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Of all vertebrates, fish exhibit unparalleled diversity of sexual plasticity and flexibility, ranging from gonochorism to unisexualism, and exceptional patterns of functional hermaphroditism. Fish farming and monosex aquaculture have led to reproductive dysfunction with males producing less milt, and females failing to ovulate and spawn. This book brings together relevant information on the role of the endocrine system on sexual differentiation in fish, and bridges the gap between molecular endocrinologists and fishery scientists.
Fish constitute an important natural renewable resource and any reduction in their ability to propagate as a result of human interference may have significant socioeconomic consequences. The negative effect of human activity on sex differentiation and reproductive output in fish is so diverse that it has been difficult to encompass it in a single b
Awarded Bookauthority's "Best Aquaculture Books of all Time" A comprehensive resource that covers all the aspects of sex control in aquaculture written by internationally-acclaimed scientists Comprehensive in scope, Sex Control in Aquaculture first explains the concepts and rationale for sex control in aquaculture, which serves different purposes. The most important are: to produce monosex stocks to rear only the fastest-growing sex in some species, to prevent precocious or uncontrolled reproduction in other species and to aid in broodstock management. The application of sex ratio manipulation for population control and invasive species management is also included. Next, this book provides detailed and updated information on the underlying genetic, epigenetic, endocrine and environmental mechanisms responsible for the establishment of the sexes, and explains chromosome set manipulation techniques, hybridization and the latest gene knockout approaches. Furthermore, the book offers detailed protocols and key summarizing information on how sex control is practiced worldwide in 35 major aquaculture species or groups, including fish and crustaceans, and puts the focus on its application in the aquaculture industry. With contributions from an international panel of leading scientists, Sex Control in Aquaculture will appeal to a large audience: aquaculture/fisheries professionals and students, scientists or biologists working with basic aspects of fish/shrimp biology, growth and reproductive endocrinology, genetics, molecular biology, evolutionary biology, and R&D managers and administrators. This text explores sex control technologies and monosex production of commercially-farmed fish and crustacean species that are highly in demand for aquaculture, to improve feed utilization efficiency, reduce energy consumption for reproduction and eliminate a series of problems caused by mixed sex rearing. Thus, this book: Contains contributions from an international panel of leading scientists and professionals in the field Provides comprehensive coverage of both established and new technologies to control sex ratios that are becoming more necessary to increase productivity in aquaculture Includes detailed coverage of the most effective sex control techniques used in the world's most important commercially-farmed species Sex Control in Aquaculture is the comprehensive resource for understanding the biological rationale, scientific principles and real-world practices in this exciting and expanding field.
This book is dedicated to present different aspects of reproductive physiology and molecular endocrinology of commercially important as well as potential aquaculture fish species. The existing aquaculture generation is looking for species diversification for efficient utilization of available diverse water resources. The knowledge of reproductive physiology of fish will help in development of breeding strategy for use in commercial aquaculture. Reproductive system is highly coordinated and governed by means of complex network of nervous, endocrine system and environmental factor as well. This book emphasize on different key aspects of reproductive endocrine system such as basic gonadal biology in the events of climate vulnerability, sex determination, sex reversal, stimulatory hormones, inhibitory hormones and receptors, environmental and chemical factor guiding reproduction, puberty, neuroendocrine regulation of reproduction etc. This book further describes how reproduction is not just indispensable for the existence or survival of an individual, but it is important for the survival of species. Chapters also address the concerns of anthropogenic activities on fish and the aquatic environment lead main trouble on physiological and reproductive processes of aquatic animals. This book offers an attractive compilation of highly relevant aspects of current and future of aquaculture, especially in view of the growing awareness of aquaculture, to food scientists working on commercial fish, animal biologists, fish geneticists etc. This book is very timely, and relevant to the sustainable development goals. The contents would be relevant to policy makers, working towards blue revolution and blue economy.
Environmental pollutants are suspected of causing observed adverse effects on development and reproduction in fish and wildlife. Evidence from the laboratory and field suggests that low levels of synthetic or natural chemicals that modulate or disrupt endocrine processes may be responsible. The aquatic environment is a sink for most all potential endocrine disrupting chemicals (EDCs). From egg fertilization to spawning, fish may be exposed to complex mixtures of steroidogenic chemicals that can interfere with the important activational and organizational processes of their endogenous hormones. One consequence of exposure to EDCs may be disruption of the normal mechanisms of sexual development and differentiation, processes that are highly hormone dependent, with subsequent adverse effects on reproduction. My experiments address the hypothesis that exposure to EDCs during early ontogeny affects sexual development and differentiation in fish manifest at maturation. The dr-R strain of medaka was used as the test organism because of qualities that make it a good laboratory animal model and because it possesses a sex-linked gene for body color allowing visual determination of genetic sex from hatch. Medaka were exposed in ovo by nano-injection to five chemical compounds known or suspected to be hormone mimics or disruptors. Details of the effects resulting from exposure to the synthetic sex steroids ethinyl estradiol (EE 2) and methyl testosterone (MT) provided a reference and established a model for predicting effects of in ovo exposure to chemicals which mimic estrogens and androgens. Effects on medaka exposed to the EDCs, o, p ' -DDE and 2,3,7,8-tetrachlorodibenzo-p-dioxin (TCDD), and three mixtures of polychlorinated naphthalenes (PCN), which have not been tested for their endocrine disrupting potential, were also investigated. In ovo exposure to 0.5 and 2.5 ng EE 2 /embryo or 0.8 and 8.0 ng MT/embryo affected sexual differentiation by causing sex reversal in males and females, respectively. Sexual development of male and female gonads was also affected at these doses. Most notably, all doses of MT resulted in precocious maturation of male and female medaka. Effects on sexual differentiation of the gonads were not as apparent for o, p ' -DDE, TCDD, and the PCNs as were effects on sexual development. Observed effects of these chemicals included one or more abnormalities: histopathological lesions (e.g., atresia), reduced gonad size, and changes in primary germ cell numbers along with volume of primordial gonads. Results for these chemicals together with other's field and laboratory observations provide further evidence that environmental EDCs may be adversely affecting reproduction and development of wild fishes. These results also support the utility of laboratory studies with the dr-R medaka model within the framework of a weight-of-evidence approach to establish a cause-and-effect relationship between environmental exposure to EDCs and reproductive impairment at the individual and population levels.
