. An essential purchase for anyone concerned with this importantclass of animals, copies of Marine Bivalve Molluscs shouldbe on the shelves of biologists, ecologists, environmentalscientists, fisheries scientists and personnel within theaquaculture industry. Copies of the book should be available in alllibraries and research establishments where these subjects arestudied or taught. Reviews of the First Edition • An admirable achievement... a valuable addition to marinesciences libraries everywhere. The back cover of this book saysthat it is a landmark text that will stand for many years as thestandard work on this subject. I can only agree with thissentiment. Aquaculture • A welcome addition to the literature and provides thereader with a comprehensive overview of biological andenvironmental factors that affect and control both naturalpopulations of marine bivalves and culture operations.Aquaculture International • The author has done an admirable job in compiling a wealthof information into a readable text. Transactions of theAmerican Fisheries Society • Will serve well as a description of much of both theexperimental biology and the aquaculture of bivalves. Journal ofExperimental Marine Biology and Ecology • Provides excellent reviews of all major aspects…anextremely important reference for anyone engaged in bivalveresearch, fisheries management, and aquaculture. QuarterlyReview of Biology • The book is very readable, in an easy style. It is wellillustrated and there is a wealth of data and statistics presented.Bulletin of The Malacological Society of London
Marine biology has always played an important role in biological research, being at the origin of many key advances. To a certain extent, the influence of marine biology on the biological sciences was overshadowed over a period of several years by the remarkable advances that were made using powerful model organisms from terrestrial environments. This situation is now changing again, however, due primarily to spectacular developments in genomic methodologies that have significantly accelerated research in a broad spectrum of marine biology disciplines ranging from biodiversity to developmental biology to biotechnology. The data generated by marine genomics projects have had an impact on questions as diverse as understanding planetary geochemical cycles, the impact of climate change on marine fauna and flora, the functioning of marine ecosystems, the discovery of new organisms and novel biomolecules, and investigation of the evolution of animal developmental complexity. This book represents the first attempt to document how genomic technologies are revolutionising these diverse domains of marine biology. Each chapter of this book looks at how these technologies are being employed in a specific domain of marine research and provides a summary of the major results obtained to date. The book as a whole provides an overview of marine genomics as a discipline and represents an ideal starting point for exploring this rapidly developing domain.
With wild stocks declining due to over-fishing, aquaculture will have a more significant role to play in meeting future demand for fresh fish. Developments in research continue to lead to improvements in aquaculture production systems, resulting in increased production efficiency, higher product quality for consumers and a more sustainable industry. New technologies in aquaculture reviews essential advances in these areas.Part one focuses on the genetic improvement of farmed species and control of reproduction, with chapters on genome-based technologies in aquaculture research, selective breeding and the production of single sex and sterile populations, among other topics. Parts two and three review key issues in health, diet and husbandry, such as the control of viral and parasitic diseases, diet and husbandry techniques to improve disease resistance, advances in diets for particular fish species and the impact of harmful algal bloom on shellfisheries aquaculture. Chapters in Parts three and four then examine the design of different aquaculture production systems, including offshore technologies, tank-based recirculating systems and ponds, and key environmental issues, such as the prediction and assessment of the impact of aquaculture. Concluding chapters focus on farming new species.With its well-known editors and distinguished international team of contributors, New technologies in aquaculture is an essential purchase for professionals and researchers in the aquaculture industry. - Reviews recent advances in improvements in aquaculture production - Focuses on the genetic improvement and reproduction of farmed species, including genome-based technologies - Discusses key health issues, including advances in disease diagnosis, vaccine development and other emerging methods to control pathogens in aquaculture
Genomics has revolutionized biological research over the course of the last two decades. Genome maps of key agricultural species have offered increased understanding of the structure, organization, and evolution of animal genomes. Building upon this foundation, researchers are now emphasizing research on genome function. Published with the World Aquaculture Society, Functional Genomics in Aquaculture looks at the advances in this field as they directly relate to key traits and species in aquaculture production. Functional Genomics in Aquaculture opens with two chapters that provide a useful general introduction to the field of functional genomics. The second section of the book focuses on key production traits such as growth, development, reproduction, nutrition, and physiological response to stress and diseases. The final five chapters focus on a variety of key aquaculture species. Examples looking at our understanding of the functional genomes of salmonids, Mediterranean sea bass, Atlantic cod, catfish, shrimp, and molluscs, are included in the book. Providing valuable insights and discoveries into the functional genomes of finfish and shellfish species, Functional Genomics in Aquaculture, will be an invaluable resource to researchers and professionals in aquaculture, genetics, and animal science.
Many invertebrates are serious pests of agriculture (e.g., mites and locusts), vectors of disease (e.g., mosquitoes and aquatic snails) and venomous (e.g., scorpions), whilst others are beneficial to humans as pollinators, food sources, and detritivores. Despite their obvious ecological, medical, and economic importance, this is the first comprehensive review of invertebrate diseases to be available within a single volume. Concurrent molecular and bioinformatics developments over the last decade have catalysed a renaissance in invertebrate pathology. High-throughput sequencing, handheld diagnostic kits, and the move to new technologies have rapidly increased our understanding of invertebrate diseases, generating a large volume of fundamental and applied research on the topic. An overview is now timely and this authoritative work assembles an international team of the leading specialists in the field to review the main diseases and pathologic manifestations of all the major invertebrate groups. Each chapter adopts a common plan in terms of its scope and approach to achieve a succinct and coherent synthesis. Invertebrate Pathology is aimed at graduate students and researchers in the fields of disease ecology, invertebrate biology, comparative immunology, aquaculture, fisheries, veterinary science, evolution, and conservation. It will be particularly useful for readers new to the field as well as a broader interdisciplinary audience of practitioners and resource managers.