Late Wenlock carbon isotope excursions and associated conodont fauna in the Podlasie Depression, eastern Poland: a not-so-big crisis?

Emilia Jarochowska; Axel Munnecke

doi:10.1002/gj.2674

Late Wenlock carbon isotope excursions and associated conodont fauna in the Podlasie Depression, eastern Poland: a not-so-big crisis?

Emilia Jarochowska^*, Axel Munnecke

^*Corresponding author for this work

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Abstract

The middle Silurian ‘big crisis’ refers to a graptolite extinction event and faunal turnover at the onset of a double-peaked positive carbon isotope excursion. The crisis has been proposed to affect conodonts, giving rise to a sophisticated palaeoecological model of their stepwise extinction, known as the Mulde Event. However, the impact of the event on conodont faunas outside Gotland and the Silurian Baltic Basin remains unknown. Here, it is examined in the Widowo IG-1 core (E Poland). The middle Silurian succession in this core represents foreshoal, shoal, and lagoonal settings on a tropical carbonate ramp on the shelf of the Eastern European Craton. Three positive δ¹³C_carb excursions have been identified; the two upper excursions correlate with the Mulde isotope anomaly and with two global eustatic regressions. Conodont species proposed to be affected by the extinction event either were not observed or ranged through the extinction interval. Changes in their frequencies are best explained by the sequence stratigraphic architecture of the late Wenlock strata in the Widowo IG-1 core. The little impact of the ‘big crisis’ may reflect facies homogeneity across the studied interval, supporting the hypothesis that the late Wenlock conodont turnover in epicontinental settings was primarily driven by eustatically controlled facies shifts.

Original language	English
Pages (from-to)	683-703
Number of pages	21
Journal	Geological Journal
Volume	51
Issue number	5
DOIs	https://doi.org/10.1002/gj.2674
Publication status	Published - 1 Sept 2016

Bibliographical note

Funding Information:
This work was supported by the Deutsche Forschungsgemeinschaft (project no. Mu 2352/3). M. Calner, D. Loydell, and the editor of Geological Journal I. Somerville are acknowledged for insightful suggestions which helped us improve an earlier version of the manuscript. We thank M. Joachimski and D. Lutz for isotope analyses; B. Leipner-Mata and K. Frisch for preparation of thin sections; Ch. Schulbert for help with SEM microphotography; A. Bancroft, P. Männik, and S. Vodrážková for advice on conodonts; A. Halamski for sharing unpublished brachiopod data; and U. Toom for handling deposited conodont material. This paper is a contribution to the International Geoscience Programme (IGCP) Project 591—The Early to Middle Palaeozoic Revolution.

Publisher Copyright:
Copyright © 2015 John Wiley & Sons, Ltd.

Funding

This work was supported by the Deutsche Forschungsgemeinschaft (project no. Mu 2352/3). M. Calner, D. Loydell, and the editor of Geological Journal I. Somerville are acknowledged for insightful suggestions which helped us improve an earlier version of the manuscript. We thank M. Joachimski and D. Lutz for isotope analyses; B. Leipner-Mata and K. Frisch for preparation of thin sections; Ch. Schulbert for help with SEM microphotography; A. Bancroft, P. Männik, and S. Vodrážková for advice on conodonts; A. Halamski for sharing unpublished brachiopod data; and U. Toom for handling deposited conodont material. This paper is a contribution to the International Geoscience Programme (IGCP) Project 591—The Early to Middle Palaeozoic Revolution.

Keywords

Baltica
extinction
gamma ray stratigraphy
Homerian
lundgreni event
Mulde Event
sequence stratigraphy

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10.1002/gj.2674

Cite this

@article{202793903c104e6bbbd19cb83fc14f52,

title = "Late Wenlock carbon isotope excursions and associated conodont fauna in the Podlasie Depression, eastern Poland: a not-so-big crisis?",

abstract = "The middle Silurian {\textquoteleft}big crisis{\textquoteright} refers to a graptolite extinction event and faunal turnover at the onset of a double-peaked positive carbon isotope excursion. The crisis has been proposed to affect conodonts, giving rise to a sophisticated palaeoecological model of their stepwise extinction, known as the Mulde Event. However, the impact of the event on conodont faunas outside Gotland and the Silurian Baltic Basin remains unknown. Here, it is examined in the Widowo IG-1 core (E Poland). The middle Silurian succession in this core represents foreshoal, shoal, and lagoonal settings on a tropical carbonate ramp on the shelf of the Eastern European Craton. Three positive δ13Ccarb excursions have been identified; the two upper excursions correlate with the Mulde isotope anomaly and with two global eustatic regressions. Conodont species proposed to be affected by the extinction event either were not observed or ranged through the extinction interval. Changes in their frequencies are best explained by the sequence stratigraphic architecture of the late Wenlock strata in the Widowo IG-1 core. The little impact of the {\textquoteleft}big crisis{\textquoteright} may reflect facies homogeneity across the studied interval, supporting the hypothesis that the late Wenlock conodont turnover in epicontinental settings was primarily driven by eustatically controlled facies shifts.",

