Geochemistry of the cretaceous-tertiary transition boundary at Blake Nose (N. W. Atlantic): Cosmogenic Ni

Geochemistry of the cretaceous-tertiary transition boundary at Blake Nose (N. W. Atlantic): Cosmogenic Ni

The Cretaceous-Tertiary (KT) boundary transition at the Blake Nose Plateau recovered by ODP Leg 171B (site 1049, hole A, core 17X, section 2) contains an ejecta bed (thickness ca. 17 cm) marking a late Cretaceous asteroid impact. The nature and geochemical composition of this bed imply that it origi...

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Main Authors: Premović Pavle I., Nikolić Nikola D., Pavlović Mirjana S., Panov Katja I.
Format: Article
Language:English
Published: Serbian Chemical Society 2004-01-01
Series:Journal of the Serbian Chemical Society
Subjects:
cretaceous-tertiary boundary
odp
blake nose plateau
Online Access:http://www.doiserbia.nb.rs/img/doi/0352-5139/2004/0352-51390403205P.pdf
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spelling doaj-549a08371c4b4a58b7d7094181680f2f2020-12-24T12:18:30ZengSerbian Chemical Society Journal of the Serbian Chemical Society0352-51391820-74212004-01-0169320522310.2298/JSC0403205P0352-51390403205PGeochemistry of the cretaceous-tertiary transition boundary at Blake Nose (N. W. Atlantic): Cosmogenic NiPremović Pavle I.0Nikolić Nikola D.1Pavlović Mirjana S.2Panov Katja I.3Laboratory for Geochemistry, Cosmochemistry & Astrochemistry, University of Niš, NišLaboratory for Geochemistry, Cosmochemistry & Astrochemistry, University of Niš, NišVinča Institute of Nuclear Sciences, Belgrade, Serbia and MontenegroLaboratory for Geochemistry, Cosmochemistry & Astrochemistry, University of Niš, NišThe Cretaceous-Tertiary (KT) boundary transition at the Blake Nose Plateau recovered by ODP Leg 171B (site 1049, hole A, core 17X, section 2) contains an ejecta bed (thickness ca. 17 cm) marking a late Cretaceous asteroid impact. The nature and geochemical composition of this bed imply that it originated mainly from the target rocks of the Chicxulub impact site (Yucatan Peninsula, Mexico), the site of the presumed asteroid impact. The ejecta bed of hole 1049A contains relatively high concentrations of Ni (up to 165 ppm) within the carbonate fraction. It is reasoned that this enhancement represents a sudden and rapid air fall of high cosmogenic Ni into he Blake Nose Basin. The source of the metal was the Chicxulub impacting (carbonaceous) chondrite. It is suggested that many calcareous planktons in the KT ocean surface water of the Blake Nose Plateau were probably vulnerable to the high influx of superacid rainfall and associated toxic metals (e.g. Ni) created by the impact.http://www.doiserbia.nb.rs/img/doi/0352-5139/2004/0352-51390403205P.pdfcretaceous-tertiary boundaryodpblake nose plateau
collection DOAJ
language English
format Article
sources DOAJ
author Premović Pavle I.
Nikolić Nikola D.
Pavlović Mirjana S.
Panov Katja I.
spellingShingle Premović Pavle I.
Nikolić Nikola D.
Pavlović Mirjana S.
Panov Katja I.
Geochemistry of the cretaceous-tertiary transition boundary at Blake Nose (N. W. Atlantic): Cosmogenic Ni
Journal of the Serbian Chemical Society
cretaceous-tertiary boundary
odp
blake nose plateau
author_facet Premović Pavle I.
Nikolić Nikola D.
Pavlović Mirjana S.
Panov Katja I.
author_sort Premović Pavle I.
title Geochemistry of the cretaceous-tertiary transition boundary at Blake Nose (N. W. Atlantic): Cosmogenic Ni
title_short Geochemistry of the cretaceous-tertiary transition boundary at Blake Nose (N. W. Atlantic): Cosmogenic Ni
title_full Geochemistry of the cretaceous-tertiary transition boundary at Blake Nose (N. W. Atlantic): Cosmogenic Ni
title_fullStr Geochemistry of the cretaceous-tertiary transition boundary at Blake Nose (N. W. Atlantic): Cosmogenic Ni
title_full_unstemmed Geochemistry of the cretaceous-tertiary transition boundary at Blake Nose (N. W. Atlantic): Cosmogenic Ni
title_sort geochemistry of the cretaceous-tertiary transition boundary at blake nose (n. w. atlantic): cosmogenic ni
publisher Serbian Chemical Society
series Journal of the Serbian Chemical Society
issn 0352-5139
1820-7421
publishDate 2004-01-01
description The Cretaceous-Tertiary (KT) boundary transition at the Blake Nose Plateau recovered by ODP Leg 171B (site 1049, hole A, core 17X, section 2) contains an ejecta bed (thickness ca. 17 cm) marking a late Cretaceous asteroid impact. The nature and geochemical composition of this bed imply that it originated mainly from the target rocks of the Chicxulub impact site (Yucatan Peninsula, Mexico), the site of the presumed asteroid impact. The ejecta bed of hole 1049A contains relatively high concentrations of Ni (up to 165 ppm) within the carbonate fraction. It is reasoned that this enhancement represents a sudden and rapid air fall of high cosmogenic Ni into he Blake Nose Basin. The source of the metal was the Chicxulub impacting (carbonaceous) chondrite. It is suggested that many calcareous planktons in the KT ocean surface water of the Blake Nose Plateau were probably vulnerable to the high influx of superacid rainfall and associated toxic metals (e.g. Ni) created by the impact.
topic cretaceous-tertiary boundary
odp
blake nose plateau
url http://www.doiserbia.nb.rs/img/doi/0352-5139/2004/0352-51390403205P.pdf
work_keys_str_mv AT premovicpavlei geochemistryofthecretaceoustertiarytransitionboundaryatblakenosenwatlanticcosmogenicni
AT nikolicnikolad geochemistryofthecretaceoustertiarytransitionboundaryatblakenosenwatlanticcosmogenicni
AT pavlovicmirjanas geochemistryofthecretaceoustertiarytransitionboundaryatblakenosenwatlanticcosmogenicni
AT panovkatjai geochemistryofthecretaceoustertiarytransitionboundaryatblakenosenwatlanticcosmogenicni
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