TY - JOUR
T1 - Devonian-Mississippian faulting controlled by WNW-ESE-striking structural grain in Proterozoic basement rocks in Billefjorden, central Spitsbergen
AU - Koehl, Jean Baptiste P.
AU - Christophersen, Gard
AU - Collombin, Maxime
AU - Taule, Christoffer
AU - Stokmo, Eirik M.B.
AU - Allaart, Lis
N1 - Publisher Copyright:
© J-B.P. Koehl, G. Christophersen, M. Collombin, C. Taule, E.M.B. Stockmo, L. Allaart, 2023 CC BY-SA.
PY - 2023/2/28
Y1 - 2023/2/28
N2 - In Billefjorden, central Spitsbergen, Devonian collapse and Carboniferous rift-related sedimentary strata were deposited unconformably over Proterozoic basement rocks displaying well developed N-S-trending Caledonian grain. Caledonian structures and fabrics are thought to have controlled the location and trend of subsequent Devonian and Carboniferous basin-bounding faults like the Billefjorden fault zone and Lemströmfjellet–Løvehovden fault. However, fieldwork and interpretation of aerial photographs in Proterozoic basement rocks reveal the existence of steep, abundant, WNW-ESE-striking brittle faults that are sub-orthogonal to known major Caledonian and postCaledonian structures in Billefjorden, but that do not extend into adjacent-overlying, rift-related, Pennsylvanian rocks of the Gipsdalen Group. Structural analysis of field data and aerial photographs suggest that WNW-ESEstriking faults in basement rocks in Billefjorden formed as (sinistral) strike-slip and normal faults during DevonianMississippian extension in agreement with previously inferred models of sinistral transtension. The abundance of these faults suggest that their formation was controlled by analogously trending, preexisting structural grain (planar anisotropies) at depth, and their pronounced WNW-ESE strike suggest that the strike of preexisting anisotropies were comparable to recently identified, crustal-scale, WNW-ESE-striking Timanian thrust systems in Svalbard and the northern Barents Sea.
AB - In Billefjorden, central Spitsbergen, Devonian collapse and Carboniferous rift-related sedimentary strata were deposited unconformably over Proterozoic basement rocks displaying well developed N-S-trending Caledonian grain. Caledonian structures and fabrics are thought to have controlled the location and trend of subsequent Devonian and Carboniferous basin-bounding faults like the Billefjorden fault zone and Lemströmfjellet–Løvehovden fault. However, fieldwork and interpretation of aerial photographs in Proterozoic basement rocks reveal the existence of steep, abundant, WNW-ESE-striking brittle faults that are sub-orthogonal to known major Caledonian and postCaledonian structures in Billefjorden, but that do not extend into adjacent-overlying, rift-related, Pennsylvanian rocks of the Gipsdalen Group. Structural analysis of field data and aerial photographs suggest that WNW-ESEstriking faults in basement rocks in Billefjorden formed as (sinistral) strike-slip and normal faults during DevonianMississippian extension in agreement with previously inferred models of sinistral transtension. The abundance of these faults suggest that their formation was controlled by analogously trending, preexisting structural grain (planar anisotropies) at depth, and their pronounced WNW-ESE strike suggest that the strike of preexisting anisotropies were comparable to recently identified, crustal-scale, WNW-ESE-striking Timanian thrust systems in Svalbard and the northern Barents Sea.
KW - Devonian-Mississippian
KW - Faults
KW - Svalbard
KW - Timanian
UR - http://www.scopus.com/inward/record.url?scp=85166412989&partnerID=8YFLogxK
U2 - 10.1344/GeologicaActa2023.21.7
DO - 10.1344/GeologicaActa2023.21.7
M3 - Article
AN - SCOPUS:85166412989
SN - 1695-6133
VL - 21
JO - Geologica Acta
JF - Geologica Acta
M1 - 6
ER -