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Dyke Architecture, Mineral Layering, and Magmatic Convection; New Perspectives From the Younger Giant Dyke Complex, S Greenland

Lot Koopmans, William McCarthy, Craig Magee

2022Geochemistry Geophysics Geosystems11 citationsDOIOpen Access PDF

Abstract

Abstract Igneous sheet intrusions are a fundamental component of volcano plumbing systems. Identifying how sheet intrusion emplacement and geometry controls later magmatic processes is critical to understanding the distribution of volcanic eruptions and magma‐related ore deposits. Using the Younger Giant Dyke Complex (YGDC), a Mesoproterozoic suite of large (<800 m wide) mafic dykes in southern Greenland, we assess the influence sheet of emplacement and geometry on subsequent magma flow and mush evolution. Through structural mapping, petrographic observations, and anisotropy of magnetic susceptibility fabric analyses, we show that the YGDC was emplaced as a series of individual dyke segments, which following coalescence into a sheet intrusion remained largely isolated during their magmatic evolution. Through petrographic evidence for liquid‐rich growth of cumulus phases, concentric magnetic fabrics, and the detailed study layered zones within the YGDC, we infer magma convection occurred within the cores of each dyke element. We particularly relate layering to hydrodynamic sorting processes at a magma‐mush boundary toward the base of each convection cell. Overall, our work demonstrates that the initial geometry of sheet intrusions can constrain magma flow patterns and affect the distribution of crystallization regimes.

Topics & Concepts

GeologyMagma chamberIgneous rockPetrographyLayeringLayered intrusionMagmaPetrologyIgneous differentiationGeochemistryDikeVolcanoSillLarge igneous provinceGeophysicsMaficMagmatismSeismologyTectonicsBiologyBotanyGeological and Geochemical AnalysisGeology and Paleoclimatology ResearchGeomagnetism and Paleomagnetism Studies
Dyke Architecture, Mineral Layering, and Magmatic Convection; New Perspectives From the Younger Giant Dyke Complex, S Greenland | Litcius