Dimensions: Identifying how the ecological and evolutionary interactions between host and symbiont shape holobiont biodiversity

维度：确定宿主和共生体之间的生态和进化相互作用如何塑造全生物生物多样性

• 批准号: 1442144
• 负责人: Jacob Russell
• 金额: $ 59.74万
• 依托单位: Drexel University
• 依托单位国家: 美国
• 项目类别: Standard Grant
• 财政年份: 2015
• 资助国家: 美国
• 起止时间: 2015-05-01 至 2021-04-30
• 项目状态: 已结题
• 来源: https://www.nsf.gov/awardsearch/showAward?AWD_ID=1442144&HistoricalAwards=false
• 关键词: Dimensions; Identifying; how; ecological; evolutionary

Although individual animals have long been considered a fundamental unit of evolution, we now know that each is really a co-dependent collection of host animal and microbes. This co-dependency reaches from ancient times through to the present day. Many animals depend on gut bacteria to process food and incorporate essential nutrients into the host's own tissues. To untangle the importance of this partnership for hosts and symbiotic gut bacteria, this project will study a diverse and ecologically important social animal group, the turtle ants. As social organisms, ants and humans share ways for acquiring helpful and harmful bacteria. State-of-the-art molecular and genomic methods will be used to investigate ancient and modern influences on the symbiosis, the function of the bacteria for host health, and the means of passage and maintenance of the bacterial symbionts over millions of years.Explaining global patterns of biodiversity and their drivers have long been central challenges in the fields of ecology and evolution. Increasingly, it is becoming apparent that biodiversity is itself a function of interactions across different levels of biological organization. Among the metazoans, symbioses with microbes are a defining feature, and individuals are integrated collections of host and symbiont cells, together defining the "holobiont". By studying the diverse and tractable turtle ant system, this research will address the relationships between symbiosis and the dimensions of holobiont biodiversity with unprecedented clarity. Specifically, this research will address: 1) the roles of time, biogeography, and habitat in host diversification (host taxonomic dimension); 2) variation in gut communities across host ant phylogeny, geography, habitat, and ecological niches (symbiont taxonomic dimension integrated with host taxonomic and functional dimensions); 3) the extent of codiversification for ~10 core, host-specific symbiont lineages, and the impacts of host phylogeny, geography, and ecology on symbiont transfer (symbiont taxonomic dimension integrated with host taxonomic and functional dimensions); 4) variation in genome evolution and innovation across symbionts with varying degrees of codiversification, and across genes with varying function (taxonomic, genetic, and functional integration of hosts and symbionts); and 5) symbiont function in light of symbiont genome evolution, host-symbiont codiversification, and host phylogeny, geography, and ecology (taxonomic, genetic, and functional integration of hosts and symbionts).

虽然个体动物长期以来被认为是进化的基本单位，但我们现在知道，每一个动物实际上都是宿主动物和微生物的共同依赖的集合。这种相互依赖从古代一直延续到今天。许多动物依靠肠道细菌来加工食物，并将必需的营养物质纳入宿主自身的组织中。 为了解开这种伙伴关系对宿主和共生肠道细菌的重要性，该项目将研究一种多样的、具有生态重要性的社会动物群体--龟蚁。 作为社会有机体，蚂蚁和人类分享获取有益和有害细菌的方式。 最先进的分子和基因组学方法将用于研究古代和现代对共生的影响，细菌对宿主健康的功能，以及数百万年来细菌共生体的传播和维持方式。解释全球生物多样性模式及其驱动因素一直是生态学和进化领域的核心挑战。 越来越明显的是，生物多样性本身就是不同层次生物组织之间相互作用的一种功能。 在后生动物中，与微生物的共生是一个定义特征，个体是宿主和共生体细胞的综合集合，共同定义了“全生物”。 通过研究多样性和易驾驭的龟蚁系统，这项研究将以前所未有的清晰度解决共生与全栖生物生物多样性维度之间的关系。 具体而言，本研究将解决：1）时间，地理和栖息地在寄主多样化中的作用（2）肠道群落在寄主蚂蚁发生、地理、生境和生态位上的变化（共生体分类维度与宿主分类和功能维度相结合）;（3）10个核心宿主特异性共生体谱系的共多样化程度，以及宿主发育、地理和生态对共生体转移的影响（共生体分类维度与宿主分类和功能维度相结合）; 4）具有不同程度共多样化的共生体之间以及具有不同功能的基因之间的基因组进化和创新的变化（宿主和共生体的分类学、遗传学和功能整合）;和5）根据共生体基因组进化、宿主-共生体共多样化以及宿主生殖、地理和生态学（宿主和共生体的分类学、遗传学和功能整合）的共生体功能。