DEB Proposal: SG: Collaborative Research:Repeated evolution of limblessness and head-first burrowing in tetrapods: Testing predictions from the fossil record

DEB 提案：SG：合作研究：四足动物无肢和头先挖洞的重复进化：测试化石记录的预测

• 批准号: 1655610
• 负责人: Jennifer Olori
• 金额: $ 7.32万
• 依托单位: SUNY College at Oswego
• 依托单位国家: 美国
• 项目类别: Standard Grant
• 财政年份: 2017
• 资助国家: 美国
• 起止时间: 2017-09-01 至 2023-08-31
• 项目状态: 已结题
• 来源: https://www.nsf.gov/awardsearch/showAward?AWD_ID=1655610&HistoricalAwards=false
• 关键词: DEB; Proposal; SG; Collaborative; Research

Animal species have evolved an incredible diversity of body shapes to reflect their different ecology and functions, e.g., swimming, flying, burrowing. An intriguing pattern is the independent evolutionary repetition of similar body shapes among distantly related groups of animal species; this is known as convergent evolution. How and why convergence of body shape occurs is a fundamental evolutionary puzzle. This research project examines the anatomical, biomechanical, developmental, and natural selection pressures that drive the evolution of limblessness and head-first burrowing. Burrowing behavior and the loss of limbs is a classic case of convergent evolution, and this project will test general hypotheses concerning the selective pressures that gave give rise to similar body shapes in various snakes, lizard and amphibian species. In this project, computer analysis will be applied to images of skull shape created with technologies derived from medical imaging. That data will then be used to test for relationships between form and function in both fossils and living animals. The results of this work will be important to understanding how and why evolution arrived repeatedly at some common biomechanical solutions for burrowing. The proposed research also provides unique mentoring and outreach opportunities. This project will provide research experience for students from underserved communities. It will develop a mobile toolkit of both analog and digital components devoted to science outreach activities, and it will inform the public about evolutionary processes through multiple public outreach events. The research project will test for variation in the causes of head-first burrowing (HFB) which is a prominent example of convergent evolution. Reduction and loss of limbs is associated with the use of the head as a burrowing tool across snakes, amphibians, multiple clades of lizards, and several extinct tetrapod groups. The research will describe and quantify the morphological variability in bony and soft tissues in living HFB species. Micro CT and histological data will be collected to assess biomaterial composition, suture patterns, and developmental trajectories across distantly-related taxa. Those results will be placed in a phylogenetic and developmental context using phylogenetic comparative methods. The work will thus infer form, function, and evolutionary history from the patterns of variability. The investigative framework devised for extant taxa will then be applied to extinct, putative HFB taxa to provide independent tests of prior observational hypotheses made for fossils. The reach of this work will be extended through data sharing of the 3D anatomical models, phylogenetic matrices, and specimen data via NSF-supported databases such as Morphobank and Dryad.

动物物种进化出了令人难以置信的多样化的身体形状，以反映它们不同的生态和功能，例如游泳、飞行、穴居。一种有趣的模式是，在远亲的动物物种群体中，相似体型的独立进化重复；这被称为趋同进化。体型的趋同是如何以及为什么发生的，这是一个基本的进化论难题。这项研究项目考察了解剖学、生物力学、发育和自然选择的压力，这些压力推动了肢体残疾和头先穴的进化。洞穴行为和肢体丧失是趋同进化的经典案例，这个项目将测试有关选择压力的一般假设，这些压力导致不同蛇、蜥蜴和两栖动物物种的身体形状相似。在这个项目中，计算机分析将应用于由医学成像技术产生的头骨形状图像。然后，这些数据将被用来测试化石和活动物的形式和功能之间的关系。这项工作的结果对于理解进化如何以及为什么反复出现一些常见的洞穴生物力学解决方案将是重要的。拟议的研究还提供了独特的指导和外展机会。该项目将为来自服务不足社区的学生提供研究经验。它将开发一个流动工具包，包括模拟和数字组件，专门用于科学外联活动，并将通过多项公共外联活动向公众介绍演变过程。该研究项目将测试头部优先挖洞(HFB)的原因的变异，这是收敛进化的一个突出例子。肢体的减少和丧失与头部被用作在蛇、两栖动物、多个蜥蜴分支和几个已灭绝的四足动物之间挖掘洞穴的工具有关。这项研究将描述和量化活的HFB物种中骨和软组织的形态变异性。将收集Micro CT和组织学数据，以评估生物材料的组成、缝合模式和跨远缘分类群的发育轨迹。这些结果将被放在系统发生和发展的背景下，使用系统发生比较方法。因此，这项工作将从可变性的模式中推断出形式、功能和进化史。为现存的分类群设计的研究框架随后将应用于已灭绝的、假定的HFB分类群，以提供对先前对化石进行的观察假设的独立测试。这项工作的范围将通过NSF支持的数据库(如Morphobank和Dryad)共享3D解剖模型、系统发育矩阵和标本数据来扩展。

项目成果

Using your head! Finite Element Analysis of head-first burrowing Pygopodids (Gekkota)

用你的头！

• DOI: 10.1093/icb/icaa006
• 发表时间: 2020
• 期刊: Integrative and Comparative Biology
• 影响因子: 2.6
• 作者: GURGIS, GP;DAZA, JD;BRENNAN, IG;HUTCHINSON, M;BAUER, AM;OLORI, JC
• 通讯作者: OLORI, JC

Abstracts: Cranial diversity and evolution in shieldtail snakes (Serpentes: Uropeltidae)

摘要：盾尾蛇（蛇类：Uropeltidae）的颅骨多样性和进化

• DOI: 10.1002/jmor.21003
• 发表时间: 2019
• 期刊: Journal of Morphology
• 影响因子: 1.5
• 作者: Sampaio, F;Day, J;Olori, J;Gower, D
• 通讯作者: Gower, D

Postcranial anatomy of the ‘microsaur’ Carrolla craddocki from the Lower Permian of Texas

得克萨斯州下二叠统“小龙”Carrolla Craddocki 的颅后解剖

• DOI: 10.1080/02724634.2018.1532436
• 发表时间: 2018
• 期刊: Journal of Vertebrate Paleontology
• 影响因子: 1.4
• 作者: Mann, Arjan;Olori, Jennifer C.;Maddin, Hillary C.
• 通讯作者: Maddin, Hillary C.

Are all caudates boneheads? Exploring lifestyle signals in the microanatomy of amphibian skull roofs

尾核都是骨头吗？

• DOI: 10.1093/icb/icad002
• 发表时间: 2023
• 期刊: Integrative And Comparative Biology
• 影响因子: 2.6
• 作者: Manning, S.;Nohomovich, M.;Olori, J.;Amson, E.;Ebel, R.
• 通讯作者: Ebel, R.

Poster Abstracts: 3D geometric morphometric analysis of pygopodid gecko skull morphology and relationship to habitat

海报摘要：尾足壁虎头骨形态及其与栖息地关系的 3D 几何形态测量分析

• DOI: 10.1093/icb/icz004
• 发表时间: 2019
• 期刊: Integrative and Comparative Biology
• 影响因子: 2.6
• 作者: Gurgis, G;Olori, J;Daza, J;Brennan, I;Hutchinson, M;Bauer, A
• 通讯作者: Bauer, A