来源:生态与环境科学学院

2016-09-15(周四)上午9:30 The Web-of-Life – An Evolutionary Stimulus in Changing Environments?

来源:生态与环境科学学院发布时间:2016-09-09浏览次数:833

讲座题目:The Web-of-Life – An Evolutionary Stimulus in Changing Environments?

主讲人:Mike Arnold 教授

主持人:陈小勇 教授

开始时间:2016-9-15(周四)上午9:30

讲座地址:闵行校区资环楼435会议室

主办单位:生态与环境科学学院 科技处

报告人简介:

Mike Arnold, Distinguished Research Professor at the University of Georgia, has championed the view of genetic exchange as a critical evolutionary process across all domains of life, and he has provided a wealth of empirical data and synthetic works to support this hypothesis. Arnold’s work has thus demonstrated that genetic exchange is a critical evolutionary process affecting both adaptation and diversification. Mike is particularly well known for his study of Louisiana Irises, which has become a classic example of the role of hybridization in adaptive evolution and speciation. Mike is an author of four books and more than 130 academic articles.

报告摘要:

“One of the most spectacular facets of the newer studies of evolution has been the demonstration that evolution has not proceeded by slow, even steps but that seen in the large there have been bursts of creative activity.” With this provocative statement, Anderson and Stebbins (1954) began their description of Hybridization as an Evolutionary Stimulus. Their arguments concerning the role of natural hybridization in promoting evolutionary innovations emphasized the catalyst of genetic admixture leading to introgressed genomes and hybrid species. In particular, they predicted that recombination between divergent genomes had provided the material necessary for natural selection to rapidly produce novel phenotypes capable of invading the niches opened during climatic perturbations. In this seminar, I will consider “climate change” to include environmental fluctuations caused by climatic shifts or by dispersal to a different habitat regime; it includes both micro- and macro-habitat modifications. This broadened definition is chosen intentionally in order to reflect how temporally- and geographically widespread climate change has been and thus how often it catalyzes evolutionary innovations through associated genetic exchange. In addition to the conceptual breadth provided by this definition, I will highlight the organismic diversity reflecting genetic admixture during climate perturbations by discussing examples from across different domains of life. Using a diversity of clades I will thus illustrate the creative outcomes of genetic admixture associated with climatic shifts, including adaptive evolutionary change and biodiversification (as reflected by the origin of single evolutionary lineages as well as entire adaptive radiations).