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Book Chapter

The Upper Ordovician Guttenberg δ 13 C excursion (GICE) in North America and Baltoscandia: Occurrence, chronostratigraphic significance, and paleoenvironmental relationships Available to Purchase

Author(s)
Stig M. Bergström, Birger Schmitz, Matthew R. Saltzman, Warren D. Huff
Book: The Ordovician Earth System
Publisher: Geological Society of America
Published: 01 April 2010
DOI: 10.1130/2010.2466(04)
... Two prominent, and apparently globally distributed, δ 13 C excursions have been documented from the Upper Ordovician, namely the early Katian Guttenberg isotope carbon excursion (GICE) and the latest Ordovician Hirnantian isotope carbon excursion (HICE). The former excursion, which has lower δ...
Abstract
View PDF for content titled, The Upper Ordovician Guttenberg δ 13 C excursion (<span class="search-highlight">GICE</span>) in North America and Baltoscandia: Occurrence, chronostratigraphic significance, and paleoenvironmental relationships
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Two prominent, and apparently globally distributed, δ 13 C excursions have been documented from the Upper Ordovician, namely the early Katian Guttenberg isotope carbon excursion (GICE) and the latest Ordovician Hirnantian isotope carbon excursion (HICE). The former excursion, which has lower δ 13 C values than the HICE, is now recorded from dozens of localities in North America and Baltoscandia, and it appears to be present also in China. In North America the GICE ranges from the uppermost Phragmodus undatus Midcontinent Conodont Zone to near the top of the Plectodina tenuis Midcontinent Conodont Zone, an interval corresponding to the lower part of the Diplacanthograptus caudatus Global Graptolite Zone. The base of the GICE lies somewhat above the Millbrig K-bentonite. In Baltoscandia the GICE occurs in the upper Diplograptus foliaceus through the lower Dicranograptus clingani Graptolite Zones, and in the upper Amorphognathus tvaerensis Conodont Zone. Its base is a few meters above the widespread Kinnekulle K-bentonite. In Baltoscandia and in Oklahoma the GICE ranges through a part of the Spinachitina cervicornis Chitinozoan Zone. In North America the GICE is regionally in a transgressive-regressive succession. The bathymetric conditions in the GICE interval in Baltoscandia were somewhat complex and have been the subject of different interpretations, but there is no obvious correlation between the GICE and apparent sea level changes. A review of the relations between the GICE and potential climatic and water temperature indicators, such as lithofacies, faunas, and 18 O geochemistry, does not suggest a close correlation to specific environmental conditions. The cause of formation of the GICE is enigmatic, but there is no direct evidence that it was coeval with a period of extensive glaciation in the Gondwana. The GICE is a powerful chemostratigraphic tool that is useful for detailed local and even transatlantic correlations.

Journal Article

Global Upper Ordovician correlation by means of δ 13 C chemostratigraphy: implications of the discovery of the Guttenberg δ 13 C excursion (GICE) in Malaysia Available to Purchase

STIG M. BERGSTRÖM, SACHIKO AGEMATSU, BIRGER SCHMITZ
Published: 19 March 2010
Geological Magazine (2010) 147 (5): 641–651.
DOI: https://doi.org/10.1017/S0016756810000142
... biostratigraphy of the classical Ordovician succession on Langkawi Islands, peninsular Malaysia, showed the presence there of strata coeval with those having the Guttenberg Carbon Excursion (GICE) on the Yangtze Platform. In an effort to establish for the first time the presence of this widespread δ 13 C...
View PDF for article title, Global Upper Ordovician correlation by means of δ 13 C chemostratigraphy: implications of the discovery of the Guttenberg δ 13 C excursion (<span class="search-highlight">GICE</span>) in Malaysia
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Journal Article

First documentation of the Ordovician Guttenberg δ 13 C excursion (GICE) in Asia: chemostratigraphy of the Pagoda and Yanwashan formations in southeastern China Available to Purchase

STIG M. BERGSTRÖM, CHEN XU, BIRGER SCHMITZ, SETH YOUNG, RONG JIA-YU, MATTHEW R. SALTZMAN
Published: 05 November 2008
Geological Magazine (2009) 146 (1): 1–11.
DOI: https://doi.org/10.1017/S0016756808005748
... these conodonts appear in the stratigraphic interval of the Guttenberg δ 13 C excursion (GICE) in Estonia, we identify the Chinese excursion as the GICE. This is the first record of the GICE in the entire Asian continent. It confirms that GICE is a global excursion and provides an illustration of how δ 13 C...
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View PDF for article title, First documentation of the Ordovician Guttenberg δ 13 C excursion (<span class="search-highlight">GICE</span>) in Asia: chemostratigraphy of the Pagoda and Yanwashan formations in southeastern China
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Journal Article

Transient and Permanent Rotations in a Shear Layer Excited by Strong Earthquake Pulses Available to Purchase

