Lens effect of remnant blocks on deep mantle upwelling causing anomalous subsidence

Liu, Liang; Cao, Zebin; Morgan, Jason P.; Hua, Yuan-Yuan; Liu, Lijun; Yang, Fan; Long, Shi-Mai; Xu, Yi-Gang

Lens effect of remnant blocks on deep mantle upwelling causing anomalous subsidence

Liang Liu (), Zebin Cao, Jason P. Morgan, Yuan-Yuan Hua, Lijun Liu (), Fan Yang, Shi-Mai Long and Yi-Gang Xu
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Liang Liu: Chinese Academy of Sciences
Zebin Cao: Chinese Academy of Sciences
Jason P. Morgan: ICM-CSIC
Yuan-Yuan Hua: Chinese Academy of Sciences
Lijun Liu: Chinese Academy of Sciences
Fan Yang: Southern Marine Science and Engineering Guangdong Laboratory (Guangzhou)
Shi-Mai Long: Chinese Academy of Sciences
Yi-Gang Xu: Chinese Academy of Sciences

Nature Communications, 2025, vol. 16, issue 1, 1-13

Abstract: Abstract Classical mantle convection models predict a broad surface uplift over a lower mantle upwelling. However, recent studies have identified anomalously localized surface subsidence above seismically imaged lower mantle upwellings, particularly in regions where upwellings are impeded by subducted/delaminated blocks not currently connected to a subducting/delaminating lithosphere (‘remnant blocks’ for simplicity), e.g., in the western USA and the South China Sea. Known geological processes cannot fully explain the observed localized subsidence, and its locality implies a strong association with the underneath upwelling. Here, we use numerical models to quantitatively explore the contribution of lower mantle upwelling to surface topography evolution. Our results demonstrate that the divergent mantle flow caused by lower-mantle upwelling can stretch the overlying lithosphere, inducing broad subsidence that can be reversed when the upwelling reaches the lithospheric bottom. Moreover, the interaction between the remnant block and upwelling can extend the duration of subsidence and focus the subsidence into a narrow region, which we call the lens effect of remnant blocks. Similar abnormal subsidence events in northeastern Asia further show the potential broad applicability of the proposed mechanism, although, in specific research areas, other shallow mechanisms could also have played important roles.

Date: 2025
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DOI: 10.1038/s41467-025-62987-1

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