TY - JOUR
T1 - Deformation temperatures, vorticity of flow and strain symmetry in the Loch Eriboll mylonites, NW Scotland
T2 - Implications for the kinematic and structural evolution of the northernmost Moine Thrust zone
AU - Thigpen, J. Ryan
AU - Law, Richard D.
AU - Lloyd, Geoffrey E.
AU - Brown, Summer J.
AU - Cook, Brian
N1 - Copyright:
Copyright 2011 Elsevier B.V., All rights reserved.
PY - 2010
Y1 - 2010
N2 - The Moine Thrust zone (MTZ) marks the Caledonian foreland-to-hinterland transition zone at the base of the Scandian (c. 430 Ma) orogenic wedge. In the Loch Eriboll region, the upper ductile part of the MTZ is composed in ascending order of two regionally extensive thrust sheets (Upper Arnaboll-Creag na Faoilin and Creagan) and is overlain by the Moine Nappe. Quartz crystal fabrics, kinematic vorticity (Wm), and strain estimates from the ductile thrust sheets in this region are used to determine how pure and simple shear components of deformation are partitioned, and indicate that these processes may be thermally, structurally, and lithologically dependent. At the lowest structural levels, quartzite and gneiss in the Upper Arnaboll-Creag na Faoilin (UA-CNF) thrust sheet yield rigid grain-based arithmetic mean minimum (Wmmin) and mean maximum (Wmmax) vorticity estimates of 0.57 and 0.67, respectively (60-53% pure shear). Creagan thrust sheet mylonites yield Wmmin and Wmmax estimates of 0.59 and 0.72 (59-48% pure shear). At the highest structural levels, Moine Nappe mylonites yield Wmmin and Wmmax estimates of 0.59 and 0.71 (59-49% pure shear). Quartz c- and a-axis fabrics qualitatively indicate an increase in non-coaxial deformation (top-to-the-west) traced towards structurally higher levels, which is accompanied by increases in deformation temperature (c. 370 °C to c. 550 °C). Integrated strain and vorticity estimates indicate that significant sub-vertical foliation normal shortening has occurred as nappe stacking progressed.
AB - The Moine Thrust zone (MTZ) marks the Caledonian foreland-to-hinterland transition zone at the base of the Scandian (c. 430 Ma) orogenic wedge. In the Loch Eriboll region, the upper ductile part of the MTZ is composed in ascending order of two regionally extensive thrust sheets (Upper Arnaboll-Creag na Faoilin and Creagan) and is overlain by the Moine Nappe. Quartz crystal fabrics, kinematic vorticity (Wm), and strain estimates from the ductile thrust sheets in this region are used to determine how pure and simple shear components of deformation are partitioned, and indicate that these processes may be thermally, structurally, and lithologically dependent. At the lowest structural levels, quartzite and gneiss in the Upper Arnaboll-Creag na Faoilin (UA-CNF) thrust sheet yield rigid grain-based arithmetic mean minimum (Wmmin) and mean maximum (Wmmax) vorticity estimates of 0.57 and 0.67, respectively (60-53% pure shear). Creagan thrust sheet mylonites yield Wmmin and Wmmax estimates of 0.59 and 0.72 (59-48% pure shear). At the highest structural levels, Moine Nappe mylonites yield Wmmin and Wmmax estimates of 0.59 and 0.71 (59-49% pure shear). Quartz c- and a-axis fabrics qualitatively indicate an increase in non-coaxial deformation (top-to-the-west) traced towards structurally higher levels, which is accompanied by increases in deformation temperature (c. 370 °C to c. 550 °C). Integrated strain and vorticity estimates indicate that significant sub-vertical foliation normal shortening has occurred as nappe stacking progressed.
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U2 - 10.1144/SP335.26
DO - 10.1144/SP335.26
M3 - Article
AN - SCOPUS:77955985700
SN - 0305-8719
VL - 335
SP - 623
EP - 662
JO - Geological Society Special Publication
JF - Geological Society Special Publication
ER -