keywords = "Baltica, extinction, gamma ray stratigraphy, Homerian, lundgreni event, Mulde Event, sequence stratigraphy",

author = "Emilia Jarochowska and Axel Munnecke",

note = "Funding Information: This work was supported by the Deutsche Forschungsgemeinschaft (project no. Mu 2352/3). M. Calner, D. Loydell, and the editor of Geological Journal I. Somerville are acknowledged for insightful suggestions which helped us improve an earlier version of the manuscript. We thank M. Joachimski and D. Lutz for isotope analyses; B. Leipner-Mata and K. Frisch for preparation of thin sections; Ch. Schulbert for help with SEM microphotography; A. Bancroft, P. M{\"a}nnik, and S. Vodr{\'a}{\v z}kov{\'a} for advice on conodonts; A. Halamski for sharing unpublished brachiopod data; and U. Toom for handling deposited conodont material. This paper is a contribution to the International Geoscience Programme (IGCP) Project 591—The Early to Middle Palaeozoic Revolution. Publisher Copyright: Copyright {\textcopyright} 2015 John Wiley & Sons, Ltd.",

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doi = "10.1002/gj.2674",

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N1 - Funding Information: This work was supported by the Deutsche Forschungsgemeinschaft (project no. Mu 2352/3). M. Calner, D. Loydell, and the editor of Geological Journal I. Somerville are acknowledged for insightful suggestions which helped us improve an earlier version of the manuscript. We thank M. Joachimski and D. Lutz for isotope analyses; B. Leipner-Mata and K. Frisch for preparation of thin sections; Ch. Schulbert for help with SEM microphotography; A. Bancroft, P. Männik, and S. Vodrážková for advice on conodonts; A. Halamski for sharing unpublished brachiopod data; and U. Toom for handling deposited conodont material. This paper is a contribution to the International Geoscience Programme (IGCP) Project 591—The Early to Middle Palaeozoic Revolution. Publisher Copyright: Copyright © 2015 John Wiley & Sons, Ltd.

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N2 - The middle Silurian ‘big crisis’ refers to a graptolite extinction event and faunal turnover at the onset of a double-peaked positive carbon isotope excursion. The crisis has been proposed to affect conodonts, giving rise to a sophisticated palaeoecological model of their stepwise extinction, known as the Mulde Event. However, the impact of the event on conodont faunas outside Gotland and the Silurian Baltic Basin remains unknown. Here, it is examined in the Widowo IG-1 core (E Poland). The middle Silurian succession in this core represents foreshoal, shoal, and lagoonal settings on a tropical carbonate ramp on the shelf of the Eastern European Craton. Three positive δ13Ccarb excursions have been identified; the two upper excursions correlate with the Mulde isotope anomaly and with two global eustatic regressions. Conodont species proposed to be affected by the extinction event either were not observed or ranged through the extinction interval. Changes in their frequencies are best explained by the sequence stratigraphic architecture of the late Wenlock strata in the Widowo IG-1 core. The little impact of the ‘big crisis’ may reflect facies homogeneity across the studied interval, supporting the hypothesis that the late Wenlock conodont turnover in epicontinental settings was primarily driven by eustatically controlled facies shifts.

AB - The middle Silurian ‘big crisis’ refers to a graptolite extinction event and faunal turnover at the onset of a double-peaked positive carbon isotope excursion. The crisis has been proposed to affect conodonts, giving rise to a sophisticated palaeoecological model of their stepwise extinction, known as the Mulde Event. However, the impact of the event on conodont faunas outside Gotland and the Silurian Baltic Basin remains unknown. Here, it is examined in the Widowo IG-1 core (E Poland). The middle Silurian succession in this core represents foreshoal, shoal, and lagoonal settings on a tropical carbonate ramp on the shelf of the Eastern European Craton. Three positive δ13Ccarb excursions have been identified; the two upper excursions correlate with the Mulde isotope anomaly and with two global eustatic regressions. Conodont species proposed to be affected by the extinction event either were not observed or ranged through the extinction interval. Changes in their frequencies are best explained by the sequence stratigraphic architecture of the late Wenlock strata in the Widowo IG-1 core. The little impact of the ‘big crisis’ may reflect facies homogeneity across the studied interval, supporting the hypothesis that the late Wenlock conodont turnover in epicontinental settings was primarily driven by eustatically controlled facies shifts.

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KW - gamma ray stratigraphy

KW - Homerian

KW - lundgreni event

KW - Mulde Event

KW - sequence stratigraphy

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DO - 10.1002/gj.2674

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SN - 0072-1050

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EP - 703

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JF - Geological Journal

IS - 5

ER -

Late Wenlock carbon isotope excursions and associated conodont fauna in the Podlasie Depression, eastern Poland: a not-so-big crisis?

Abstract

Bibliographical note

Funding

Keywords

Access to Document

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