中国东北地下正在进行的岩石圈滴落过程及其对板块内火山活动的影响

Geology Pub Date : 2024-03-06 DOI:10.1130/g51861.1
Feiyu Lin, Liang Qi, Nan Zhang, Zhen Guo
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摘要

自渐新世以来,在中国东北地区观测到了独特的板块内火山喷发和火山西移现象,在该地区,西北太平洋板块的俯冲和日本海的开辟控制了一个凌驾于大陆之上的构造带。有趣的是,这些板块内岩浆活动发生在一个下沉盆地(松辽盆地)周围,但在松辽盆地内却没有观测到火山活动。造成这些火山的地球动力机制仍不清楚。为了研究中国东北地区地下的地球动力过程,我们在区域重建、地震和火山研究数据的约束下建立了数值模型。模型得出的地幔对流垂直速度场和岩石圈部分熔融结构表明,地幔上涌和熔融中心随着过渡带次水平板块的西移,在中国东北地区由东向西迁移,导致了观测到的火山迁移。同时,随着太平洋板块西北地区俯冲后退和日本海的开辟,长白山-牡丹江地区与松辽盆地之间形成了显著的岩石圈厚度差,导致岩石圈不稳定滴落。这种滴落结构阻止了岩石圈的部分融化,但却促进了松辽盆地的下沉。此外,岩石圈滴落模型成功预测了上地幔结构,与提出的层析成像模型、观测到的莫霍深度和地表地形变化相一致。因此,岩石圈厚度差异和太平洋板块俯冲后退诱发的岩石圈滴落为中国东北地区独特的地球动力学过程提供了一个强有力的机制。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
An ongoing lithospheric dripping process beneath northeast China and its impact on intraplate volcanism
Unique intraplate volcano eruptions and westward volcano migration since the Oligocene have been observed in northeast China, where an overriding continental zone is tectonically controlled by the subduction of the northwestern Pacific plate and the opening of Japan Sea. Interestingly, these intraplate magmatic events occur around a subsiding basin (the Songliao Basin), but no volcanic activity has been observed within the Songliao Basin. The geodynamic mechanism responsible for these volcanoes remains unclear. To address the geodynamic process beneath northeast China, we conducted numerical models constrained by data from regional reconstruction and seismic and volcanic studies. The vertical velocity field of mantle convection and lithospheric partial melting structures derived from our models show that mantle upwelling and melting centers migrate from east to west in northeast China with the westward propagation of the sub-horizontal slab in the transition zone, leading to the observed volcano migration. Also, with the subduction retreat of the northwestern region of the Pacific plate and the opening of the Japan Sea, significant lithospheric thickness differences developed between the Changbaishan-Mudanjiang region and the Songliao Basin, leading to lithospheric unstable dripping. This dripping structure prevents the partial melting of the lithosphere but facilitates the subsidence of the Songliao Basin. Moreover, the lithospheric dripping model successfully predicts upper mantle structures consistent with the proposed tomography model, the observed Moho depth, and surface topography variations. Thus, lithospheric dripping induced by lithospheric thickness differences and the retreating subduction of the Pacific slab provides a robust mechanism for the unique geodynamic processes in northeast China.
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