The Cocos and Carnegie Aseismic Ridges: a Trace Element Record of Long-term Plume–Spreading Center Interaction

The Cocos and Carnegie Aseismic Ridges: a Trace Element Record of Long-term Plume–Spreading Center Interaction

The aseismic Cocos and Carnegie Ridges, two prominent bathymetric features in the eastern Pacific, record ∼20 Myr of interaction between the Galápagos hotspot and the adjacent Galápagos Spreading Center. Trace element data determined by inductively coupled plasma-mass spectrometry in >90 dredge...

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Bibliographic Details
Published in:Journal of petrology Vol. 46; no. 1; pp. 109 - 133
Main Authors: HARPP, KAREN S., WANLESS, VIRGINIA D., OTTO, ROBERT H., HOERNLE, KAJ, WERNER, REINHARD
Format: Journal Article
Language:English
Published: Oxford Oxford University Press 01-01-2005
Oxford Publishing Limited (England)
Subjects:
abandoned rift
Galápagos
mantle plume
mid-ocean ridge
partial melting of the mantle
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Summary:The aseismic Cocos and Carnegie Ridges, two prominent bathymetric features in the eastern Pacific, record ∼20 Myr of interaction between the Galápagos hotspot and the adjacent Galápagos Spreading Center. Trace element data determined by inductively coupled plasma-mass spectrometry in >90 dredged seamount lavas are used to estimate melt generation conditions and mantle source compositions along the ridges. Lavas from seamount provinces on the Cocos Ridge are alkalic and more enriched in incompatible trace elements than any in the Galápagos archipelago today. The seamount lavas are effectively modeled as small degree melts of a Galápagos plume source. Their eruption immediately follows the failure of a rift zone at each seamount province's location. Thus the anomalously young alkalic lavas of the Cocos Ridge, including Cocos Island, are probably caused by post-abandonment volcanism following either a ridge jump or rift failure, and not the direct activity of the Galápagos plume. The seamounts have plume-like signatures because they tap underlying mantle previously infused with Galápagos plume material. Whereas plume heterogeneities appear to be long-lived, tectonic rearrangements of the ridge plate boundary may be the dominant factor in controlling regional eruptive behavior and compositional variations.
Bibliography:Corresponding author. Telephone: (315)228-7211. Fax: (315)228-7187. E-mail: kharpp@mail.colgate.edu
local:egh064
ark:/67375/HXZ-TZ7135BZ-7
istex:05F496B6A403060E6BEFCDCF1F00819E0F2C1CB1
ISSN:0022-3530
1460-2415
DOI:10.1093/petrology/egh064