Collaborative research: Robust estimation of biodiversity dynamics: Global versus regional patterns in the end Ordovician mass extinction of graptolites

合作研究：生物多样性动态的稳健估计：奥陶纪末笔石大规模灭绝的全球与区域模式

• 批准号: 0418794
• 负责人: H. David Sheets
• 金额: $ 7万
• 依托单位: Canisius College
• 依托单位国家: 美国
• 项目类别: Standard Grant
• 财政年份: 2004
• 资助国家: 美国
• 起止时间: 2004-08-01 至 2009-12-31
• 项目状态: 已结题
• 来源: https://www.nsf.gov/awardsearch/showAward?AWD_ID=0418794&HistoricalAwards=false
• 关键词: Collaborative; research; Robust; estimation; biodiversity

Intellectual Merit- Ceratopsians are among the best known of dinosaur clades due to theirrelative abundance, and the remarkable diversity of cranial synapomorphies such as hornsand frills that diagnose more derived members of the clade. Gigantism is a trend inceratopsian evolution that is accompanied by the evolution of progressively morecomplex feeding mechanisms and cranial display diversity. Heterochrony, and inparticular peramorphosis have been proposed as major influences in ceratopsianevolution to explain the evolution towards large size and late ontogenetic genesis of thedisplay in advanced forms. Likewise, the apparent hierarchical complexity of the feedingapparatus suggests an evolution of character integration through both ontogeny andphylogeny. All of these evolutionary hypotheses require detailed knowledge of both thedevelopment and phylogeny of ceratopsian dinosaurs, but so far age estimates have beenpoorly constrained and non-quantified and rigorous reliance on detailed phylogenieslimited.In this study, an innovative approach to developmentally staging fossils based onhistological sectioning and Developmental Mass extrapolation is combined with noveltree-based methods toward studying heterochrony and integration using a well-established phylogeny of Ceratopsia. Based on well-sampled growth series of seven-backbone taxa representing the diversity of the clade, and a detailed phylogeny ofceratopsians, we will examine whether there are correlated shifts in developmental timingof synapomorphies (heterochrony) relative to growth strategies, and also if blocks ofcharacters represent integrated modules that fulfill criteria for being phylogenetically andontogenetically constrained. These quantitative studies will allow us to evaluate previoushypotheses on the role heterochrony and integration have played in ceratopsian evolution.By providing a quantified understanding of when in ontogeny synapomorpies areexpressed this research will help to resolve several taxonomic quandaries related to thevalidity of species based on juvenile holotypes and provide a more accurateunderstanding of ceratopsian diversity.Broader Impact: This research represents a new integrative exploration of evolutionaryprocesses in a well-known group of dinosaurs. The novel methods and the results of thisresearch promise to be widely applicable to fields as diverse as population biology,developmental biology, macroevolution and evo-devo, and will be disseminated throughpeer -reviewed journals, presentations at professional meetings and professional web-sites. Two graduate and two undergraduate students will be trained through this project,and aspects of the research will be incorporated into university courses taught by bothPIs. Both PIs are involved with developing exhibits for natural history museum, andparts of this research will be incorporated into two ongoing exhibit projects, andassociated educational web-sites and programming. Given the media interest in dinosaurresearch, many opportunities to disseminate results of this work to the public will nodoubt arise.

智力上的优点-Ceratopsian是最著名的恐龙支系之一，因为他们相对丰富，以及头骨突触的显著多样性，如角和褶皱，可以诊断出更多派生的恐龙支系成员。巨人症是伴随着逐渐复杂的摄食机制和颅骨显示多样性的进化而来的一种趋势。异时性，特别是永久变形被认为是角叉尾进化中的主要影响因素，以解释向大尺寸进化和晚期个体发育的高级形式的显示。同样，喂食装置明显的等级复杂性表明，角色整合通过个体发育和系统发育两个方面进行了进化。所有这些进化假说都需要对角龙的发育和系统发育都有详细的了解，但到目前为止，年龄估计缺乏约束和非量化，严格依赖于详细的系统发育有限。在这项研究中，一种基于组织切片和发育质量外推的发展阶段化石的创新方法与基于新树的方法相结合，利用已建立的角龙系统学研究异时性和整合性。基于代表支系多样性的七个主干分类群的良好采样生长系列，以及角毛虫的详细系统发育，我们将检查相对于生长策略，突触形态(异时性)的发育时序是否存在相关的变化，以及特征块是否代表满足系统发育和个体遗传学限制标准的整合模块。这些定量研究将使我们能够评估先前关于异时性和整合性在角龙进化中所起作用的假说。通过提供对个体发育中何时表达联会的量化理解，这项研究将有助于解决几个与基于幼年全息模式的物种的有效性相关的分类学难题，并提供对角龙多样性的更准确的理解。更广泛的影响：这项研究代表了对一组众所周知的恐龙进化过程的新的综合探索。这项研究的新方法和结果有望广泛应用于人口生物学、发育生物学、宏观进化和胚胎发育等领域，并将通过同行评议的期刊、在专业会议上的演讲和专业网站进行传播。两名研究生和两名本科生将通过这个项目接受培训，研究的各个方面将被纳入这两个私人投资机构教授的大学课程。这两个私人投资机构都参与了自然历史博物馆展品的开发，这项研究的部分内容将被纳入两个正在进行的展览项目，以及相关的教育网站和编程。鉴于媒体对恐龙研究的兴趣，无疑会出现许多向公众传播这项工作成果的机会。