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Gain understanding of magma-assisted rifting through aligned scoria cones, examining faulting, magma intrusions, lithospheric thinning, and development of spreading zones locally and continentally. Explore implications for faulting, strain accommodation, and magma-induced rifting.
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Insights to extensional processes during magma assisted rifting: Evidence from aligned scoria cones. Reviewed by Richard Fletcher
Overview • Studies of continental or passive margin rifting in and around the Ethiopian rift zone. • Faulting in rift zone, may in part, be due to magmatic intrusions. • Alignment of scoria cones and flows allow for insight to development and lifespan of spreading zones. • Preferential Lithospheric thinning plays a role in the intrusions of magmas.
Continental Rifts • Generally characterized by the relatively broad zones of ‘mechanical’ extension in which faulting and stretching of the lithosphere accommodates strain. The broad reach of initial strain must shift towards narrow zones of magma intrusion at a new oceanic spreading centre.
Magma Induced Rifting • Thought to have caused extension but is now thought to be a by-product of strains. • Dike induced normal faulting aligns with more developed rifts such as Iceland. • Other studies show that magma may ascend through tail-cracks, releasing bends, extensional relay zones, and fault intersections.
Recap • Scoria cones align with faulting along rift zone. • Extruding magma shows development of spreading center. • Intrusive magma now the cause of continued extension and strain. • In real time we are witnessing the development of and oceanic spreading center.