《水产养殖和渔业生物技术,遗传方法,第2版》综述

M. Gómez-Chiarri
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The book also illustrates the scholarship of the author by including an overview of the social aspects of aquaculture biotechnology, from a chapter on the history of biotechnology, genetics, and selective breeding (chapter 1) to a discussion of the ethical and regulatory issues related to the use of biotechnology in aquaculture (chapters 20–25). The last chapter in the book poses the challenges facing aquaculture genetics in the near future, and provides some interesting recommendations on what areas need more attention, from student training to issues in biodiversity, politics, and international development. The book is strongly focused on the applications of genetics and biotechnology to the genetic improvement of fish and shellfish species for aquaculture, with only a relatively brief discussion of applications of biotechnology to fisheries management in chapters 12 and 13. These chapters provide a description of molecular markers, basic concepts in population genetics, and a discussion of the consequences of interactions of hatchery and wild fish. Some key genetic concepts relevant to fisheries applications, such as random genetic drift and bottlenecks, are also discussed in chapter 5 (“Population Size, Inbreeding, Random Genetic Drift, and Maintenance of Genetic Quality”). In addition to a description of key concepts in genetics, the author includes a list of examples illustrating the status of past and present research in the field in each chapter. These examples are generally focused on catfish, oysters, and salmonids, the major aquaculture species in the US. Most of the chapters, in particular those dedicated to selective breeding, polyploidy, hybridization, and gene transfer technology, build directly upon the author’s wealth of practical experience in the field of fish genetics. The book also provides a useful glossary with definitions of key concepts in genetics, and, in some chapters, a very brief summary of key points. This expansive book, however, may not be an easy resource for teaching or for introducing fish genetics to the layperson, since there are only a few of the useful diagrams and figures used in textbooks to illustrate key concepts. Moreover, the order in which some of the concepts are presented is not necessarily intuitive and will require a relatively good foundation in genetics or easy access to a good basic textbook in genetics (or to the very didactic primer on fish breeding “Genetics for Fish Hatchery Managers” by Douglas Tave, published in 1993 by Van Nostrand Reinhold, New York, USA). For those interested in using this book to learn more about the potential applications of genetics and biotechnology to aquaculture, I would recommend reading chapter 19 first (“Commercial Application of Fish Biotechnology”), since it provides a useful brief general overview on which technologies are most commonly applied to improve commercial farming. 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The book also illustrates the scholarship of the author by including an overview of the social aspects of aquaculture biotechnology, from a chapter on the history of biotechnology, genetics, and selective breeding (chapter 1) to a discussion of the ethical and regulatory issues related to the use of biotechnology in aquaculture (chapters 20–25). The last chapter in the book poses the challenges facing aquaculture genetics in the near future, and provides some interesting recommendations on what areas need more attention, from student training to issues in biodiversity, politics, and international development. The book is strongly focused on the applications of genetics and biotechnology to the genetic improvement of fish and shellfish species for aquaculture, with only a relatively brief discussion of applications of biotechnology to fisheries management in chapters 12 and 13. These chapters provide a description of molecular markers, basic concepts in population genetics, and a discussion of the consequences of interactions of hatchery and wild fish. Some key genetic concepts relevant to fisheries applications, such as random genetic drift and bottlenecks, are also discussed in chapter 5 (“Population Size, Inbreeding, Random Genetic Drift, and Maintenance of Genetic Quality”). In addition to a description of key concepts in genetics, the author includes a list of examples illustrating the status of past and present research in the field in each chapter. These examples are generally focused on catfish, oysters, and salmonids, the major aquaculture species in the US. Most of the chapters, in particular those dedicated to selective breeding, polyploidy, hybridization, and gene transfer technology, build directly upon the author’s wealth of practical experience in the field of fish genetics. The book also provides a useful glossary with definitions of key concepts in genetics, and, in some chapters, a very brief summary of key points. This expansive book, however, may not be an easy resource for teaching or for introducing fish genetics to the layperson, since there are only a few of the useful diagrams and figures used in textbooks to illustrate key concepts. Moreover, the order in which some of the concepts are presented is not necessarily intuitive and will require a relatively good foundation in genetics or easy access to a good basic textbook in genetics (or to the very didactic primer on fish breeding “Genetics for Fish Hatchery Managers” by Douglas Tave, published in 1993 by Van Nostrand Reinhold, New York, USA). 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引用次数: 2

