Extended correlation of the Paleogene Faroe Islands and East Greenland plateau basalts

New analytical data are presented for 13 enriched high-Ti tholeiitic basalts from the top of the Faroese lava pile that was formed by the time of break-up of the North Atlantic 56-55 Ma ago and are located on the eastern continental margin of the Atlantic Ocean. The samples fall in three groups acco...

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Bibliographic Details
Published in:Lithos
Main Authors: Søager, Nina, Holm, Paul Martin
Format: Article in Journal/Newspaper
Language:English
Published: 2008
Subjects:
Online Access:https://curis.ku.dk/portal/da/publications/extended-correlation-of-the-paleogene-faroe-islands-and-east-greenland-plateau-basalts(34b0f990-d9be-11dd-9473-000ea68e967b).html
https://doi.org/10.1016/j.lithos.2008.10.002
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Summary:New analytical data are presented for 13 enriched high-Ti tholeiitic basalts from the top of the Faroese lava pile that was formed by the time of break-up of the North Atlantic 56-55 Ma ago and are located on the eastern continental margin of the Atlantic Ocean. The samples fall in three groups according to their Nb/Zr/Y chemistry: High-Ti1, High-Ti2 and High-Ti3. The grouping is related to their stratigraphic position so that the High-Ti1 group is found lowest in the sampled profiles and the High-Ti3 group at the top with the High-Ti2 group in between. The High-Ti1 and High-Ti2 groups have 206 Pb/ 204 Pb = 17.59-18.30 while the High-Ti3 group has 206 Pb/ 204 Pb = 18.88-19.12. The three Faroese lava groups can be correlated with the East Greenland syn-breakup basalt formations using their geochemistry, lava morphology and phenocryst contents. The High-Ti1 group correlates with the Milne Land Formation and the High-Ti2 and High-Ti3 groups correlate with the Geikie Plateau Formation and Rømer Fjord Formation, respectively. The discovery of equivalents to the East Greenland Geikie Plateau Formation and Rømer Fjord Formation means that volcanism has proceeded longer than previously thought on the Faroe Islands but with a lot lower intensity than on the other side of the rift. This demonstrates that large parts of the km-thick volcanic successions of the North Atlantic LIP developed in parallel on the juxtaposed rifted continental margins during break-up, although the centre of eruptions moved away from the Faroe Islands during the last stages of volcanism. Pb-isotope ratios indicate that the High-Ti1, High-Ti2, Milne Land Formation and Geikie Plateau Formation have the same mantle source while the High-Ti3 and Rømer Fjord Formation also contain material from another mantle component. High-Ti1 and Milne Land Formation lavas have a higher content of most incompatible elements compared to High-Ti2 and Geikie Plateau Formation. This is unexpected because the Zr/Nb ratio indicates that the High-Ti2 and Geikie Plateau ...