Microfabric study on the deformational and thermal history of the Alpi Apuane marbles (Carrara marbles), Italy

Marbles from different geometrical and structural positions within the Alpi Apuane metamorphic complex show a large variability in microfabric types a s indicated by microstructure, c-axis orientation and temperature analysis. Statically recrystallized samples showing a granoblastic microstructure and polygonal grain boundaries are characterized by a grain size variation fro m east to west from 80-100 mum to 250-300 mum This is correlated with an eq uilibration calcite-dolomite temperature from 360-380 degreesC to 420 degre es -430 degreesC. Two kinds of dynamically recrystallized microstructures have been investiga ted: a first one exhibiting coarse grains (150-200 mum) with lobate grain b oundaries and a strong shape preferred orientation and a second one charact erized by a smaller grain size (40-50 mum) and predominantly straight grain boundaries. These microstructural types, associated with localized post-th ermal peak shear zones and meter- to kilometer-scale folds, are interpreted as related to high strain and high temperature crystal plastic deformation mechanisms (dislocation creep) associated with predominant grain boundary migration (type-B1) or subgrain-rotation recrystallization (type-B2). These differences in dynamically recrystallized microstructures are related to e quilibration temperatures higher in type-B1 (390 degreesC) than in type-B2 (370-340 degreesC). We have been able to relate the development of the diff erent microfabric types to the successive stages of deformation of the Alpi Apuane metamorphic complex. (C) 2000 Elsevier Science Ltd. All rights rese rved.