Abstract
The Danakil depression marks a progressive change from continental rifting in Afar to seafloor spreading further north in the Red Sea. Extension and volcanism in this incipient spreading centre is localised to the ~70-km-long, 20-km-wide active Erta Ale volcanic segment. Here, we combine remote sensing and major element geochemical analysis to determine the structure and composition of three volcanoes on the Erta Ale Volcanic Segment: the Alu dome, the Dalafilla stratovolcano and the Borale stratovolcano. We investigate the evolution and compositional variation within and between these volcanic complexes. Our results show that most flows are sourced from scoria cones and fissures, representing in total 15 phases of volcanism that occurred within four major eruptive stages, most likely occurring in the last 80 thousand years (kyr). The first stage represents large-scale fissure volcanism, comprising submarine basaltic phases. Stage two involves basaltic fissure volcanism around Alu. The third stage is dominated by trachy-andesite to rhyolitic volcanism from the volcanic edifices of Alu, Dalafilla and Borale and the fourth by a resumption of small-scale basaltic/trachybasalt fissure systems. Geochemical modelling indicates a paucity of crustal assimilation and mixing within the sub-volcanic magmatic system. Spatial analysis of volcanic cones and fissures within the area indicate the presence of a cone sheet and ring faults. The fissures are likely fed by sills connecting the magma source with the volcanic edifices of Alu and Borale. Our results reveal the cyclic nature of both eruption style and composition of major volcanic complexes in rift environments, prior to the onset of seafloor spreading.
Highlights
The East African Rift system (EARS) exposes various stages of rift sector development and provides an important natural laboratory to investigate how volcanism varies as continental rifting progresses in maturity towards full seafloor spreading (Wolfenden et al, 2004)
The volcanic activity of the area was divided into four main eruptive stages: (1) rift floor basalts predating the main volcanic edifices of Alu, Dalafilla and Borale; (2) fissure basalts around Alu-Dalafilla; (3) point source volcanism from all three volcanic centres; (4) rejuvenated fissures around Alu-Dalafilla
● Geochemical modelling carried out on whole rock samples indicate that all compositions may be explained through fractional crystallisation, with the exception of five samples, which require plagioclase accumulation
Summary
The East African Rift system (EARS) exposes various stages of rift sector development and provides an important natural laboratory to investigate how volcanism varies as continental rifting progresses in maturity towards full seafloor spreading (Wolfenden et al, 2004). We combine this information with petrographic and geochemical analyses of 29 lavas and one pumice, collected during the French-Italian field campaign in the 1970s (i.e., Barberi et al, 1973; CNR-CNRS, 1975) These samples were accessed at the “Petroteca Dancalia” repository of Afar rocks housed at the University of Pisa, Italy (http://repositories.dst.unipi.it/index.php/home-afar). These data are combined to explore the evolution of Alu-Dalafilla and Borale, and provide new insights into the spatial and temporal evolution of these volcanic centres. Our results show: a. the volcanism at Alu-Dalafilla and Borale has been dominated by basalts sourced from fissures orientated making the magmatic segment with a period of more evolved volcanism (e.g., trachyte and rhyolite) sourced from the volcanic edifices (Alu, Dalafilla and Borale)
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