A comprehensive study of sex differentiation gonochoric and hermaphroditic fishes, this book examines sex chromosomes and sex determining genes, emphasizing the need to search for more than one sex-determining gene residing on different chromosomes. It traces the origin of hermaphrodites from secondary gonochores and explains the conservation of ho
Timely title assembling the combined knowledge of some of the leading authorities in the field of small fish reproduction - an important topic for risk assessment and registration of chemical, agricultural, and pharmaceutical compounds Provides guidance on the microscopic structure of living tissue and evaluation of the reproductive glands of small laboratory fish Includes state-of-the-art science along with sufficient anatomical and physiological background for understanding and interpreting test results Helps standardize the interpretation of results from aquatic bioassays and field observations, which will also clarify inconsistencies in the current scientific literature Note: CD-ROM/DVD and other supplementary materials are not included as part of eBook file.
Hormones and Reproduction of Vertebrates, Volume 1: Fishes is the first of five second-edition volumes representing a comprehensive and integrated overview of hormones and reproduction in fishes, amphibians, reptiles, birds, and mammals. The book includes coverage of endocrinology, neuroendocrinology, physiology, behavior, and anatomy of fish reproduction. It provides a broad treatment of the roles of pituitary, thyroid, adrenal, and gonadal hormones in all aspects of reproduction, as well as descriptions of major life history events. New to this edition is a concluding assessment of the effect of environmental influences on fishes. Initial chapters in this book broadly examine sex determination, reproductive neuroendocrinology, stress, and hormonal regulation as it relates to testicular and ovarian development and function. Subsequent chapters examine hormones and reproduction of specific taxa, including agnathan, chondrichthyan, and sarcopterygian fishes. The book concludes with an examination of the environmental influences on hormones and reproduction of fishes, including endocrine-disrupting chemicals and climate change. Hormones and Reproduction of Vertebrates, Volume 1: Fishes is designed to provide a readable, coordinated description of reproductive basics in fishes, as well as an introduction to the latest trends in reproductive research and a presentation of our understanding of reproductive events gained over the past decade. It may serve as a stand-alone reference for researchers and practitioners in the field of ichthyology or as one of five coordinated references aligned to provide topical treatment across vertebrate taxa for researchers, practitioners, and students focused on vertebrate endocrinology. Covers endocrinology, neuroendocrinology, physiology, behavior, and anatomy of fish reproduction Includes pituitary, pineal, thyroid, adrenal, and gonadal hormones Focuses on teleosts as well as information on agnathan, chondrichthyan, and sarcopterygian fishes Provides new coverage on endocrine-disrupting chemicals, microplastics, and climate change
Comparative endocrinology is one of the most rapidly developing subdis ciplines within the field of endocrinology, and it is having a significant impact on research at the molecular, cellular, organisma1 and environmental levels. Much of the current ferment in endocrinology is in reproductive endocrinology. The purpose of this volume on hormones and reproduction in fishes, amphibians and reptiles is to summarize our present understandings and to identify important research problems to be addressed in the area of comparative reproductive endocrinology. It was inspired by the gathering at Copper Mountain, Colorado, of eminent endocrine scientists from around the world on the occasion of the Tenth International Symposium on Comparative Endocrinology in July, 1985. While preparing for that meeting, we decided that a special volume on reproductive endocrinology was needed to summarize what is known and to stimulate research in particular directions. Why do we emphasize fishes, amphibians and reptiles? First, knowledge about the reproductive endocrinology of these ectothermic vertebrates can provide a clearer picture of the evolution of reproductive hormones and their effects on target organs. This comparative approach can lead to new theories about the evolution of reproductive control mechanisms. Second, studies concerning the reproductive endocrinology of "lower" vertebrates can result in development of "model systems" for application to studies of birds and mammals. Indeed, information about the patterns of reproductive control in ectothermic vertebrates can tell us which are evolutionarily stable and which are labile.