V. Gičev, M. D. Trifunac
Published: 01 May 2009
Bulletin of the Seismological Society of America (2009) 99 (2B): 1391–1403.
DOI: https://doi.org/10.1785/0120080066
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Comparison of new and previously documented conodont oxygen isotopic values from the Upper Mississippi Valley (black circles), Oklahoma (dark grey circles), Alabama (hollow circles), Virginia (open grey circles) and Kentucky (light grey circles) at three different time-slices in the Late Ordovician. Data from the Red Mountain Expressway section are not plotted due to suspected diagenetic overprint. All sections are scaled and plotted against stratigraphic thickness in the Rochester section. Metre scale for each time-slice refers to stratigraphic thickness in the Rochester section. For the pre-M4/M5 interval, all data are scaled to the position of the M4/M5 and the Deicke K-bentonite. For the post-M4/M5 interval, all data are scaled based on the stratigraphic position of the M4/M5 and the base of the GICE. For the GICE and post-GICE interval, all data were scaled based on the thickness of the GICE in each section.

Comparison of new and previously documented conodont oxygen isotopic values... Available to Purchase

Published: 02 August 2017
. For the pre-M4/M5 interval, all data are scaled to the position of the M4/M5 and the Deicke K-bentonite. For the post-M4/M5 interval, all data are scaled based on the stratigraphic position of the M4/M5 and the base of the GICE. For the GICE and post-GICE interval, all data were scaled based on the thickness
Journal Article

New age constraints on the duration and origin of the Late Ordovician Guttenberg δ 13 C carb excursion from high-precision U-Pb geochronology of K-bentonites Available to Purchase

J. Garrecht Metzger, Jahandar Ramezani, Samuel A. Bowring, David A. Fike
Journal: GSA Bulletin
Published: 28 July 2020
GSA Bulletin (2021) 133 (3-4): 580–590.
DOI: https://doi.org/10.1130/B35688.1
.... The Late Ordovician Guttenberg isotopic carbon excursion (GICE) is a large, globally correlative positive shift (∼3‰) in the carbon isotopic composition of marine carbonates (δ 13 C carb ), but its driving mechanism(s) remains ambiguous. This is in large part due to uncertain correlations among Late...
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View PDF for article title, New age constraints on the duration and origin of the Late Ordovician Guttenberg δ 13 C carb excursion from high-precision U-Pb geochronology of K-bentonites
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Journal Article

Did intense volcanism trigger the first Late Ordovician icehouse? Available to Purchase

Werner Buggisch, Michael M. Joachimski, Oliver Lehnert, Stig M. Bergström, John E. Repetski, Gerald F. Webers
Journal: Geology
Published: 01 April 2010
Geology (2010) 38 (4): 327–330.
DOI: https://doi.org/10.1130/G30577.1
... to Katian (Mohawkian–Cincinnatian) time. This time interval was characterized by intense volcanism, as shown by the prominent Deicke, Millbrig, and other K-bentonite beds. A prominent carbon isotope excursion (Guttenberg δ 13 C excursion, GICE) postdates the Millbrig volcanic eruptions, and has been...
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Journal Article

Precise timing of the Late Ordovician (Sandbian) super-eruptions and associated environmental, biological, and climatological events Available to Purchase

B. Sell, L. Ainsaar, S. Leslie
Published: 24 July 2013
Journal of the Geological Society (2013) 170 (5): 711–714.
DOI: https://doi.org/10.1144/jgs2012-148
... ) Stratigraphic correlation of biozones and CIEs based on new 206 Pb/ 238 U zircon ages. The temporal position of the GICE varies (dashed line) based on previous studies ( Ainsaar et al. 1999 ; Ludvigson et al. 2004 ; Young et al. 2005 ). Stratigraphic correlations of isotope curves in the USA...
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View PDF for article title, Precise timing of the Late Ordovician (Sandbian) super-eruptions and associated environmental, biological, and climatological events
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Journal Article

Testing the early Late Ordovician cool-water hypothesis with oxygen isotopes from conodont apatite Available to Purchase

PAGE C. QUINTON, STACEY LAW, KENNETH G. MACLEOD, ACHIM D. HERRMANN, JOHN T. HAYNES, STEPHEN A. LESLIE
Published: 02 August 2017
Geological Magazine (2018) 155 (8): 1727–1741.
DOI: https://doi.org/10.1017/S0016756817000589
.... For the pre-M4/M5 interval, all data are scaled to the position of the M4/M5 and the Deicke K-bentonite. For the post-M4/M5 interval, all data are scaled based on the stratigraphic position of the M4/M5 and the base of the GICE. For the GICE and post-GICE interval, all data were scaled based on the thickness...
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View PDF for article title, Testing the early Late Ordovician cool-water hypothesis with oxygen isotopes from conodont apatite
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Journal Article