摘要

这本书的作者Rex Dunham是一位鱼类遗传学家,因其对鲶鱼基因改良的研究而闻名于世。这本书是对2004年出版的上一版的彻底更新。它在26章中全面描述了鱼类遗传学的一般原理及其在水产养殖中的应用,从传统的选择育种到基因转移技术。新在这一版是几个有用的章节解释遗传学的基本概念,两章集中在种间和种内杂交,一章响应选择,并简要介绍了基因组学的迅速扩大的领域。本书还通过概述水产养殖生物技术的社会方面来说明作者的学识,从生物技术、遗传学和选择性育种的历史一章(第1章)到与水产养殖中使用生物技术相关的伦理和监管问题的讨论(第20-25章)。本书的最后一章提出了水产养殖遗传学在不久的将来面临的挑战,并就需要更多关注的领域提供了一些有趣的建议,从学生培训到生物多样性、政治和国际发展问题。本书着重于遗传学和生物技术在水产养殖鱼类和贝类遗传改良中的应用,在第12章和第13章中只对生物技术在渔业管理中的应用进行了相对简短的讨论。这些章节提供了分子标记的描述,群体遗传学的基本概念,并讨论了孵化场和野生鱼类相互作用的后果。与渔业应用相关的一些关键遗传概念,如随机遗传漂变和瓶颈,也在第5章(“种群规模、近亲繁殖、随机遗传漂变和遗传质量的维持”)中进行了讨论。除了对遗传学关键概念的描述外,作者还在每章中列出了说明该领域过去和现在研究状况的示例列表。这些例子通常集中在鲶鱼、牡蛎和鲑鱼上,它们是美国的主要水产养殖物种。大多数章节,特别是那些致力于选择性育种,多倍体,杂交,和基因转移技术,直接建立在作者在鱼类遗传学领域丰富的实践经验。这本书还提供了一个有用的词汇表与定义的关键概念,在遗传学,并在一些章节,一个非常简短的总结要点。然而,这本膨胀的书可能不是一个容易的教学资源,也不是向外行人介绍鱼类遗传学的资源,因为教科书中只有少数有用的图表和数字用来说明关键概念。此外,一些概念提出的顺序不一定是直观的,需要有相对良好的遗传学基础,或者容易获得一本好的遗传学基础教科书(或道格拉斯·塔夫所著,1993年由美国纽约的Van Nostrand Reinhold出版的关于鱼类育种的非常说教的入门书“鱼类孵卵管理人员遗传学”)。对于那些有兴趣使用本书来了解更多关于遗传学和生物技术在水产养殖中的潜在应用的人,我建议先阅读第19章(“鱼类生物技术的商业应用”),因为它提供了一个有用的简要概述,介绍了哪些技术最常用于改善商业养殖。这本由Rex Dunham撰写的“水产养殖和渔业生物技术,遗传方法”的扩展版是鱼类遗传学方面的博学资源,也是有用的参考资料,特别是对于那些对负责任地使用遗传学来改善水产养殖物种感兴趣的人。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
A Review of “Aquaculture and Fisheries Biotechnology, Genetic Approaches, 2nd Edition”
This book by Rex Dunham, a fish geneticist internationally known for his research on the genetic improvement of catfish, is a thorough update of a previous edition published in 2004. It provides, in 26 chapters, a comprehensive description of the general principles of fish genetics and their applications to aquaculture, from traditional selective breeding to gene transfer technology. New in this edition are several useful chapters explaining fundamental concepts in genetics, two chapters focused on interand intraspecific hybridization, a chapter in responses to selection, and a brief introduction to the rapidly expanding field of genomics. The book also illustrates the scholarship of the author by including an overview of the social aspects of aquaculture biotechnology, from a chapter on the history of biotechnology, genetics, and selective breeding (chapter 1) to a discussion of the ethical and regulatory issues related to the use of biotechnology in aquaculture (chapters 20–25). The last chapter in the book poses the challenges facing aquaculture genetics in the near future, and provides some interesting recommendations on what areas need more attention, from student training to issues in biodiversity, politics, and international development. The book is strongly focused on the applications of genetics and biotechnology to the genetic improvement of fish and shellfish species for aquaculture, with only a relatively brief discussion of applications of biotechnology to fisheries management in chapters 12 and 13. These chapters provide a description of molecular markers, basic concepts in population genetics, and a discussion of the consequences of interactions of hatchery and wild fish. Some key genetic concepts relevant to fisheries applications, such as random genetic drift and bottlenecks, are also discussed in chapter 5 (“Population Size, Inbreeding, Random Genetic Drift, and Maintenance of Genetic Quality”). In addition to a description of key concepts in genetics, the author includes a list of examples illustrating the status of past and present research in the field in each chapter. These examples are generally focused on catfish, oysters, and salmonids, the major aquaculture species in the US. Most of the chapters, in particular those dedicated to selective breeding, polyploidy, hybridization, and gene transfer technology, build directly upon the author’s wealth of practical experience in the field of fish genetics. The book also provides a useful glossary with definitions of key concepts in genetics, and, in some chapters, a very brief summary of key points. This expansive book, however, may not be an easy resource for teaching or for introducing fish genetics to the layperson, since there are only a few of the useful diagrams and figures used in textbooks to illustrate key concepts. Moreover, the order in which some of the concepts are presented is not necessarily intuitive and will require a relatively good foundation in genetics or easy access to a good basic textbook in genetics (or to the very didactic primer on fish breeding “Genetics for Fish Hatchery Managers” by Douglas Tave, published in 1993 by Van Nostrand Reinhold, New York, USA). For those interested in using this book to learn more about the potential applications of genetics and biotechnology to aquaculture, I would recommend reading chapter 19 first (“Commercial Application of Fish Biotechnology”), since it provides a useful brief general overview on which technologies are most commonly applied to improve commercial farming. This expanded edition of “Aquaculture and Fisheries Biotechnology, Genetic Approaches” by Rex Dunham is an erudite resource in fish genetics and a useful reference, specially for those interested in responsibly using genetics to improve aquaculture species.
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Reviews in Fisheries Science
Reviews in Fisheries Science 农林科学-渔业
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