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Have distal impact ejecta changed through geologic time?

Geology (2000) 28 (11): 975–978.
This article has been cited by the following articles in journals that are participating in CrossRef Cited-by Linking.
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Extending the paleogeographic range and our understanding of the Neoarchean Monteville impact spherule layer (Transvaal Supergroup, South Africa)
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Early Archean spherule layers from the Barberton Greenstone Belt, South Africa: Mineralogy and geochemistry of the spherule beds in the CT3 drill core
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Nondestructive spectroscopic and petrochemical investigations of Paleoarchean spherule layers from the ICDP drill core BARB5, Barberton Mountain Land, South Africa
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Journal of African Earth Sciences (2014) 93: 57.
Textural constraints on the formation of impact spherules: A case study from the Dales Gorge BIF, Paleoproterozoic Hamersley Group of Western Australia
  • Dawn SWEENEY
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Meteoritics & Planetary Science (2008) 43 (12): 2073.
6. Environmental Context
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Spherule textures in the Neoarchaean Wittenoom impact layer, Western Australia: consistency in diversity
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Australian Journal of Earth Sciences (2005) 52 (4-5): 773.
Iridium anomalies and fractionated siderophile element patterns in impact ejecta, Brockman Iron Formation, Hamersley Basin, Western Australia: evidence for a major asteroid impact in simatic crustal regions of the early Proterozoic earth
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Sedimentary signatures and processes during marine bolide impacts: a review
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Extraterrestrial influences on mantle plume activity
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Mineralogical and geochemical aspects of impact craters
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The Sedimentary Record of Extraterrestrial Impacts in Deep‐Shelf Environments: Evidence from the Early Precambrian
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Geochemical evidence for an impact origin for a Late Archean spherule layer, Transvaal Supergroup, South Africa
  • Bruce M. Simonson
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Geology (2000) 28 (12): 1103.
  • Online ISSN 1943-2682
  • ISSN 0091-7613
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