Depleted mantle wedge and sediment fingerprint in unusual basalts from the Manihiki Plateau, central Pacific Ocean
Depleted mantle wedge and sediment fingerprint in unusual basalts from the Manihiki Plateau, central Pacific Ocean
Numerous large igneous provinces formed in the Pacific Ocean during Early Cretaceous time, but their origins and relations are poorly understood. We present new geochronological and geochemical data on rocks from the Manihiki Plateau and compare these results to those for other Cretaceous Pacific plateaus. A dredged Manihiki basalt gives an 40Ar-39Ar age of 117.9 ± 3.5 Ma (2?), essentially contemporaneous with the Ontong Java Plateau 2500 km to the west, and the possibly related Hikurangi Plateau 3000 km to the south. Drilled Manihiki lavas are tholeiitic with incompatible trace element abundances similar to those of Ontong Java basalts. These lavas may result from high degrees of partial melting during the main eruptive phase of plateau formation. There are two categories of dredged lavas from the Danger Islands Troughs, which bisect the plateau. The first is alkalic lavas having strong enrichments in light rare earth and large-ion lithophile elements; these lavas may represent late-stage activity, as one sample yields an 40Ar-39Ar age of 99.5 ± 0.7 Ma. The second category consists of tholeiitic basalts with U-shaped incompatible element patterns and unusually low abundances of several elements; these basalts record a mantle component not previously observed in Manihiki, Ontong Java, or Hikurangi lavas. Their trace element characteristics may result from extensive melting of depleted mantle wedge material mixed with small amounts of volcaniclastic sediment. We are unaware of comparable basalts elsewhere.
large igneous provinces, early cretaceous, manihiki plateau, pacific ocean, geochemistry, geochronology
595-598
Ingle, Stephanie
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Mahoney, John J.
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Sato, Hiroshi
efcd3394-0f46-4b69-a958-87a8886c1455
Coffin, Millard F.
69674f21-5f5a-4ef4-aac5-caa4d8c3b5e4
Kimura, Jun-Ichi
78b1b00d-3857-45e3-8a70-2e4f8d977b86
Hirano, Naoto
1f3dfd4a-dab0-4b27-b141-ef3d7fff9983
Nakanishi, Masao
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July 2007
Ingle, Stephanie
290ddc48-9f8a-4639-86a7-d552434de4e8
Mahoney, John J.
a5925875-cd73-45ea-9337-0b5360043a5e
Sato, Hiroshi
efcd3394-0f46-4b69-a958-87a8886c1455
Coffin, Millard F.
69674f21-5f5a-4ef4-aac5-caa4d8c3b5e4
Kimura, Jun-Ichi
78b1b00d-3857-45e3-8a70-2e4f8d977b86
Hirano, Naoto
1f3dfd4a-dab0-4b27-b141-ef3d7fff9983
Nakanishi, Masao
3a4dc2b1-fd26-4388-a6b1-49977513e614
Ingle, Stephanie, Mahoney, John J., Sato, Hiroshi, Coffin, Millard F., Kimura, Jun-Ichi, Hirano, Naoto and Nakanishi, Masao
(2007)
Depleted mantle wedge and sediment fingerprint in unusual basalts from the Manihiki Plateau, central Pacific Ocean.
Geology, 35 (7), .
(doi:10.1130/G23741A.1).
Abstract
Numerous large igneous provinces formed in the Pacific Ocean during Early Cretaceous time, but their origins and relations are poorly understood. We present new geochronological and geochemical data on rocks from the Manihiki Plateau and compare these results to those for other Cretaceous Pacific plateaus. A dredged Manihiki basalt gives an 40Ar-39Ar age of 117.9 ± 3.5 Ma (2?), essentially contemporaneous with the Ontong Java Plateau 2500 km to the west, and the possibly related Hikurangi Plateau 3000 km to the south. Drilled Manihiki lavas are tholeiitic with incompatible trace element abundances similar to those of Ontong Java basalts. These lavas may result from high degrees of partial melting during the main eruptive phase of plateau formation. There are two categories of dredged lavas from the Danger Islands Troughs, which bisect the plateau. The first is alkalic lavas having strong enrichments in light rare earth and large-ion lithophile elements; these lavas may represent late-stage activity, as one sample yields an 40Ar-39Ar age of 99.5 ± 0.7 Ma. The second category consists of tholeiitic basalts with U-shaped incompatible element patterns and unusually low abundances of several elements; these basalts record a mantle component not previously observed in Manihiki, Ontong Java, or Hikurangi lavas. Their trace element characteristics may result from extensive melting of depleted mantle wedge material mixed with small amounts of volcaniclastic sediment. We are unaware of comparable basalts elsewhere.
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Published date: July 2007
Keywords:
large igneous provinces, early cretaceous, manihiki plateau, pacific ocean, geochemistry, geochronology
Identifiers
Local EPrints ID: 48707
URI: http://eprints.soton.ac.uk/id/eprint/48707
ISSN: 0091-7613
PURE UUID: e7dcba44-27d5-4974-813c-5b058a316335
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Date deposited: 09 Oct 2007
Last modified: 15 Mar 2024 09:48
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Contributors
Author:
Stephanie Ingle
Author:
John J. Mahoney
Author:
Hiroshi Sato
Author:
Millard F. Coffin
Author:
Jun-Ichi Kimura
Author:
Naoto Hirano
Author:
Masao Nakanishi
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