From melt- to crystal-rich magmatic systems during rift localization: Insights from mineral chemistry in Central Afar (Ethiopia)

IF 3.5 2区 地球科学 Q1 GEOCHEMISTRY & GEOPHYSICS
Gianmaria Tortelli, A. Gioncada, C. Pagli, E. Braschi, E. F. Gebru, D. Keir
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Abstract

Magmatism plays a key role in accommodating and localizing extension during continental breakup. However, how the crustal magmatic systems evolve at the continental-ocean transition is poorly understood. We address these questions by studying the evolution of the magmatic system in the rift of Central Afar (Ethiopia), currently marking the transition from continental rifting to oceanic spreading. We focus on the voluminous and widespread Upper Stratoid Series (2.6–1.1 Ma) and the following Central Afar Gulf Series (1.1–0.6 Ma), the latter corresponding to localization of volcanism in narrow magmatic segments. We carried out the first systematic study of major and trace element mineral chemistry for these two Series and integrated it with geothermobarometry estimates and geochemical modeling, to reconstruct the evolution of the magmatic system architecture during rift localization. The Upper Stratoid magmas evolved by fractional crystallization in a melt-rich, moderately zoned, middle-lower crustal (10–18 km) magmatic system, from where they rose directly to the surface. Polybaric plagioclase convection and dissolution of a plagioclase-rich crystal mush is recorded in the phenocryst texture and chemistry. The Central Afar Gulf magmas evolved at similar depth in a more complex and dynamic storage system, with magma rising and mixing through multiple, relatively small, crystal-rich and interconnected reservoirs. Our study documents the transition during the continental breakup, from an overall stable and melt-rich magmatic system feeding the voluminous and homogeneous Upper Stratoid eruptions to a more dynamic, interconnected and crystal-rich situation feeding small-volume eruption while the rift localizes.

Abstract Image

裂谷定位过程中从熔融到富含晶体的岩浆系统:阿法尔中部(埃塞俄比亚)矿物化学的启示
岩浆活动在大陆断裂过程中适应和局部延伸方面起着关键作用。然而,人们对大陆-海洋过渡时期地壳岩浆系统如何演化知之甚少。我们通过研究阿法尔中部断裂(埃塞俄比亚)岩浆系统的演化来解决这些问题,该断裂目前正标志着从大陆断裂向大洋扩张的过渡。我们重点研究了体积巨大、分布广泛的上类地层系列(2.6-1.1 Ma)和随后的中阿法尔湾系列(1.1-0.6 Ma),后者与狭窄岩浆段的局部火山活动相对应。我们首次对这两个系列的主要和痕量元素矿物化学成分进行了系统研究,并将其与地温测量估算和地球化学建模相结合,重建了裂谷定位过程中岩浆系统结构的演变。上地层岩浆是在富熔融、中等分带、中下部地壳(10-18 千米)岩浆系统中通过分块结晶演化而成的,并从这里直接上升到地表。表晶的质地和化学成分记录了富含斜长石的多巴状斜长石对流和溶解。阿法尔湾中部岩浆是在一个更加复杂和动态的储集系统中在类似深度演化的,岩浆通过多个相对较小、富含晶体且相互连接的储集层上升和混合。我们的研究记录了大陆断裂期间的转变过程,从一个整体稳定、富含熔体的岩浆系统为大量、均质的上层岩浆喷发提供能量,到一个更加动态、相互连接、富含晶体的情况为小规模喷发提供能量,同时裂谷局部化。
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来源期刊
Contributions to Mineralogy and Petrology
Contributions to Mineralogy and Petrology 地学-地球化学与地球物理
CiteScore
6.50
自引率
5.70%
发文量
94
审稿时长
1.7 months
期刊介绍: Contributions to Mineralogy and Petrology is an international journal that accepts high quality research papers in the fields of igneous and metamorphic petrology, geochemistry and mineralogy. Topics of interest include: major element, trace element and isotope geochemistry, geochronology, experimental petrology, igneous and metamorphic petrology, mineralogy, major and trace element mineral chemistry and thermodynamic modeling of petrologic and geochemical processes.
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