Chicxulub impact spherules in the North Atlantic and Caribbean: age constraints and Cretaceous-Tertiary boundary hiatus

The Chicxulub impact is commonly believed to have caused the Cretaceous-Tertiary boundary mass extinction and a thin impact spherule layer in the North Atlantic and Caribbean is frequently cited as proof. We evaluated this claim in the seven best North Atlantic and Caribbean Cretaceous-Tertiary boun...

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Main Authors: KELLER, GERTA, KHOZYEM, HASSAN, ADATTE, THIERRY, MALARKODI, NALLAMUTHU, SPANGENBERG, JORGE E., STINNESBECK, WOLFGANG
Language:English
Published: 2017
Subjects:
North Atlantic
Online Access:http://doc.rero.ch/record/304141/files/S0016756812001069.pdf
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spelling ftreroch:oai:doc.rero.ch:304141 2023-05-15T17:29:22+02:00 Chicxulub impact spherules in the North Atlantic and Caribbean: age constraints and Cretaceous-Tertiary boundary hiatus KELLER, GERTA KHOZYEM, HASSAN ADATTE, THIERRY MALARKODI, NALLAMUTHU SPANGENBERG, JORGE E. STINNESBECK, WOLFGANG 2017-08-02T19:49:35Z http://doc.rero.ch/record/304141/files/S0016756812001069.pdf eng eng http://doc.rero.ch/record/304141/files/S0016756812001069.pdf 2017 ftreroch 2023-02-16T17:29:55Z The Chicxulub impact is commonly believed to have caused the Cretaceous-Tertiary boundary mass extinction and a thin impact spherule layer in the North Atlantic and Caribbean is frequently cited as proof. We evaluated this claim in the seven best North Atlantic and Caribbean Cretaceous-Tertiary boundary sequences based on high-resolution biostratigraphy, quantitative faunal analyses and stable isotopes. Results reveal a major Cretaceous-Tertiary boundary unconformity spanning most of Danian subzone P1a(1) and Maastrichtian zones CF1-CF2 (~400 ka) in the NW Atlantic Bass River core, ODP Sites 1049A, 1049C and 1050C. In the Caribbean ODP Sites 999B and 1001B the unconformity spans from the early Danian zone P1a(1) through to zones CF1-CF4 (~3 Ma). Only in the Demerara Rise ODP Site 1259B is erosion relatively minor and restricted to the earliest Danian zone P0 and most of subzone P1a(1) (~150 ka). In all sites examined, Chicxulub impact spherules are reworked into the early Danian subzone P1a(1) about 150-200 ka after the mass extinction. A similar pattern of erosion and redeposition of impact spherules in Danian sediments has previously been documented from Cuba, Haiti, Belize, Guatemala, south and central Mexico. This pattern can be explained by intensified Gulf stream circulation at times of climate cooling and sea level changes. The age of the Chicxulub impact cannot be determined from these reworked impact spherule layers, but can be evaluated based on the stratigraphically oldest spherule layer in NE Mexico and Texas, which indicates that this impact predates the Cretaceous-Tertiary boundary by about 130-150 ka Other/Unknown Material North Atlantic RERO DOC Digital Library
institution Open Polar
collection RERO DOC Digital Library
op_collection_id ftreroch
language English
description The Chicxulub impact is commonly believed to have caused the Cretaceous-Tertiary boundary mass extinction and a thin impact spherule layer in the North Atlantic and Caribbean is frequently cited as proof. We evaluated this claim in the seven best North Atlantic and Caribbean Cretaceous-Tertiary boundary sequences based on high-resolution biostratigraphy, quantitative faunal analyses and stable isotopes. Results reveal a major Cretaceous-Tertiary boundary unconformity spanning most of Danian subzone P1a(1) and Maastrichtian zones CF1-CF2 (~400 ka) in the NW Atlantic Bass River core, ODP Sites 1049A, 1049C and 1050C. In the Caribbean ODP Sites 999B and 1001B the unconformity spans from the early Danian zone P1a(1) through to zones CF1-CF4 (~3 Ma). Only in the Demerara Rise ODP Site 1259B is erosion relatively minor and restricted to the earliest Danian zone P0 and most of subzone P1a(1) (~150 ka). In all sites examined, Chicxulub impact spherules are reworked into the early Danian subzone P1a(1) about 150-200 ka after the mass extinction. A similar pattern of erosion and redeposition of impact spherules in Danian sediments has previously been documented from Cuba, Haiti, Belize, Guatemala, south and central Mexico. This pattern can be explained by intensified Gulf stream circulation at times of climate cooling and sea level changes. The age of the Chicxulub impact cannot be determined from these reworked impact spherule layers, but can be evaluated based on the stratigraphically oldest spherule layer in NE Mexico and Texas, which indicates that this impact predates the Cretaceous-Tertiary boundary by about 130-150 ka
author KELLER, GERTA
KHOZYEM, HASSAN
ADATTE, THIERRY
MALARKODI, NALLAMUTHU
SPANGENBERG, JORGE E.
STINNESBECK, WOLFGANG
spellingShingle KELLER, GERTA
KHOZYEM, HASSAN
ADATTE, THIERRY
MALARKODI, NALLAMUTHU
SPANGENBERG, JORGE E.
STINNESBECK, WOLFGANG
Chicxulub impact spherules in the North Atlantic and Caribbean: age constraints and Cretaceous-Tertiary boundary hiatus
author_facet KELLER, GERTA
KHOZYEM, HASSAN
ADATTE, THIERRY
MALARKODI, NALLAMUTHU
SPANGENBERG, JORGE E.
STINNESBECK, WOLFGANG
author_sort KELLER, GERTA
title Chicxulub impact spherules in the North Atlantic and Caribbean: age constraints and Cretaceous-Tertiary boundary hiatus
title_short Chicxulub impact spherules in the North Atlantic and Caribbean: age constraints and Cretaceous-Tertiary boundary hiatus
title_full Chicxulub impact spherules in the North Atlantic and Caribbean: age constraints and Cretaceous-Tertiary boundary hiatus
title_fullStr Chicxulub impact spherules in the North Atlantic and Caribbean: age constraints and Cretaceous-Tertiary boundary hiatus
title_full_unstemmed Chicxulub impact spherules in the North Atlantic and Caribbean: age constraints and Cretaceous-Tertiary boundary hiatus
title_sort chicxulub impact spherules in the north atlantic and caribbean: age constraints and cretaceous-tertiary boundary hiatus
publishDate 2017
url http://doc.rero.ch/record/304141/files/S0016756812001069.pdf
genre North Atlantic
genre_facet North Atlantic
op_relation http://doc.rero.ch/record/304141/files/S0016756812001069.pdf
_version_ 1766123277851295744

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