Ultraslow spreading and volcanism at the eastern end of Gakkel Ridge, Arctic Ocean

Ultraslow spreading ridges are poorly understood plate boundaries consisting of magmatic and amagmatic segments that expose mostly mantle peridotite and only traces of basalt and gabbro. The slowest part of the global spreading system is represented by the eastern Gakkel Ridge in the Central Arctic...

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Bibliographic Details
Published in:Geochemistry, Geophysics, Geosystems
Main Authors: Jokat, Wilfried, O'Connor, John, Hauff, Folkmar, Koppers, Anthony A.P., Miggins, D
Format: Article in Journal/Newspaper
Language:unknown
Published: Wiley 2019
Subjects:
Arctic
Arctic Ocean
Gakkel Ridge
Laptev Sea
laptev
Online Access:https://epic.awi.de/id/eprint/50491/
https://epic.awi.de/id/eprint/50491/1/Jokat-2019-g3-GakkelDeepGeochemistry.pdf
https://hdl.handle.net/10013/epic.e3071f66-4983-4477-a84b-6b7b58eba973
https://hdl.handle.net/
Description
Summary:Ultraslow spreading ridges are poorly understood plate boundaries consisting of magmatic and amagmatic segments that expose mostly mantle peridotite and only traces of basalt and gabbro. The slowest part of the global spreading system is represented by the eastern Gakkel Ridge in the Central Arctic Ocean, where crustal accretion is characterized by extreme focusing of melt to discrete magmatic centers. Close to its eastern tip lies the unusual 5,310 m deep Gakkel Rift Deep (GRD) with limited sediment infill, which is in strong contrast to the broader sediment-filled rift valleys to the east and west. Here, we report an 40Ar/39Ar age of 3.65±0.01 Ma for a pillow basalt from a seamount located on the rim the GRD confirming ultraslow spreading rates of ~7 mm/yr close to the Laptev Sea as suggested from aeromagnetic data. Its geochemistry points to an alkaline lava, attributed to partial melting of a source that underwent prior geochemical enrichment. We note that the GRD extracts compositionally similar melts as the sparsely magmatic zone further west but at much slower spreading velocities of only ~6-7 mm/yr, indicating the widespread occurrence of similarly fertile mantle in the High Arctic. This enriched source differs from sub-continental lithospheric mantle that influences magmatism along the Western Volcanic Zone (Goldstein et al. 2008) and is similar to metasomatized mantle - shown to influence melt genesis along the Eastern Volcanic Zone.

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