Northeastern Section - 44th Annual Meeting (22–24 March 2009)

Paper No. 2
Presentation Time: 1:20 PM

GRANITE PLUTONISM DURING CRUSTAL CHANNEL FLOW


ANDRONICOS, Christopher and PHIPPS MORGAN, Jason, Department of Earth and Atmopheric Sciences, Cornell University, Snee Hall, ithaca, NY 14853, ca98@cornell.edu

Intermediate to felsic magmas (‘granites') have compositions that reflect the average composition of the continental crust and are intimately related to deformation and metamorphism in the continents. However, there is no general consensus on the mechanisms by which granitic plutons are emplaced. Common models for pluton emplacement call on magma driven ‘hydro'-fracture during dike and sill emplacement, the buoyant rise of magmas as diapers with radial expansion, stoping, or into dilation regions controlled by shear zones. Here, we unite field observations of granitic plutons with geophysical observations of plateau and geodynamic models into a new model for pluton emplacement. The observations are consistent with a model for pluton emplacement where granitic plutons are emplaced as viscous ‘channel flows'. This is an appealing model because pluton emplacement is linked directly to regional deformation, the magma can propagate into regions where all the stresses are compressive, negating the need for stress controlled tensile fracture, and magmas can intrude rocks of equal or less density because buoyancy forces are not the primary driver of channel propagation. This mechanism, if correct, may be a dominate mechanism for pluton emplacement in orogenic plateau.