Mesoscopic and magnetic fabrics in arcuate igneous bodies; an example from the Mandi-Karsog Pluton, Himachal Lesser Himalaya
Mesoscopic and magnetic fabrics in arcuate igneous bodies; an example from the Mandi-Karsog Pluton, Himachal Lesser Himalaya
Geological Magazine (September 2010) 147 (5): 652-664
- anisotropy
- aplite
- Asia
- deformation
- emplacement
- extension fractures
- fabric
- faults
- foliation
- fractures
- geochronology
- granites
- Himachal Pradesh India
- Himalayan Orogeny
- Himalayas
- igneous rocks
- India
- Indian Peninsula
- intrusions
- Lesser Himalayas
- lithostratigraphy
- magnetic properties
- magnetic susceptibility
- Main Boundary Fault
- Mandi India
- metamorphic rocks
- mylonites
- paleomagnetism
- Paleozoic
- plutonic rocks
- plutons
- Precambrian
- Proterozoic
- relative age
- stratigraphic units
- structural analysis
- tectonics
- thrust faults
- upper Precambrian
- veins
- Chail Formation
- Mandi-Karsog Pluton
Field, microstructural and anisotropy of magnetic susceptibility (AMS) data from the Palaeozoic Mandi-Karsog pluton in the Lesser Himalayan region reveal a concordant relationship between fabric of the Proterozoic host rock and the granite. The pluton displays a prominent arcuate shape on the geological map. The margin-parallel mesoscopic and magnetic fabrics of the granite and warping of the host rock fabric around the pluton indicate that this regional curvature is either synchronous or pre-dates the emplacement of the granite body. Mesoscopic fabric, magnetic fabric and microstructures indicate that the northern part of the pluton preserves its pre-Himalayan magmatic fabric while the central and southern part shows tectonic fabric related to the Tertiary Himalayan orogeny. The presence of NW-SE-trending aplitic veins within the granite indicates a post-emplacement stretching in the NE-SW direction. Shear-sense indicators in the mylonites along the margin of the pluton suggest top-to-the-SW shearing related to the Himalayan orogeny. Based on these observations, it is envisaged that the extension that gave rise to this rift-related magmatism had a NE-SW trend, that is, normal to the trend of the aplite veins. Subsequently, during the Himalayan orogeny, compression occurred along this same NE-SW orientation. These findings imply that the regional curvature present in the Himachal Lesser Himalaya is in fact a pre-Himalayan feature and the pluton has formed by filling a major pre-Himalayan arcuate extension fracture.