CAREER: Polyploid speciation in the Achillea millefolium aggregate

职业：Achillea millefolium 聚集体中的多倍体物种形成

• 批准号: 0953551
• 负责人: Justin Ramsey
• 金额: $ 80万
• 依托单位: University of Rochester
• 依托单位国家: 美国
• 项目类别: Standard Grant
• 财政年份: 2010
• 资助国家: 美国
• 起止时间: 2010-02-01 至 2014-11-30
• 项目状态: 已结题
• 来源: https://www.nsf.gov/awardsearch/showAward?AWD_ID=0953551&HistoricalAwards=false
• 关键词: CAREER; Polyploid; speciation; Achillea; millefolium

Nearly all animals are diploid, i.e., they have two sets of chromosomes. In contrast, many plants are polyploid and have four or more sets of chromosomes, yet the role of polyploidy in speciation remains sharply debated. Polyploid plants that cannot interbreed with diploid plants are rarely recognized as different species, in large part because it is uncertain whether diploids and polyploids are ecologically distinct. This project combines field observations and transplant experiments to investigate reproductive barriers between diploid and polyploid populations of wild yarrow, a native perennial wildflower, and rigorously test the nature of polyploid speciation. The project will use naturally-occurring polyploid lineages and new polyploid mutants that arise spontaneously within diploid populations to separate the effects of ecological divergence and ploidy-based barriers on reproductive isolation. This project has broad implications for the interpretation of global biodiversity patterns. Taxonomic recognition of polyploids, which are common at high latitudes, could double the number of flowering plant species and fundamentally alter understanding of species diversity, which is generally thought to be greatest in tropical regions. This project will involve faculty and graduate students not only in the laboratory and field research, but also in development of a public education and outreach program on urban forests and their conservation. Urban forests provide critical habitat for wildlife as well as recreational opportunities for urban and suburban citizens, yet are increasingly threatened by habitat fragmentation and invasive organisms. The project will develop urban forests as sites of formal and informal biology education and as a public resource.

几乎所有的动物都是二倍体，即，它们有两套染色体。 相比之下，许多植物是多倍体，有四套或更多套染色体，但多倍体在物种形成中的作用仍然存在激烈的争论。 不能与二倍体植物杂交的多倍体植物很少被认为是不同的物种，这在很大程度上是因为不确定二倍体和多倍体在生态上是否不同。 该项目结合了实地观察和移植实验，以调查野生蓍草（一种本地多年生野花）的二倍体和多倍体种群之间的生殖障碍，并严格测试多倍体物种形成的性质。该项目将使用自然发生的多倍体谱系和二倍体种群中自发产生的新多倍体突变体，以分离生态分歧和基于倍性的障碍对生殖隔离的影响。该项目对全球生物多样性模式的解释具有广泛的影响。 在高纬度地区常见的多倍体的分类识别，可能会使开花植物物种的数量增加一倍，并从根本上改变对物种多样性的理解，这通常被认为是热带地区最大的。该项目将涉及教师和研究生不仅在实验室和实地研究，而且在城市森林及其保护的公共教育和推广计划的发展。 城市森林为野生动物提供了重要的栖息地，也为城市和郊区居民提供了娱乐机会，但越来越受到栖息地破碎化和入侵生物的威胁。该项目将开发城市森林，作为正式和非正式生物学教育的场所和公共资源。