贵阳分部广州分部
网站地图联系我们所长信箱内部网English中国科学院
 
 
首页概况简介机构设置研究队伍科研成果实验观测合作交流研究生教育学会学报图书馆党群工作创新文化科学传播信息公开
  新闻动态
  您现在的位置:首页 > 新闻动态 > 研究亮点
Ross Mitchell等-NREE:超大陆旋回
2021-04-21 | 作者: | 【 】【打印】【关闭

  摘要:超大陆是板块构造自我组构的表达。在过去的约20亿年,研究者主要识别出了三个超大陆,即潘吉亚、罗迪尼亚和哥伦比亚。太古宙超级克拉通(不同于超大陆,尺度相对较小)在构造上似乎是不同的,但大陆周期性的聚合和裂解型式可能延续到约30亿年前。近日,岩石圈演化国家重点实验Ross Mitchell研究员与国际合作者在NREE发表超大陆旋回的综述文章,讨论了超大陆的出现如何为现代全球板块构造的开启提供最小年龄约束。综述认为,潘吉亚的聚合和裂解证明超大陆旋回与整个地幔对流密切相关。因此,超大陆旋回与地幔对流具有因果关系,且这些过程强调自上而下(俯冲板片诱导)和自下而上(地幔诱导)的地球动力学以及两者之间耦合的重要性。但是,这种耦合的性质及其演化方式仍存在争议,导致对超大陆的形成方式存在不同的认识,而这可以通过定量地球动力学建模和地球化学指标进行验证。具体来说,哪些大洋关闭以形成超大陆,以及形成超大陆的方式如何与地幔对流相关联,是未来研究的方向。

  We all learned about Pangea in grade school, how the continents now scattered around the globe once fit snuggly together as a supercontinent. But a lot has been discovered about supercontinents since then.   

  We now know that Pangea wasn’t a unique occurrence. There have been at least 3 supercontinents in Earth’s past, giving rise to what is now known as “the supercontinent cycle.” A paper just published in the brand new journal Nature Reviews Earth & Environment gives the state-of-the art of supercontinent research. 

  In the inaugural issue of NREE, the editors stated their mission to “encourage Earth scientists to break down disciplinary barriers and collaborate with broader communities in pursuit of alleviating the environmental challenges of the modern world.”

  This new supercontinent paper does exactly that, bringing together experts from diverse expertise in Earth sciences, from rock hounds to computer modelers. Lead author, Professor Ross Mitchell of the Chinese Academy of Sciences, also stayed true to the mission statement by assembling a team of co-authors that includes both genders, both early-career and senior scientists, and experts from around the world from Finland to Australia.     

  Said Professor Mitchell, “supercontinent research by its very nature demands international collaboration as knowledge is quite literally required for every continent, through Earths’ billions of years of history, and about all layers of the planet.”     

  Beyond demographic diversity, the new paper presents a diversity of ideas on cutting edge science questions. Explains Mitchell, “When reviewing a big topic like supercontinents, it’s critical not to pick and choose interpretations that fit your own worldview, but to provide a more balanced view of ideas that are out there.”   

  Taking a Lincoln-like team-of-rivals approach, Mitchell applaud his co-authors for “respecting each others’ differences of opinion and working together so effectively.” So what is there to disagree about in the world of supercontinent research?      

  “Just about everything,” said Professor Zheng-Xiang Li of Curtin University and co-author. First, geologists argue about the configurations of the ancient supercontinents. “We’ve made a lot of progress in the past few decades reconstructing two pre-Pangea supercontinents,” explains Li. “But we still have a way to go before I would use the word ‘consensus’.”     

  Geologists also debate over the connection between plate tectonics and convection cells in the underlying mantle. Plate tectonic theory explains continental motions at the surface. Mantle convection theory explains the motions of the rocky, but flowing deep mantle. “The trick is linking these two theories, which is what we’ve tried to do in this paper,” said Mitchell.     

  But there are strikingly contrasting views of how supercontinents and the mantle are exactly linked. There is nonetheless a fascinating clue that there is indeed a link, which gives Mitchell hope. “When we reconstruct supercontinent Pangea and compare it to the structure of the lower mantle,” Mitchell explains, “it’s like they’re made for each other.” 

Supercontinent Pangea and the structure of mantle at almost 3,000 kilometers deep.(Courtesy of Ross Mitchell and Bernhard Steinberger.) 

  Like any good scientific debate, there are two very different interpretations of this correlation. Some on Mitchell’s team think that the lower mantle reflects the shape of Pangea because it’s the result of the supercontinent forming. Others on the team take the opposite view that the coincidence means that Pangea formed on top of the mantle structure. “We did our best to make it clear that the verdict is still out,” says Mitchell.     

  It appears that this honest approach to scientific debate is appreciated by supercontinent researchers. Professor Timothy Kusky of the Chinese University of Geosciences (Wuhan), who wasn’t involved in the study, said of the authors’ approach, “There is a nice balance of discussing models, then also discussing the arguments and counterpoints. Very interesting and accurate summary of the current state of knowledge.”   

  The article can be found online: https://doi.org/10.1038/s43017-021-00160-0 

 
地址:北京市朝阳区北土城西路19号 邮 编:100029 电话:010-82998001 传真:010-62010846
版权所有© 2009- 中国科学院地质与地球物理研究所 京ICP备05029136号 京公网安备110402500032号