Reconstruction of a multi-vent kimberlite eruption from deposit and host rock characteristics: Jericho kimberlite, Nunavut, Canada

The Jericho kimberlite (173.1. ±. 1.3. Ma) is a small (~. 130. ×. 70. m), multi-vent system that preserves products from deep (>. 1. km?) portions of kimberlite vents. Pit mapping, drill core examination, petrographic study, image analysis of olivine crystals (grain size distributions and shape s...

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Bibliographic Details
Published in:Journal of Volcanology and Geothermal Research
Main Authors: Hayman, Patrick, Cas, Ray
Format: Article in Journal/Newspaper
Language:unknown
Published: Elsevier 2011
Subjects:
Archean
Canada
Column collapse
Core drilling
Debris
Deposits
Devonians
Drill core
Eastern side
Grain growth
Grain size and shape
Grain size distribution
Grain size distributions
Granodiorite
Host rocks
In-situ
Kimberlite magmas
Kimberlite reconstruction
Limestone
Magma ascents
Magma fragmentation
Magmatisms
Near-surface
Nunavut
Olivine
Olivine crystals
Olivine shape
Petrographic studies
Rock products
Silicate minerals
Size determination
Size distribution
Slab mills
Thin slab
Vent growth
Vent systems
Volcaniclastics
dike swarm
emplacement
explosive volcanism
fragmentation
host rock
kimberlite
magmatism
matrix
pyroclastic deposit
reconstruction
venting
volcanic eruption
volcaniclastic deposit
Online Access:https://eprints.qut.edu.au/84954/
Description
Summary:The Jericho kimberlite (173.1. ±. 1.3. Ma) is a small (~. 130. ×. 70. m), multi-vent system that preserves products from deep (>. 1. km?) portions of kimberlite vents. Pit mapping, drill core examination, petrographic study, image analysis of olivine crystals (grain size distributions and shape studies), and compositional and mineralogical studies, are used to reconstruct processes from near-surface magma ascent to kimberlite emplacement and alteration. The Jericho kimberlite formed by multiple eruptions through an Archean granodiorite batholith that was overlain by mid-Devonian limestones ~. 1. km in thickness. Kimberlite magma ascended through granodiorite basement by dyke propagation but ascended through limestone, at least in part, by locally brecciating the host rocks. After the first explosive breakthrough to surface, vent deepening and widening occurred by the erosive forces of the waxing phase of the eruption, by gravitationally induced failures as portions of the vent margins slid into the vent and, in the deeper portions of the vent (>. 1. km), by scaling, as thin slabs burst from the walls into the vent. At currently exposed levels, coherent kimberlite (CK) dykes (<. 40. cm thick) are found to the north and south of the vent complex and represent the earliest preserved in-situ products of Jericho magmatism. Timing of CK emplacement on the eastern side of the vent complex is unclear; some thick CK (15-20. m) may have been emplaced after the central vent was formed. Explosive eruptive products are preserved in four partially overlapping vents that are roughly aligned along strike with the coherent kimberlite dyke. The volcaniclastic kimberlite (VK) facies are massive and poorly sorted, with matrix- to clast-supported textures. The VK facies fragmented by dry, volatile-driven processes and were emplaced by eruption column collapse back into the volcanic vents. The first explosive products, poorly preserved because of partial destruction by later eruptions, are found in the central-east vent and ...

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