Collaborative Research: Geophysical Investigation of the Mid-Continent Rift System

合作研究：中部大陆裂谷系统地球物理调查

• 批准号: 1147970
• 负责人: Adam Schultz
• 金额: $ 6.05万
• 依托单位: Oregon State University
• 依托单位国家: 美国
• 项目类别: Continuing Grant
• 财政年份: 2012
• 资助国家: 美国
• 起止时间: 2012-10-01 至 2017-09-30
• 项目状态: 已结题
• 来源: https://www.nsf.gov/awardsearch/showAward?AWD_ID=1147970&HistoricalAwards=false
• 关键词: Collaborative; Research; Geophysical; Investigation; Mid

Geophysical Investigation of the Mid-Continent Rift System Surprisingly, the Central U.S. is an ideal place to study one of the more important processes shaping our planet - the breaking apart of continents to form new oceans. Throughout earth's history, continents have split along rifts, long zones of volcanism and stretching, which become spreading centers along which new ocean basins form and can grow to the size of the Atlantic and Pacific. It even looks like similar rifting may have happened on other planets.Understanding how rifting works is important for both science and society, because rifting provides conditions for the deposition of hydrocarbons and other mineral resources. The problem is that when rifting succeeds in forming a new ocean, not much remains from its early stages so it's hard to see what happened.To get around this, researchers are studying a spectacular rift that failed, the Mid-Continent Rift System. This system evolved around 1.1 billion years ago, when North America nearly split. However, the rift failed, leaving a 2000 km long belt of volcanic and sedimentary rocks left from the early rifting stage. This fossil rift, which is similar in length to the present East African and Baikal rifts, has two major arms meeting in the Lake Superior region. One extends southwestward at least as far as Kansas, and the other extends southeastward through Michigan. These arms are identified using the large gravity and magnetic anomalies resulting from dense and highly magnetic igneous rocks. They are largely covered by younger sediments but outcrop near Lake Superior and can be followed further south in drill cores. The study combines seismic and magnetotelluric data being acquired by NSF's EarthScope program with gravity and magnetic data to develop an integrated three-dimensional image of the rift system and constrain its evolution. One of its goals is to learn whether the rift formed as a response to melting in the underlying mantle, as commonly proposed for the East African Rift, or because of stresses transmitted within the lithosphere, as appears to be the case for Asia's Baikal Rift.

令人惊讶的是，美国中部是研究塑造我们星球的更重要过程之一的理想场所-大陆分裂形成新的海洋。纵观地球的历史，大陆沿着裂谷分裂，这是一个漫长的火山活动区，它成为扩张中心，新的海洋盆地沿着形成，并可以扩大到大西洋和太平洋的大小。它甚至看起来像类似的裂谷可能发生在其他行星上。了解裂谷是如何工作的对科学和社会都很重要，因为裂谷为碳氢化合物和其他矿产资源的沉积提供了条件。问题是，当裂谷成功地形成一个新的海洋时，它的早期阶段没有留下多少东西，所以很难看到发生了什么。为了解决这个问题，研究人员正在研究一个壮观的裂谷，它失败了，即中大陆裂谷系统。 这个系统大约在11亿年前进化，当时北美几乎分裂。 然而，裂谷失败了，留下了一个2000公里长的火山岩和沉积岩带，这是早期裂谷阶段留下的。 这个化石裂谷的长度与现在的东非裂谷和贝加尔裂谷相似，有两个主要的臂在苏必利尔湖上级地区相遇。一条向西南延伸至少到堪萨斯，另一条向东南延伸穿过密歇根。这些武器被确定使用大的重力和磁力异常所造成的致密和高磁性火成岩。它们大部分被较年轻的沉积物覆盖，但在上级湖附近露头，可以在钻探岩心中进一步向南追踪。这项研究结合了地震和大地电磁数据正在获得的NSF的EarthScope计划与重力和磁力数据，以开发一个综合的三维图像的裂谷系统，并限制其演变。它的目标之一是了解裂谷的形成是否是对底层地幔熔化的反应，就像东非裂谷通常提出的那样，或者是因为岩石圈内传递的应力，就像亚洲贝加尔裂谷的情况一样。