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老外对大陆漂移驱动力的认识
RESEARCH NEWS STORY
17/01/2022
Drifting Apart: New Study in Earth Science Frontiers Explains the Driving Force Behind Continental Drift
In new study, researchers propose a new model for continental drift based on the separation of the African and South American continents
The South Atlantic breakup, which separated the African and South American continents, is the basis of the continental drift hypothesis and has been widely studied. However, the driving forces behind the drift is still debated. Now, in a new study, researchers from China establish a new drift model with gravitational slip force of the continental crust as the main driver of the drift instead of thermal energy as previously thought.
A new study by researchers from China elucidate the driving forces behind the continental drift responsible for the breakup of the South Atlantic region into the South American and African continents, putting to rest a long-standing controversy.
Courtesy: Dr. Liang Guanghe from CAS.
The breakup of the South Atlantic region, which led to the separation of the African and South American continents, is a well-known global phenomenon. In fact, the famous continental drift theory put forth by the German climatologist, Alfred Wegener, is based on the South Atlantic breakup. According to this theory, the continental plate floats on the oceanic crust and, powered by the Earth’s rotation and tidal energy, drifts relative to it. However, the driving forces behind these continental plate movements have not been fully ascertained and continue to be a topic of debate.
Specifically, none of the multiple hypotheses put forth can reasonably account for the formation of numerous linear ridges with continental fragments floating in the Atlantic Ocean. Moreover, these hypotheses do not explain why the opening of the Atlantic Ocean is wider in the south than in the middle.
Now, in a new study, researchers from China seem to have finally solved the conundrum. The team comprising Dr. Liang Guanghe from Chinese Academy of Sciences and Prof. Yang Weiran from China University of Geosciences have proposed a new dynamic model that suggests that while thermal energy can cause the continental plates to drift, the main driving force is supplied by a gravitational slip of the continental crust and hot mantle upwelling. One can picture this better by imagining a slab of butter floating a hot pan, which can move in any direction by itself. This paper was made available online on 07 January, 2022 and was published in Volume 29 Issue 1 of the journal Earth Science Frontiers in January 2022.
How did the duo accomplish this feat? To start with, they studied two deep seismic reflection survey profiles across the Atlantic Ocean, and calculated the magnitude of crustal gravitational slip shear force in the African continent along Moho (the boundary layer between the earth’s crust and mantle), in two passive continental margin basins.
This led to two important findings: the continental drift relies on its own gravity to drift via constant rising of the mantle, suggesting that the gravitational slip force is the main driver, and the slip only occurs on the Moho surface due to the greater thickness of the continental crust as compared to that of the oceanic crust, causing the drift to produce an even greater gravity slip.
Based on these findings, the duo established their model of continental drift, according to which the driving force on both sides of the Atlantic Ocean is a self-driving continental crustal movement under gravity.
“The resultant mantle upwelling leads to an inclined Moho surface, on which the continental plate begins to slide, owing to its own weight,” explains Dr. Liang Guanghe. “This continuous movement of continental plates causes further mantle upwelling and steepening of the Moho slope, eventually resulting in the drifting of the continental plate above the oceanic plate.”
Using this model, the team reconstructed the history of the South Atlantic breakup process. They found that the driving force behind the African plate movement along the Moho is greater in the South than the middle South Atlantic region, causing the southern part of the African region to drift at a much greater speed. This explained the wider opening of the southern part of the Atlantic Ocean.
Furthermore, the model also explained why there are smaller continental fragments scattered in the Atlantic Ocean. In fact, the linear ridges in the Atlantic Ocean are simply the initial continental blocks which stretched out and broke into smaller fragments.
Additionally, the model can also answer questions such as why India is drifting northward, and how the islands of New Zealand, Iceland, and Japan formed.
What are the implications of these findings? Dr. Liang Guanghe says, “While Wegener was right about continental drift, he was wrong about the driving force. The new explanation offered by our model will vastly change the way people understand the movement of plates on earth.”
That, indeed, deserves to be called “groundbreaking.”
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