Lateral crustal flow along discrete flat-lying lower crustal shear zones during Archean continent construction
- 1Institute of Geophysics, Czech Academy of Science, Prague, Czechia
- 2Gateway Antarctica, University of Canterbury, Christchurch, New Zealand
- 3Mineral Exploration Research Centre, Laurentian University, Sudbury, Canada
- 4Geologic Survey of Canada, Ottawa, Canada
The nature of lithospheric evolution and style of the driving ‘tectonic’ processes occurring during Archean continent construction remain enigmatic. A significantly hotter thermal regime characterised the early Earth and was pervasive for much of the Archean. This resulted in construction of continents that were significantly weaker and unable to support the thick crustal sequences and topographies common to modern orogens. Gravitational collapse of these early continents may have occurred when deeper material became less dense by heating or partial melting and created a density contrast beyond the crustal competence and/or due to post-orogenic relaxation. Such a collapse could result in large scale horizontal spreading within the middle to lower crust and the development of lateral crustal flow along flat-lying shear zones producing fluid-deposited graphitic and metallic sulphide films at these depths, which, if preserved would produce broad scale quasi-horizontal mid-lower crustal low resistivity anomalies. Here we show 3D magnetotelluric resistivity models of the Archean Superior Province of Canada that reveal these types of anomalies that could represent lateral crustal flow in the middle to lower crust. Further, the magnetotelluric model shows narrow sub-vertical zones of low resistivity extending from the mid crust to the near surface, interpreted to represent remnant fluid pathways that potentially formed prior to gravitational collapse. These sub-vertical low resistivity features correlate spatially with crustal-scale deformation zones that potentially are host to hydrothermal ore deposits and abundant metasomatic mineral assemblages. The well preserved record of primary crustal amalgamation within the Superior Province of Canada with both features expected of autochthonous vertical ‘drip’ tectonics (sub-vertical fluid pathways) and allochthonous horizontal plate tectonics (flat-lying lower crustal shear zones) regimes, suggests a potential transitional period of tectonic evolution might have characterised the region during the late Archean.
How to cite: Hill, G., Roots, E., Frieman, B., Craven, J., Smith, R., Haugaard, R., Cheraghi, S., and Adetunji, A.: Lateral crustal flow along discrete flat-lying lower crustal shear zones during Archean continent construction, EGU General Assembly 2020, Online, 4–8 May 2020, EGU2020-7051, https://doi.org/10.5194/egusphere-egu2020-7051, 2020