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Fish Neuroendocrinology Volume 28 - Fish Physiology
»óÇ°¸í : Fish Neuroendocrinology Volume 28 - Fish Physiology
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Fish Neuroendocrinology Volume 28 - Fish Physiology


Copyright 2009

Hardcover, Reference

Academic Press Title

ISBN: 9780123746313


Key Features

  • Highlights the specific properties of fish neuroendocrinology
  • Emphasises the range and variety of interactions between neurobiology and endocrinology
  • Discuses both anatomical and functional aspects of the Neuroendocrine system
  • Also serves comparative physiologists, endocrinologists, neuroanatomists and behaviourists interested in understanding the reciprocal actions between the nervous and endocrine systems


    Description

    The study of fish neuroendocrinology has had a significant impact on our general understanding of the functional roles and evolution of a variety of neurochemical messengers and systems. Not only do fish possess unique neuroendocrine features, they have also been and remain an important vertebrate models for the discovery of new neuropeptides. In the last fifty years, neuroendocrinologists have documented a complex and seemingly infinite number of interactions between hormones and nerve structures. Gradually emerging from this knowledge is an understanding of the specific neurohormonal pathways and the messengers responsible for maintaining homeostasis in an aquatic environment and for regulating the functional systems that allow for the highly diverse life histories and reproductive tactics of fish

    Despite its recent growth, breadth and unique attributes, there is no single text covering the discipline of fish neuroendocrinology. In fact, other than a few mammalian neuroendocrinology textbooks, there is a serious lack of texts in comparative neuroendocrinology. Currently, information on the anatomical organization and function of the various neuroendocrine systems in fish is only available in original research papers and reviews.

    By providing a current and comprehensive volume that highlights the specific properties of fish neuroendocrinology, this book will go beyond being the only reference text for fish neuroendocrinologists and will also serve comparative physiologists, endocrinologists, neuroanatomists and behaviourists interested in understanding the reciprocal actions between the nervous and endocrine systems.


    Table of Contents

    Section I: Anatomical Neuroendocrinology

    1. Neuroendocrine circuits of the fish brain
    Jose Miguel Cerda-Reverter and Luis Fabián Canosa

    2. Endocrine targets of the hypothalamus and pituitary
    Olivier Kah

    Section II: Functional Neuroendocrinology

    3. The GnRH system and the neuroendocrine regulation of reproduction
    Izhar A. Khan, Glen Van Der Kraak and Peter Thomas

    4. Growth hormone regulation in fish: a multifactorial model with hypothalamic, peripheral, and local autocrine/paracrine signals
    John Chang and Anderson Wong

    5. The neuroendocrine regulation of prolactin and somatolactin secretion in fish
    Shunsuke Moriyama and Hiroshi Kawauchi

    6. Regulation and contribution of the corticotropic, melanotropic, and thyrotropic axes to the stress response in fishes
    Nicholas Bernier, Peter Klaren and Gert Flik

    7. Neuroendocrine-immune interactions in teleost fish
    Lidy Verburg-van Kemenade, Ellen H. Stolte, Juriaan Metz, Magdalena Chadzinska

    8. The neuroendocrine regulation of fluid intake and fluid balance
    Yoshio Takei and Richard Balment

    9. The endocrine regulation of food intake
    Hélène Volkoff, Suraj Unniappan and Scott Kelly

    10. The neuroendocrine regulation of gut function
    Susanne Holmgren and Catharina Olsson

    Author Information

    By Nicholas J. Bernier, Department of Integrative Biology, University of Guelph, Ontario, Canada ; Glen Van Der Kraak, Department of Integrative Biology, University of Guelph, Ontario, Canada ; Anthony P. Farrell, Professor, Chair in Sustainable Aquaculture, UBC Centre for Aquaculture and Environmental Research (CAER), and Faculty of Land and Food Systems, Department of Zoology, University of British Columbia, Vancouver, Canada and Colin J. Brauner, Department of Zoology, University of British Columbia, Vancouver, Canada

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