On the emplacement of tabular granites

doi:10.1144/gsjgs.155.5.0853

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Journal of the Geological Society; 1998; v. 155; issue.5; p. 853-862;
DOI: 10.1144/gsjgs.155.5.0853
© 1998 Geological Society of London

Article

On the emplacement of tabular granites

CRUDEN ALEXANDER.R.

Department of Geology, University of Toronto, Erindale College, Mississauga, Ontario L5L 1C6, Canada (e-mail: cruden@credit.erin.utoronto.ca)

Granites in both crystalline terranes and continental magmaticarcs tend to be circular to elliptical in map view and varyin width from about 3 to 100 km. Available gravity and structuraldata suggests that many of these plutons are tabular in shapewith an average thickness of about 3 km. Ductile structuresobserved around mesozonal granites indicate that space is createdby a combination of lateral and vertical displacements of wallrocks, whereas contact relationships of epizonal plutons implythat only vertical displacements are involved during emplacement.In both settings magma arrives at the emplacement site via oneor more vertical feeder zones and flows laterally. With theexception of very high-level epizonal plutons, structural studiessuggest that space for many tabular intrusions must be providedmainly by floor-depression (lopolith emplacement) rather thanroof-lifting (laccolith emplacement). An emplacement model forthis type of tabular granite is proposed which involves progressivedepression of the floor of an initially horizontal chamber asit is filled by one or more vertical conduits. A crustal-scalebalance in the rates of melt extraction, magma ascent and pluton-fillingis required by the model, and transfer of material from thesource to the pluton is accommodated by broadly distributeddeformation of low strain magnitude. The process is evaluatedwith end-member cantilever and piston sinking mechanisms. Themodels predict that large (10–100 km wide), tabular plutons( $≤$ 3 km thick) can be emplaced quickly (100 a to 1 Ma) with floor-depressionand related wall-rock strain rates similar those expected duringtectonic deformation (10–¹⁰ to 10–¹⁵ s–¹).Bulk strains in the intervening crustal column rarely exceeda strain ratio of 1.5, which is likely to remain undetectedin the geological record unless the required deformation isaccommodated on discrete structures such as normal faults orshear zones at the base of the pluton.

Keywords: granites, magmas, emplacement, laccoliths, lopoliths.

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