Effective elastic thickness of the lithosphere along the Easter Seamount Chain

Kruse, Sarah E.; Liu, Zhengrong J.; Naar, David F.; Duncan, Robert A.

Citeable URL: https://ir.library.oregonstate.edu/concern/articles/ff3656708

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Creator	Kruse, Sarah E. Liu, Zhengrong J. Naar, David F. Duncan, Robert A.
Abstract	Bathymetry and gravity data collected during Legs 5, 6, and 7 of the 1993 GLORIA Expedition and the recently released 2-min altimetry-derived global gravity grid are used to determine the effective elastic thickness of the lithosphere along the Easter Seamount Chain (ESC). Forward modeling, admittance, and coherence methods yield consistent results. With the exception of the eastern and western ends of the ESC the effective elastic thickness along the chain is similar to 1-4 km. The thin elastic thickness for the majority of the ESC seamounts is compatible with a young seafloor age at the time of loading derived from new radiometric ages of the seamounts along the chain and a magnetic isochron age interpretation of the Nazca plate seafloor age. The elastic thickness southeast of the Nazca fracture zone is similar to 6 km, apparently because of the seafloor age discontinuity across the fracture zone. The elastic thickness near the San Felix Island, at the eastern end of the ESC, is even greater (similar to 11 km), which is compatible with the estimated seafloor age at the time of loading. A slight increase in the effective elastic thickness of the far western part of the ESC suggests dynamic compensation or less thermal weakening of lithosphere above a plume channel versus directly above the plume center. These findings combined with published geochemistry support a hotspot origin for the ESC, complicated by large-scale plate boundary reorganizations and channeling of plume material to the East Pacific Rise.
Resource Type	Article
DOI	https://doi.org/10.1029/97jb02158
Date Available	2010-04-13T12:54:52+00:00
Date Issued	1997-12-10
Citation	Kruse, S.E., Liu, Z.R.J., Naar, D.F., Duncan, R.A., 1997, Effective elastic thickness of the lithosphere along the Easter Seamount Chain. Journal of Geophysical Research, Vol. 102, Pg. 27,305–27,317.
Journal Title	Journal of Geophysical Research
Journal Volume	102
Journal Issue/Number	B12
权利声明	Copyright Not Evaluated
Funding Statement (additional comments about funding)	Funding was provided by NSF grants OCE9116012, OCE9214494, OCE921 4495, OCE9214496, OCE9258626, and OCE9302802.
Publisher	American Geophysical Union
Language	English [eng]
Replaces	http://hdl.handle.net/1957/15392
ISSN	0148-0227

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Effective elastic thickness of the lithosphere along the Easter Seamount Chain

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Effective elastic thickness of the lithosphere along the Easter Seamount Chain

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