From flood basalts to the inception of oceanization: Example from the super(40)Ar/ super(39)Ar high-resolution picture of the Karoo large igneous province

The Jurassic Karoo large igneous province consists of vast quantities of basaltic lava flows, giant dike swarms, and poorly dated silicic magmatism. The Karoo magmatism occurred over more than 3 10 super(6) km super(2) and was associated with the opening of the Indian Ocean. We present new super(40)...

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Bibliographic Details
Published in:Geochemistry, geophysics, geosystems : G3 geophysics, geosystems : G3, 2007-02, Vol.8 (2), p.np-np
Main Authors: Jourdan, F, Feraud, G, Bertrand, H, Watkeys, M K
Format: Article
Language:English
Subjects:
Age
Basalt
Dikes
Evolution
Floods
Geochronology
Indian Ocean
Lava
Marine
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Summary:The Jurassic Karoo large igneous province consists of vast quantities of basaltic lava flows, giant dike swarms, and poorly dated silicic magmatism. The Karoo magmatism occurred over more than 3 10 super(6) km super(2) and was associated with the opening of the Indian Ocean. We present new super(40)Ar/ super(39)Ar geochronological data concerning the easternmost part (i.e., the Mwenezi and Lebombo areas) of the Karoo province, close to the future rifted margin. These data allow documenting the final history of the province and the time elapsed between the end of the Karoo magmatism and the inception of oceanization. This important type of information is poorly constrained for most of the large igneous provinces. Eighteen plagioclase separates yielded 14 plateau and "mini-plateau" ages obtained on 3 basaltic dikes (178.1 plus or minus 1.1 to 177.2 plus or minus 2.4 Ma; 2 sigma ), 3 gabbroic (178.2 plus or minus 1.7 to 176.8 plus or minus 0.7 Ma) and 2 silicic (175.8 plus or minus 0.7 to 174.4 plus or minus 0.7 Ma) plutons, and 1 rhyolitic lava flow (177.8 plus or minus 0.7 Ma). We also obtained three concordant plateau and mini-plateau ages ranging from 173.9 plus or minus 0.7 Ma to 172.1 plus or minus 2.3 Ma on the atypical E-MORB-like N-S striking Rooi Rand dikes. One dike from the Save-Limpopo N70 degree -oriented giant dike swarm provides a mini-plateau age of 177.7 plus or minus 0.8 Ma in agreement with the dates previously determined on this branch and possibly assessing the same age and short duration ( less than or equal to 1-2 Myr) as for the 179 Ma giant Okavango dike swarm. New and previous selected age data obtained on the Karoo province show that the magmatism was active over 10 Myr from 184 to 174 Ma. The main basaltic phase occurred mostly over the first 5 Myr and was progressively followed by a more differentiated and less voluminous magmatism over the last 4 Myr. The easternmost Lebombo-Mwenezi long-lasting magmatism is interpreted as being triggered by the progressive lithospheric extension preceding the continental disruption. The transition from rifting to oceanization is probably illustrated by the E-MORB-like Rooi Rand dikes which are likely to be emplaced during or shortly after the final stage of the Karoo magmatism. A geodynamic evolution of the province is proposed. These data indicate that the Karoo magmatism represents an atypical province (admitting that other large igneous provinces are sufficiently known) with a long-lasting a
ISSN:1525-2027
1525-2027
DOI:10.1029/2006GC001392