Stirred not shaken; critical evaluation of a proposed Archean meteorite impact in West Greenland

•We evaluate the origin of the Archean Maniitsoq structure in Greenland.•Field relationships are inconsistent with a circular impact crater.•A survey of 5,587 zircon grains shows no evidence for shock metamorphism.•The Maniitsoq structure was produced through endogenic processes. Large meteorite imp...

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Published inEarth and planetary science letters Vol. 557; p. 116730
Main Authors Yakymchuk, Chris, Kirkland, Christopher L., Cavosie, Aaron J., Szilas, Kristoffer, Hollis, Julie, Gardiner, Nicholas J., Waterton, Pedro, Steenfelt, Agnete, Martin, Laure
Format Journal Article
LanguageEnglish
Published Elsevier B.V 01.03.2021
Subjects
bolide
impact
Maniitsoq
North Atlantic Craton
planar deformation features
zircon
bolide
North Atlantic Craton
zircon
Maniitsoq
planar deformation features
impact
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Abstract •We evaluate the origin of the Archean Maniitsoq structure in Greenland.•Field relationships are inconsistent with a circular impact crater.•A survey of 5,587 zircon grains shows no evidence for shock metamorphism.•The Maniitsoq structure was produced through endogenic processes. Large meteorite impacts have a profound effect on the Earth's geosphere, atmosphere, hydrosphere and biosphere. It is widely accepted that the early Earth was subject to intense bombardment from 4.5 to 3.8 Ga, yet evidence for subsequent bolide impacts during the Archean Eon (4.0 to 2.5 Ga) is sparse. However, understanding the timing and magnitude of these early events is important, as they may have triggered significant change points to global geochemical cycles. The Maniitsoq region of southern West Greenland has been proposed to record a ∼3.0 Ga meteorite impact, which, if confirmed, would be the oldest and only known impact structure to have survived from the Archean. Such an ancient structure would provide the first insight into the style, setting, and possible environmental effects of impact bombardment continuing into the late Archean. Here, using field mapping, geochronology, isotope geochemistry, and electron backscatter diffraction mapping of 5,587 zircon grains from the Maniitsoq region (rock and fluvial sediment samples), we test the hypothesis that the Maniitsoq structure represents Earth's earliest known impact structure. Our comprehensive survey shows that previously proposed impact-related geological features, ranging from microscopic structures at the mineral scale to macroscopic structures at the terrane scale, as well as the age and geochemistry of the rocks in the Maniitsoq region, can be explained through endogenic (non-impact) processes. Despite the higher impact flux, intact craters from the Archean Eon remain elusive on Earth.
AbstractList •We evaluate the origin of the Archean Maniitsoq structure in Greenland.•Field relationships are inconsistent with a circular impact crater.•A survey of 5,587 zircon grains shows no evidence for shock metamorphism.•The Maniitsoq structure was produced through endogenic processes. Large meteorite impacts have a profound effect on the Earth's geosphere, atmosphere, hydrosphere and biosphere. It is widely accepted that the early Earth was subject to intense bombardment from 4.5 to 3.8 Ga, yet evidence for subsequent bolide impacts during the Archean Eon (4.0 to 2.5 Ga) is sparse. However, understanding the timing and magnitude of these early events is important, as they may have triggered significant change points to global geochemical cycles. The Maniitsoq region of southern West Greenland has been proposed to record a ∼3.0 Ga meteorite impact, which, if confirmed, would be the oldest and only known impact structure to have survived from the Archean. Such an ancient structure would provide the first insight into the style, setting, and possible environmental effects of impact bombardment continuing into the late Archean. Here, using field mapping, geochronology, isotope geochemistry, and electron backscatter diffraction mapping of 5,587 zircon grains from the Maniitsoq region (rock and fluvial sediment samples), we test the hypothesis that the Maniitsoq structure represents Earth's earliest known impact structure. Our comprehensive survey shows that previously proposed impact-related geological features, ranging from microscopic structures at the mineral scale to macroscopic structures at the terrane scale, as well as the age and geochemistry of the rocks in the Maniitsoq region, can be explained through endogenic (non-impact) processes. Despite the higher impact flux, intact craters from the Archean Eon remain elusive on Earth.
ArticleNumber 116730
Author Martin, Laure
Szilas, Kristoffer
Cavosie, Aaron J.
Gardiner, Nicholas J.
Yakymchuk, Chris
Steenfelt, Agnete
Waterton, Pedro
Kirkland, Christopher L.
Hollis, Julie
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  orcidid: 0000-0001-9440-4089
  surname: Yakymchuk
  fullname: Yakymchuk, Chris
  email: cyakymchuk@uwaterloo.ca
  organization: Department of Earth and Environmental Sciences, University of Waterloo, Canada
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  givenname: Christopher L.
  surname: Kirkland
  fullname: Kirkland, Christopher L.
  organization: Timescales of Mineral Systems Group, Centre for Exploration Targeting - Curtin Node, School of Earth and Planetary Sciences, Curtin University, Perth, Australia
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  givenname: Aaron J.
  surname: Cavosie
  fullname: Cavosie, Aaron J.
  organization: Space Science and Technology Centre, School of Earth and Planetary Sciences, Curtin University, Perth, Australia
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  givenname: Kristoffer
  orcidid: 0000-0002-5541-306X
  surname: Szilas
  fullname: Szilas, Kristoffer
  organization: Department of Geosciences and Natural Resource Management, University of Copenhagen, Øster Voldgade 10, 1350 Copenhagen K, Denmark
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  givenname: Julie
  surname: Hollis
  fullname: Hollis, Julie
  organization: Department of Geology, Ministry of Mineral Resources, Government of Greenland, P.O. Box 930, 3900 Nuuk, Greenland
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  givenname: Nicholas J.
  orcidid: 0000-0003-3465-9295
  surname: Gardiner
  fullname: Gardiner, Nicholas J.
  organization: School of Earth and Environmental Sciences, University of St Andrews, St Andrews, KY16 9AL, United Kingdom
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  givenname: Pedro
  orcidid: 0000-0002-1249-4779
  surname: Waterton
  fullname: Waterton, Pedro
  organization: Department of Geosciences and Natural Resource Management, University of Copenhagen, Øster Voldgade 10, 1350 Copenhagen K, Denmark
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  givenname: Agnete
  surname: Steenfelt
  fullname: Steenfelt, Agnete
  organization: The Geological Survey of Denmark and Greenland, Øster Voldgade 10, 1350 Copenhagen K, Denmark
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  givenname: Laure
  surname: Martin
  fullname: Martin, Laure
  organization: Centre for Microscopy, Characterisation & Analysis, The University of Western Australia, Perth, Western Australia 6009, Australia
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Keywords bolide
North Atlantic Craton
zircon
Maniitsoq
planar deformation features
impact
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  doi: 10.2138/rmg.2017.83.9
– volume: 150
  start-page: 561
  year: 2005
  ident: 10.1016/j.epsl.2020.116730_br0480
  article-title: 4.4 billion years of crustal maturation: oxygen isotope ratios of magmatic zircon
  publication-title: Contrib. Mineral. Petrol.
  doi: 10.1007/s00410-005-0025-8
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Snippet •We evaluate the origin of the Archean Maniitsoq structure in Greenland.•Field relationships are inconsistent with a circular impact crater.•A survey of 5,587...
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StartPage 116730
SubjectTerms bolide
impact
Maniitsoq
North Atlantic Craton
planar deformation features
zircon
Title Stirred not shaken; critical evaluation of a proposed Archean meteorite impact in West Greenland
URI https://dx.doi.org/10.1016/j.epsl.2020.116730
Volume 557
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