195-2 Deformation of the ~2691 Ma Saganaga Tonalite, Western Superior Province USA and Canada
Session: Evolution of Orogenic Belts Through Time: Insights from Sedimentation, Deformation, Magmatism, and Metamorphism (Posters)
Poster Booth No.: 188
Presenting Author:
Kara FowlerAuthors:
Fowler, Kara1, Craddock, John2, Malone, David3, Rivadeneyra-Braswell, Nicte4, Bowles, Julie5(1) Illinois State University, Normal, Illinois, USA, (2) Illinois State University, Normal, IL, USA, (3) Illinois State University, Normal, Illinois, USA, (4) Illinois State University, Normal, Illinois, USA, (5) University of Wisconsin-Milwaukee, Milwaukee, WI, USA,
Abstract:
The Saganaga Tonalite (2691 Ma) is a prominent Archean batholith located in the Wawa Terrane of the Superior Province that has been regarded previously as weakly deformed. It intrudes the coeval Ely Greenstone and is unconformably overlain by strata of the deformed Knife Lake Group (<2550 Ma). Alternating field (AF) demagnetization was performed on 12 widely distributed Saganaga Tonalite samples to isolate characteristic remnant magnetization directions and calculate paleopole orientations. Analysis was completed at the University of Wisconsin-Milwaukee paleomagnetic laboratory. The paleopoles are distributed across three quadrants of the equal-area projection, with 11 declinations ranging from 29.2° to 250.7° and inclinations from 2° to 69.8°, and include one reverse polarity. The variation in paleopole orientations indicates that the tonalite experienced regional deformation and tilting after its emplacement. Supporting this, Marathon mafic dikes (~2100 Ma) cross-cut the tonalite and are locally offset by faulting and pseudotachylite is observed in many locations which provides evidence that deformation post-dates dike emplacement. Younger, undated dikes are also offset. Additionally, Ar-Ar dates from mylonitic shear zones on the northern and southern boundaries, each 1 km wide and vertical, of the Saganaga Tonalite indicate deformational events at ~2627 Ma on the northern shear zone and 1110 Ma on the southern margin. This age disparity suggests multiple stages of active tectonism have affected the area and adds to evidence of far field deformation related to either the Grenville Orogeny (~1280–980 Ma) and the assembly of Rodinia, or the Paleozoic assembly of Pangea.
Geological Society of America Abstracts with Program. Vol. 57, No. 6, 2025
doi: 10.1130/abs/2025AM-9284
© Copyright 2025 The Geological Society of America (GSA), all rights reserved.
Deformation of the ~2691 Ma Saganaga Tonalite, Western Superior Province USA and Canada
Category
Discipline > Precambrian Geology
Description
Session Format: Poster
Presentation Date: 10/21/2025
Presentation Room: HBGCC, Hall 1
Poster Booth No.: 188
Author Availability: 9:00–11:00 a.m.
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