地质学
岩石圈
岩浆
火山作用
构造学
地幔(地质学)
岩石学
导线
火山
地球化学
结壳
套印
地球科学
地球动力学
火山学
地震学
岩浆作用
地球物理学
板块构造
海山
岩石圈挠曲
作者
Zebin Cao,Lijun Liu,Bo Wan,Ling Chen,Craig C. Lundstrom
出处
期刊:Science
[American Association for the Advancement of Science]
日期:2026-04-09
卷期号:392 (6794): eady2027-eady2027
被引量:1
标识
DOI:10.1126/science.ady2027
摘要
Yellowstone is widely recognized for its crustal magma reservoirs replenished by asthenospheric melts. However, how primary melts traverse the rigid lithosphere and evolve into bimodal volcanism remains unclear. By leveraging multidisciplinary observations and a data-oriented geodynamic modeling approach, we demonstrate that magma generation and migration in the Yellowstone region are primarily governed by lithospheric tectonics, with negligible contribution from the mantle plume. Below Yellowstone, our model predicts a southwest-dipping extension zone, shaped jointly by the lithospheric body force and basal traction. This tilted translithospheric deforming zone resembles the geophysically imaged magma plumbing system, confirming the key role of tectonic extension in tapping asthenospheric melts to shallow depths. Furthermore, we suggest that the translithospheric magma plumbing system facilitates complex magmatic processes, ultimately driving surface bimodal volcanism.
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