2013
DOI: 10.1002/jgrb.50164
|View full text |Cite
|
Sign up to set email alerts
|

Late‐stage magma flow in a shallow felsic reservoir: Merging the anisotropy of magnetic susceptibility record with numerical simulations in La Gloria Pluton, central Chile

Abstract: [1] La Gloria Pluton is a 10 Myr old epizonal intrusion located in the southern Andes. We present anisotropy of magnetic susceptibility data that indicate a magnetic fabric that is mainly oblate. We find that lineations are weak and have a N-NW trend with a nearly horizontal dip, while foliations are more pronounced, have NW trends, and have dips that vary from vertical at the walls of the intrusion to horizontal at the center and under the roof of the chamber. To interpret these magmatic fabrics, we developed… Show more

Help me understand this report

Search citation statements

Order By: Relevance

Paper Sections

Select...
2
1
1
1

Citation Types

2
20
0

Year Published

2015
2015
2023
2023

Publication Types

Select...
7

Relationship

2
5

Authors

Journals

citations
Cited by 30 publications
(22 citation statements)
references
References 56 publications
(141 reference statements)
2
20
0
Order By: Relevance
“…We explain the steep magnetic foliation preserved at the present-day erosional level as developed through convective flow during emplacement of the pulses against each other. Furthermore, we hypothesize that the "onion-skin" architecture has a 3-D shape as envisioned in Figure 14a (e.g., Gutiérrez et al, 2013;Payacán et al, 2014;Sant'Ovaia et al, 2000). The sparsity of structural data prevents a comparable evaluation of the relatively younger Alum Creek porphyry (Pulse 4), but the five AMS stations also show steep foliations and thus imply a small-scale vertical, perhaps stock-like intrusion (Figure 14a).…”
Section: Complex Multipulsed Emplacement Of the Alamosa River Plutonmentioning
confidence: 98%
See 2 more Smart Citations
“…We explain the steep magnetic foliation preserved at the present-day erosional level as developed through convective flow during emplacement of the pulses against each other. Furthermore, we hypothesize that the "onion-skin" architecture has a 3-D shape as envisioned in Figure 14a (e.g., Gutiérrez et al, 2013;Payacán et al, 2014;Sant'Ovaia et al, 2000). The sparsity of structural data prevents a comparable evaluation of the relatively younger Alum Creek porphyry (Pulse 4), but the five AMS stations also show steep foliations and thus imply a small-scale vertical, perhaps stock-like intrusion (Figure 14a).…”
Section: Complex Multipulsed Emplacement Of the Alamosa River Plutonmentioning
confidence: 98%
“…These microphenocrysts (now embedded within the matrix) were able to rotate within the interstitial space between larger plagioclase phenocrysts and align in response to magma flow (e.g., Benn, 1994;Paterson et al, 2019). The magnetic fabrics thus represent proxies for magmatic strain during late-stage flow and emplacement that were likely captured instantaneously along inward propagating crystallization fronts (e.g., Gutiérrez et al, 2013;Marsh, 1996;Paterson et al, 1998Paterson et al, , 2019. In addition, we infer a simple AMS-to-strain relation in which the principal AMS axes (k 1 , k 2 , and k 3 ) correspond to the X i , Y i , and Z i axes of the instantaneous strain ellipsoid (e.g., Borradaile, 1991;Borradaile & Henry, 1997;Cogné & Perroud, 1988;Hrouda, 1993;Ježek & Hrouda, 2002).…”
Section: Geochemistry Geophysics Geosystemsmentioning
confidence: 99%
See 1 more Smart Citation
“…Extensive upward (and downward?) flow late during pluton emplacement (or by convection in the reservoir; Gutierrez et al, 2013), as recorded by widespread steep mineral foliations in eroded Cordilleran plutons, would have disrupted and largely obliterated the early history of tabular magma assembly. Large individual plutons and composite batholith-size bodies, even if incrementally constructed by magma batches having lenticular aspect ratios, aggregate on scales that eventually occupy much of the crust.…”
Section: Assembly Of Cordilleran Plutonsmentioning
confidence: 99%
“…Conflicting geological, geochemical, and geophysical evidence suggest that magmas and migmatites are either short-lived or can persist in a crystalrich state for time spans up to 10 6 years [Barboni et al, 2016;de Silva and Gregg, 2014;Kaiser et al, 2017;Paterson et al, 2016;Pritchard and Gregg, 2016;Stelten et al, 2017;Ward et al, 2014]. In the plutonic record this is often expressed as complex time-transgressive mineral and magnetic fabrics with evidence for both fluid and granular (crystal-crystal) interactions [Collins et al, 2006;Gutiérrez et al, 2013;Holness et al, 2007;Jerram et al, 2003;Nicolas, 1992;Paterson, 2009;Sawyer, 2008] and in the volcanic record by the eruption of crystal-rich magmas with a complex crystal cargo [Bachmann et al, 2002;Charlier et al, 2007;Klemetti and Clynne, 2014;Lindsay et al, 2001;Thomson and Maclennan, 2013] (see Figure 1). Persistent crystal-rich conditions in basaltic magma bodies have also been inferred based on seismic evidence from ocean islands and mid-ocean ridges [Lin et al, 2014;Sinton and Detrick, 1992] and by the occurrence of picrites [Rhodes, 1995].…”
Section: Introductionmentioning
confidence: 99%