Aquaculture Biotechnology

This important book looks at a broad spectrum of biotech
research efforts and their applications to the aquaculture
industry. Aquaculture Biotechnology provides key
reviews that look at the application of genetic, cellular, and
molecular technologies to enable fish farmers to produce a more
abundant, resilient, and healthier supply of seafood.
Aquaculture Biotechnology is divided into seven sections and
nineteen chapters that cover topics ranging from broodstock
improvement to fish health and gene transfer. With chapters
provided by leading researchers and skillfully edited by top
scientists in the field, this will be a valuable tool to
researchers, producers, and students interested in better
understanding this dynamic field of aquaculture.

Auteur

Garth L. Fletcher is Professor Emeritus and Director of the
Ocean Sciences Centre, Memorial University of Newfoundland, Canada.

Matthew L. Rise is Canada Research Chair in Marine
Biotechnology and Associate Professor at the Ocean Sciences Centre,
Memorial University of Newfoundland, Canada.

Résumé
This important book looks at a broad spectrum of biotech research efforts and their applications to the aquaculture industry. Aquaculture Biotechnology provides key reviews that look at the application of genetic, cellular, and molecular technologies to enable fish farmers to produce a more abundant, resilient, and healthier supply of seafood. Aquaculture Biotechnology is divided into seven sections and nineteen chapters that cover topics ranging from broodstock improvement to fish health and gene transfer. With chapters provided by leading researchers and skillfully edited by top scientists in the field, this will be a valuable tool to researchers, producers, and students interested in better understanding this dynamic field of aquaculture.

Contenu

Preface xi
Garth L. Fletcher and Matthew L. Rise

Contributors xv

Part 1: Broodstock Improvement 1

Chapter 1 Genomic Tools for Understanding the Molecular Basis of Production-Relevant Traits in Finfish 3
Marije Booman and Matthew L. Rise

Chapter 2 Advances in Genomics and Genetics of Penaeid Shrimp 21
Javier Robalino, Robert W. Chapman, Enrique de la Vega, Nuala A. O'Leary, Danielle M. Gorbach, Zhi-Qiang Du, Max F. Rothschild, Craig L. Browdy, Gregory W. Warr, and Yannick Labreuche

Chapter 3 Genetic and Genomic Approaches to Atlantic Halibut Broodstock Management 43
Michael Reith, Darrin Reid, Debbie Martin-Robichaud, and Tillmann Benfey

Chapter 4 Prospects and Pitfalls of Clonal Fishes in the Postgenomic Era 55
Barrie D. Robison and Gary H. Thorgaard

Part 2: Molecular Cytogenetics 69

Chapter 5 Application of Fluorescence in Situ Hybridization (FISH) to Aquaculture-Related Research 71
Ruth B. Phillips

Part 3: Fish Health 81

Chapter 6 The Application of Genomics, Proteomics, and Metabolomics to Studies of Fish Health 83
Stewart C. Johnson and Laura L. Brown

Chapter 7 Antimicrobial Peptides and Their Potential as Therapeutants in Aquaculture 105
Susan E. Douglas

Chapter 8 Adaptive Immunity in Finfish: A Physiological Perspective 121
Brian Dixon and Leandro A. Becker

Part 4: Viral Pathogens and Diseases 139

Chapter 9 Structural Biology and Functional Genomics of the Shrimp White Spot Syndrome Virus and Singapore Grouper Iridovirus 141
Jinlu Wu, Zhengjun Li, and Choy L. Hew

Chapter 10 DNA Vaccines for Viral Diseases of Farmed Fish and Shellfish 153
Jo-Ann C. Leong, Kristine Romoren, and Oystein Evensen

Part 5: Embryogenesis and Stem Cells 175

Chapter 11 Egg Transcriptome, the Maternal Legacy to the Embryo 177
Juan Martin Traverso, Alexis Fostier, and Julien Bobe

Chapter 12 Application of Fish Stem Cell Technology to Aquaculture and Marine Biotechnology 193
Ten-Tsao Wong and Paul Collodi

Chapter 13 Culture of Fish Head Kidney Mononuclear Phagocytes and Muscle Satellite Cells: Valuable Models for Aquaculture Biotechnology Research 207
Frederick W. Goetz, Josep V. Planas, Monica Daz, Dimitar B. Iliev, and Simon MacKenzie

Chapter 14 Germ Cell Transplantation in Fish: Basic Biology and Biotechnological Applications 223
Goro Yoshizaki, Tomoyuki Okutsu, and Yutaka Takeuchi

Part 6: Gene Transfer 233

Chapter 15 Spatial and Temporal Regulation of Transgene Expression in Fish 235
Ryan MacDonald and Marc Ekker

Chapter 16 Antifreeze Protein Gene TransferPromises, Challenges, and Lessons from Nature 253
Garth L. Fletcher and Peter L. Davies

Chapter 17 Potential Applications of Transgenic Fish to Environmental Monitoring and Toxicology 267
Hwee Boon Grace Ng, Siew Hong Lam, Hendrian Sukardi, and Zhiyuan Gong

Chapter 18 Transgenic Tilapia for Xenotransplantation 281
James R. Wright Jr., Olga Hrytsenko, and Bill Pohajdak

Chapter 19 The Potential of Enhancing Muscle Growth in Cultured Fish through the Inhibition of Members of the Transforming Growth Factor- **Superfamily 291
Michael P. Phelps and Terence M. Bradley

Part 7: Cryopreservation 303

Chapter 20 Fish Gamete and Embryo Cryopreservation: State of the Art 305
Paz Herraez, Elsa Cabrita, and Vanesa Robles

Part 8: Environmental Considerations 319

Chapter 21 The Potential Ecological and Genetic Impacts of Aquaculture Biotechnologies: Eco-Evolutionary Considerations for Managing the Blue Revolution 321
Darek T.R. Moreau and Ian A. Fleming

Part 9: Ethical Issues 343 Chapter 22 Aquaculture Ethics in the Biotechnology Century 345<br /&g...