Seismic Constraints on Crustal and Uppermost Mantle Structure Beneath the Hawaiian Swell: Implications for Plume-Lithosphere Interactions

Ba Manh Le1; Ting Yang1,2,3; JASON PHIPPS MORGAN1

2022-11-01

10.1029/2021JB023822

JOURNAL OF GEOPHYSICAL RESEARCH-SOLID EARTH   Impact Factor & Quartile

2169-9313

2169-9356

We infer the lithospheric structure beneath the Hawaiian Swell based on a joint inversion of ambient noise and teleseismic Rayleigh waves collected during the PLUME experiment. These combined datasets let us use Rayleigh waves with a period range of 8-50 s that provides imaging resolution for the shallow lithosphere and constrains interactions between the upwelling plume and migrating plate. We find an elongated low-velocity anomaly beneath the lithosphere along the island chain that connects to the plume conduit, consistent with the melting region associated with a restite hotspot swell root that has mechanically eroded the base of its overlying lithosphere. It could also be consistent with a plume refracted by the overriding plate motion if the plume could manage to deeply erode the lithospheric base, as only a more viscous restite root is seen to do in thermomechanical experiments. There is also a low-velocity body beneath the North Arch that coincides with the location of recent off-chain volcanic fields discovered there. Its location relative to the Molokai Fracture Zone (MFZ) supports the concept that swell-root material has preferentially spread beneath the younger side of the MFZ. We also find a clear low-velocity anomaly associated with the uppermost similar to 50 km of the fracture zone lithosphere. The relatively well-resolved shallow lithospheric structure determined here allows us to estimate the volumes of underplating and the total flux of the rising plume material that is added beneath the Hawaiian lithosphere, which we constrain to be in the range of 0.5-0.6 km(3)/yr.

Hawaiian swell ambient noise Rayleigh waves tomography underplating

SCI

English

NI Journal Papers

First ; Corresponding

National Natural Science Foundation of China["92058209","92058212","42150710533","42074114"] ; Shenzhen Science and Technology Program["KQTD20170810111725321","JCYJ20180504170422082"]

Geochemistry & Geophysics

Geochemistry & Geophysics

WOS:000928052400062

AMER GEOPHYSICAL UNION

GEOSCIENCES

Web of Science

1.OBS Laboratory, Department of Ocean Sciences and Engineering, Southern University of Science and Technology, Shenzhen, China
2.Southern Marine Science and Engineering Guangdong Laboratory (Guangzhou), Guangzhou, China
3.Shanghai Sheshan National Geophysical Observatory, Shanghai, China

Ba Manh Le,Ting Yang,JASON PHIPPS MORGAN. Seismic Constraints on Crustal and Uppermost Mantle Structure Beneath the Hawaiian Swell: Implications for Plume-Lithosphere Interactions[J]. JOURNAL OF GEOPHYSICAL RESEARCH-SOLID EARTH,2022,127(11).

Ba Manh Le,Ting Yang,&JASON PHIPPS MORGAN.(2022).Seismic Constraints on Crustal and Uppermost Mantle Structure Beneath the Hawaiian Swell: Implications for Plume-Lithosphere Interactions.JOURNAL OF GEOPHYSICAL RESEARCH-SOLID EARTH,127(11).

Ba Manh Le,et al."Seismic Constraints on Crustal and Uppermost Mantle Structure Beneath the Hawaiian Swell: Implications for Plume-Lithosphere Interactions".JOURNAL OF GEOPHYSICAL RESEARCH-SOLID EARTH 127.11(2022).