Initial Cenozoic magmatic activity in East Africa: new geochemical constraints on magma distribution within the Eocene continental flood basalt province

R. Steiner, T. Rooney, G. Girard, N. Rogers, C. Ebinger, L. Peterson, R. Phillips
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引用次数: 6

Abstract

Abstract The initial interaction between material rising from the African Large Low Shear Velocity Province and the African lithosphere manifests as the Eocene continental large igneous province (LIP), centred on southern Ethiopia and northern Kenya. Here we present a geographically well-distributed geochemical dataset comprising flood basalt lavas of the Eocene continental LIP to refine the regional volcano-stratigraphy into three distinct magmatic units: (1) the highly alkaline small-volume Akobo Basalt (49.4–46.6 Ma), representing the initial phase of flood basalt volcanism derived from the melting of lithospheric–mantle metasomes; (2) the primitive and spatially restricted Amaro Basalt (45.2–39.8 Ma), representing the early main phase of flood basalt volcanism derived from the melting of the upwelling thermochemical anomaly; and (3) the spatially extensive Gamo–Makonnen magmatic unit (38–28 Ma), representing the mature main phase of flood basalt volcanism that has undergone significant processing within the lithosphere and resulted in relatively homogeneous compositions. The focused intrusion of these main phase magmas over 10 myr preconditioned the African lithosphere for the localization of strain during subsequent episodes of lithospheric stretching. The focusing of strain into the region occupied by this continental LIP may have contributed to the initial extension in SW Ethiopia that is associated with the East African Rift.
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东非新生代岩浆活动:始新世陆相洪水玄武岩省岩浆分布的地球化学约束
摘要来自非洲大低剪切速度省的物质与非洲岩石圈的初始相互作用表现为始新世大陆大火成岩省(LIP),以埃塞俄比亚南部和肯尼亚北部为中心。本文利用始新世陆相洪水玄武岩熔岩组成的地球化学数据,将区域火山地层划分为三个不同的岩浆单元:(1)高碱性小体积Akobo玄武岩(49.4-46.6 Ma),代表岩石圈-地幔交代体熔融形成的洪水玄武岩火山作用的初始阶段;(2)阿马洛原始玄武岩(45.2 ~ 39.8 Ma),为上升流热化学异常熔融形成的洪水玄武岩火山活动的早期主期;(3)空间广泛的gmo - makonnen岩浆单元(38 ~ 28 Ma),代表了洪水玄武岩火山活动的成熟主阶段,该岩浆活动在岩石圈内经历了明显的加工,导致成分相对均匀。这些超过10 myr的主相岩浆的集中侵入为非洲岩石圈在随后的岩石圈拉伸期间的应变定位奠定了条件。压力集中到这一大陆LIP所占据的区域可能促成了与东非裂谷有关的埃塞俄比亚西南部的最初延伸。
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