Quantitative biostratigraphy of Upper Albian to Lower Cenomanian (Cretaceous) calcareous nannofossils of mid-latitude regions

Shamar C. Chin; David K. Watkins

doi:10.29041/strat.19.4.02

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Quantitative biostratigraphy of Upper Albian to Lower Cenomanian (Cretaceous) calcareous nannofossils of mid-latitude regions

Journal article

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Quantitative biostratigraphy of Upper Albian to Lower Cenomanian (Cretaceous) calcareous nannofossils of mid-latitude regions

Shamar C. Chin and David K. Watkins

Stratigraphy, Vol.19(4), pp.253-274

01/01/2022

DOI: 10.29041/strat.19.4.02

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Abstract

Late Albian - early Cenomanian calcareous nannofossil assemblages from five mid-latitude localities (23-35 degrees) were ana-lyzed using probabilistic and deterministic methods to produce comprehensive and quantitative biostratigraphic sequences that were compared to the widely used 'CC' and 'UC' calcareous nannofossil zonation schemes. This was done to examine their fidelity and gen-eral applicability for mid-latitude biostratigraphy and determine whether these quantitative methods can increase the resolution of said schemes.Four biozones spanning the upper Albian through middle Cenomanian were determined using unitary associations (UAs) and rank-ing and scaling (RASC) optimum sequence from which last appearance datum (LAD) of - Gartnerago stenostaurion, first appearance da-tum (FAD) -Lithraphidites eccentricus, and LAD - Staurolithites mutterlosei were determined to be reliable early Cenomanian markers at mid-latitudes, while the FAD and LAD of Calculites anfractus are unreliable bioevents and should not be used as a secondary marker for the Albian - Cenomanian boundary. In addition, we have revised the stratigraphic position of the FAD of L. eccentricus, which was previously assigned to the middle-Cenomanian. The proposed FAD was shortly after the Albian - Cenomanian boundary, before the FAD of Corollithion kennedyi.We conclude that UAs are more robust than RASC bioevents for this time sequence; however, both methods do not account for the asynchronicity of depositional and biotic chances. Despite these caveats, combining the results for both methods has proven to be a pow-erful quantitative biostratigraphic tool.

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Title: Subtitle: Quantitative biostratigraphy of Upper Albian to Lower Cenomanian (Cretaceous) calcareous nannofossils of mid-latitude regions
Creators: Shamar C. Chin - Univ Iowa, Dept Earth & Environm Sci, Iowa City, IA 52242 USA
David K. Watkins - Univ Nebraska, Dept Earth & Atmospher Sci, Lincoln, NE 68588 USA
Resource Type: Journal article
Publication Details: Stratigraphy, Vol.19(4), pp.253-274
Publisher: Micro Press
DOI: 10.29041/strat.19.4.02
ISSN: 1547-139X
eISSN: 2331-656X
Number of pages: 22
Grant note: National Science Foundation (NSF) United Kingdom's Natural Environment Research Council (NERC) Joint Oceanographic Institutions (JOI) Inc.
Language: English
Date published: 01/01/2022
Academic Unit: Earth and Environmental Sciences
Record Identifier: 9984388649802771

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