克拉通
软流圈
地质学
羽流
地幔柱
岩石圈
地幔对流
地幔(地质学)
对流
地球物理学
地球化学
岩石学
地震学
机械
构造学
物理
热力学
作者
Jyotirmoy Paul,Attreyee Ghosh
出处
期刊:Geology
[Geological Society of America]
日期:2021-12-03
卷期号:50 (3): 346-350
被引量:14
摘要
Abstract Thick and highly viscous roots are the key to cratonic survival. Nevertheless, cratonic roots can be destroyed under certain geological scenarios. Eruption of mantle plumes underneath cratons can reduce root viscosity and thus make them more prone to deformation by mantle convection. It has been proposed that the Indian craton could have been thinned due to eruption of the Réunion plume underneath it at ca. 65 Ma. In this study, we constructed spherical time-dependent forward mantle convection models to investigate whether the Réunion plume eruption could have reduced the Indian craton thickness. Along with testing the effect of different strengths of craton and its surrounding asthenosphere, we examined the effect of temperature-dependent viscosity on craton deformation. Our results show that the plume-induced thermomechanical erosion could have reduced the Indian craton thickness by as much as ~130 km in the presence of temperature-dependent viscosity. We also find that the plume material could have lubricated the lithosphere-asthenosphere boundary region beneath the Indian plate. This could be a potential reason for acceleration of the Indian plate since 65 Ma.
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