The evolutionary ecology of genetic quality in fishes

鱼类遗传品质的进化生态学

• 批准号: 341955-2007
• 负责人: Pitcher, Trevor
• 金额: $ 1.75万
• 依托单位: University of Windsor
• 依托单位国家: 加拿大
• 项目类别: Discovery Grants Program - Individual
• 财政年份: 2009
• 资助国家: 加拿大
• 起止时间: 2009-01-01 至 2010-12-31
• 项目状态: 已结题
• 来源: https://www.nserc-crsng.gc.ca/ase-oro/Details-Detailles_eng.asp?id=429967
• 关键词: evolutionary; ecology; genetic; quality; fishes

At the most fundamental level, evolution can be thought of in terms of gene frequency changes over generations. As such, one of the goals of evolutionary biology is to explain why some individuals pass on their genes more successfully than others. My research program falls neatly within this goal of evolutionary biology because it elucidates factors that can affect female choice and male-male competition (i.e. sexual selection), which alters reproductive skews and thus can be responsible for changes in gene frequencies from one generation to the next. A major challenge within the field of sexual selection is to understand how and why females benefit by mating with certain males (or multiple males), which provide no paternal care or material resources. Theoretical models that account for the evolution of mate choice in such non-resource based mating systems requires that females obtain a genetic benefit through increased offspring fitness from their choice of mates. Empirical studies suggest that choosy females can improve the genetic quality of their offspring by mating with males that have good genes (alleles that increase fitness independent of the architecture of the remaining genome) and/or compatible genes (alleles that increase fitness only when in specific genotypes). With the emergence of powerful molecular techniques, evolutionary biologists are now on the verge of being able to provide a comprehensive understanding of the evolution of mate choice for genetic quality. My long term research goals will focus on four major areas associated with mate choice for genetic quality in fishes: (1) genetic basis of mate choice; (2) major histocompatibility complex; (3) genetic architecture of sperm competition; and (4) mating system evolution. Experiments will: (1) use quantitative genetics to identify sources of genetic variation; (2) examine pre- and post-mating paternity biasing mechanisms; (3) examine genetic quality as it pertains to reproductive success; and (4) develop a new and superior mating system for studying mate choice and genetic quality. These experiments will provide the foundations for a long-term research program on genetic quality and will provide training of highly qualified personnel.

在最基本的层面上，进化可以被认为是基因频率在几代人之间的变化。因此，进化生物学的目标之一是解释为什么有些人比其他人更成功地传递基因。我的研究计划福尔斯正好符合进化生物学的这一目标，因为它阐明了影响雌性选择和雄性-雄性竞争（即性选择）的因素，这些因素改变了生殖倾向，从而可能导致基因频率从一代到下一代的变化。性选择领域的一个主要挑战是理解雌性如何以及为什么通过与某些雄性（或多个雄性）交配而受益，这些雄性不提供父亲的照顾或物质资源。理论模型，占在这种非资源为基础的交配系统中的配偶选择的进化，要求女性获得遗传利益，通过增加后代的健身从他们的选择的配偶。经验研究表明，挑剔的雌性可以通过与具有良好基因（增加适应性的等位基因，与剩余基因组的结构无关）和/或相容基因（仅在特定基因型中增加适应性的等位基因）的雄性交配来提高后代的遗传质量。随着强大的分子技术的出现，进化生物学家现在即将能够全面了解遗传质量的配偶选择进化。我的长期研究目标将集中在四个主要领域与配偶选择遗传质量的鱼类：（1）配偶选择的遗传基础;（2）主要组织相容性复合体;（3）精子竞争的遗传结构;（4）交配系统进化。实验将：（1）使用数量遗传学来确定遗传变异的来源;（2）检查交配前后的父系偏向机制;（3）检查遗传质量，因为它与繁殖成功有关;（4）开发一个新的和上级交配系统，用于研究配偶选择和遗传质量。这些实验将为遗传质量的长期研究计划提供基础，并将为高素质的人才提供培训。