Reconstruction of pre-Illinoian ice margins and glaciotectonic structures from airborne ElectroMagnetic (AEM) surveys at the western limit of Laurentide glaciation, Midcontinent U.S.A.

Early and early Middle Pleistocene glaciations in midcontinental USA are poorly understood relative to more recent Illinoian and Wisconsinan glaciations, largely because pre-Illinoian glacial landforms and deposits are eroded and buried. In this paper, we present a new interpretation of buried, pre-...

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Main Authors: Jesse T. Korus, R.M. Joeckel, Jared D. Abraham, Anne-Sophie Høyer, Flemming Jørgensen
Format: Article
Language:English
Published: Elsevier 2021-10-01
Series:Quaternary Science Advances
Subjects:
Online Access:http://www.sciencedirect.com/science/article/pii/S2666033421000058
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spelling doaj-0b7ac4173cc94ff2bb89380c226d998b2021-04-14T04:17:20ZengElsevierQuaternary Science Advances2666-03342021-10-014100026Reconstruction of pre-Illinoian ice margins and glaciotectonic structures from airborne ElectroMagnetic (AEM) surveys at the western limit of Laurentide glaciation, Midcontinent U.S.A.Jesse T. Korus0R.M. Joeckel1Jared D. Abraham2Anne-Sophie Høyer3Flemming Jørgensen4Conservation and Survey Division, School of Natural Resources, 3310 Holdrege Street, University of Nebraska–Lincoln, Lincoln, NE, USA; Corresponding author.Conservation and Survey Division, School of Natural Resources, 3310 Holdrege Street, University of Nebraska–Lincoln, Lincoln, NE, USA; Department of Earth and Atmospheric Sciences, University of Nebraska–Lincoln, Lincoln, NE, USAAqua-Geo Frameworks LLC, 10848 Ridge Road, Fort Laramie, WY, 82212-7614, USAGeological Survey of Denmark and Greenland, CF Møllers Alle 8, Building 8, 8000, Aarhus C, DenmarkCentral Denmark Region, Skottenborg 26, 8800, Viborg, DenmarkEarly and early Middle Pleistocene glaciations in midcontinental USA are poorly understood relative to more recent Illinoian and Wisconsinan glaciations, largely because pre-Illinoian glacial landforms and deposits are eroded and buried. In this paper, we present a new interpretation of buried, pre-Illinoian glacial features along the Laurentide glacial margin in northeastern Nebraska using Airborne ElectroMagnetics (AEM) supplemented with borehole logs and 2 m LiDAR elevation data. We detect and map large-scale (101–102 km) geological features using contrasts in electrical resistivity. The Laurentide glacial limit is marked by a continuous (>120 km) contrast between conductive (<15 Ω-m), clayey tills and resistive (>40 Ω-m) sandy sediments. Several smaller (102 km2) till salients extend 10s of km westward of this margin. We recognize a lithologically heterogeneous zone characterized by variable resistivity and complex geophysical structures extending as much as 17 km west of the glacial limit. This zone is interpreted as a glaciotectonic thrust complex, and it is analogous to a similar thrust complex in Denmark where structural analysis of co-located seismic and AEM surveys provides a standard for comparison. Our study suggests that the maximum advancement of pre-Illinoian glacial ice into Nebraska involved extensive deformation of sedimentary strata, local overriding of these deformed strata by smaller ice tongues, and emplacement of tills as much as 30 km west of the principal Laurentide ice margin. These insights provide the first glimpse of the large-scale stratigraphic architecture of glacial sediments in Nebraska and point to future clarifications of the geology and geomorphology of the Laurentide glacial limit.http://www.sciencedirect.com/science/article/pii/S2666033421000058GlaciotectonicsGlaciationGlacial limitGeophysicsLaurentidePre-Illinoian
collection DOAJ
language English
format Article
sources DOAJ
author Jesse T. Korus
R.M. Joeckel
Jared D. Abraham
Anne-Sophie Høyer
Flemming Jørgensen
spellingShingle Jesse T. Korus
R.M. Joeckel
Jared D. Abraham
Anne-Sophie Høyer
Flemming Jørgensen
Reconstruction of pre-Illinoian ice margins and glaciotectonic structures from airborne ElectroMagnetic (AEM) surveys at the western limit of Laurentide glaciation, Midcontinent U.S.A.
Quaternary Science Advances
Glaciotectonics
Glaciation
Glacial limit
Geophysics
Laurentide
Pre-Illinoian
author_facet Jesse T. Korus
R.M. Joeckel
Jared D. Abraham
Anne-Sophie Høyer
Flemming Jørgensen
author_sort Jesse T. Korus
title Reconstruction of pre-Illinoian ice margins and glaciotectonic structures from airborne ElectroMagnetic (AEM) surveys at the western limit of Laurentide glaciation, Midcontinent U.S.A.
title_short Reconstruction of pre-Illinoian ice margins and glaciotectonic structures from airborne ElectroMagnetic (AEM) surveys at the western limit of Laurentide glaciation, Midcontinent U.S.A.
title_full Reconstruction of pre-Illinoian ice margins and glaciotectonic structures from airborne ElectroMagnetic (AEM) surveys at the western limit of Laurentide glaciation, Midcontinent U.S.A.
title_fullStr Reconstruction of pre-Illinoian ice margins and glaciotectonic structures from airborne ElectroMagnetic (AEM) surveys at the western limit of Laurentide glaciation, Midcontinent U.S.A.
title_full_unstemmed Reconstruction of pre-Illinoian ice margins and glaciotectonic structures from airborne ElectroMagnetic (AEM) surveys at the western limit of Laurentide glaciation, Midcontinent U.S.A.
title_sort reconstruction of pre-illinoian ice margins and glaciotectonic structures from airborne electromagnetic (aem) surveys at the western limit of laurentide glaciation, midcontinent u.s.a.
publisher Elsevier
series Quaternary Science Advances
issn 2666-0334
publishDate 2021-10-01
description Early and early Middle Pleistocene glaciations in midcontinental USA are poorly understood relative to more recent Illinoian and Wisconsinan glaciations, largely because pre-Illinoian glacial landforms and deposits are eroded and buried. In this paper, we present a new interpretation of buried, pre-Illinoian glacial features along the Laurentide glacial margin in northeastern Nebraska using Airborne ElectroMagnetics (AEM) supplemented with borehole logs and 2 m LiDAR elevation data. We detect and map large-scale (101–102 km) geological features using contrasts in electrical resistivity. The Laurentide glacial limit is marked by a continuous (>120 km) contrast between conductive (<15 Ω-m), clayey tills and resistive (>40 Ω-m) sandy sediments. Several smaller (102 km2) till salients extend 10s of km westward of this margin. We recognize a lithologically heterogeneous zone characterized by variable resistivity and complex geophysical structures extending as much as 17 km west of the glacial limit. This zone is interpreted as a glaciotectonic thrust complex, and it is analogous to a similar thrust complex in Denmark where structural analysis of co-located seismic and AEM surveys provides a standard for comparison. Our study suggests that the maximum advancement of pre-Illinoian glacial ice into Nebraska involved extensive deformation of sedimentary strata, local overriding of these deformed strata by smaller ice tongues, and emplacement of tills as much as 30 km west of the principal Laurentide ice margin. These insights provide the first glimpse of the large-scale stratigraphic architecture of glacial sediments in Nebraska and point to future clarifications of the geology and geomorphology of the Laurentide glacial limit.
topic Glaciotectonics
Glaciation
Glacial limit
Geophysics
Laurentide
Pre-Illinoian
url http://www.sciencedirect.com/science/article/pii/S2666033421000058
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