Applying carbon-isotope stratigraphy using well cuttings for high-resolution chemostratigraphic correlation of the subsurface Available to Purchase

J. Garrecht Metzger, David A. Fike, L. B. Smith
Journal: AAPG Bulletin
Published: 01 August 2014
AAPG Bulletin (2014) 98 (8): 1551–1576.
DOI: https://doi.org/10.1306/04011412231
... = Sandbian, D-D = Darriwilian to Dapingian, Tre = Tremadocian. New δ 13 C carb intervals (BR = Black River Group, TR = Trenton Group, UT = Utica Shale) are named for lowest formation they are found in. GICE = Guttenberg isotopic carbon excursion (see text). “?” next to UT-1 suggests...
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View PDF for article title, Applying carbon-isotope stratigraphy using well cuttings for high-resolution chemostratigraphic correlation of the subsurface
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Journal Article

Stratigraphic correlations using trace elements in apatite from Late Ordovician (Sandbian-Katian) K-bentonites of eastern North America Available to Purchase

Bryan K. Sell, Scott D. Samson, Charles E. Mitchell, Patrick I. McLaughlin, Alan E. Koenig, Stephen A. Leslie
Journal: GSA Bulletin
Published: 01 September 2015
GSA Bulletin (2015) 127 (9-10): 1259–1274.
DOI: https://doi.org/10.1130/B31194.1
.... Our new data provide an opportunity to place more rigorous constraints on the relative timing and expression of the GICE and other Mohawkian carbon isotope excursions (CIEs) in eastern North America ( Fig. 9 ). For example, apatite trace-element chemistry indicates that the Capitol City K-bentonite...
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View PDF for article title, Stratigraphic correlations using trace elements in apatite from Late Ordovician (Sandbian-Katian) K-bentonites of eastern North America
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Compilation of Late Ordovician species-specific and mixed conodont δ18O values from the Upper Mississippi Valley (this study), Minnesota (from Buggisch et al.2010), Oklahoma (Rosenau, Herrmann &amp; Leslie, 2012), Alabama (this study), Virginia (this study) and Kentucky (Buggisch et al.2010), with Deicke and Millbrig K-bentonites (red lines) as planes of correlation. The Upper Mississippi Valley data from this study includes results from Decorah (black circles), Rochester (grey circles) and Dickeyville (open circles). Oxygen isotopic values from Alabama include results from Tidwell Hollow (grey circles) and Red Mountain Expressway (black circles). Regional averages are 18.9‰ for the Upper Mississippi Valley, 18.7‰ for Minnesota, 18.3‰ for Oklahoma, 18.1‰ for Alabama, 19‰ for Virginia and 18.4‰ for Kentucky. The M4/M5, the GICE, and K-bentonites are identified in Minnesota (Buggisch et al.2010), Alabama Quinton et al.(2016a), Virginia (Young, Saltzmann &amp; Bergström, 2005) and Kentucky (Buggisch et al.2010). It should be noted that while the GICE has been labelled in Oklahoma (Rosenau, Herrmann &amp; Leslie, 2012) others have questioned this identification (Westrop et al.2015). The GICE is identified in the Upper Mississippi Valley based on δ13C results from this study (see online Supplementary Material available at https://doi.org/10.1017/S0016756817000589). The M4/M5 boundary (identified in Kentucky) is correlated with the contact between the Platteville and Decorah formations in the Upper Mississippi Valley (following Holland &amp; Patzkowsky, 1996; Kolata, Huff &amp; Bergström, 2001); this correlation of the M4/M5 shows that the sequence boundary is regionally diachronous assuming that none of the K-bentonites has been misidentified or miscorrelated. All δ18O values are normalized to an NBS-120c value of 21.7‰.

Compilation of Late Ordovician species-specific and mixed conodont δ 18 O v... Available to Purchase

Published: 02 August 2017
from Tidwell Hollow (grey circles) and Red Mountain Expressway (black circles). Regional averages are 18.9‰ for the Upper Mississippi Valley, 18.7‰ for Minnesota, 18.3‰ for Oklahoma, 18.1‰ for Alabama, 19‰ for Virginia and 18.4‰ for Kentucky. The M4/M5, the GICE, and K-bentonites are identified
Image
(A) Generalized δ13Ccarb stratigraphy for the Upper Ordovician showing the prominent positive Guttenberg (GICE) and Hirnantian (HICE) δ13Ccarb excursions (modified from Bergström et al., 2009). (B) General stratigraphy of study sections (Metzger and Fike, 2013; Bridges and Mulvany, 2018) showing the stratigraphic range of the GICE (shaded). North American series and stages are after Bergström et al. (2009), and biozones are after Leslie (2000). M4 and M5 refer to Mohawkian depositional sequences (Holland and Patzkowsky, 1997; Holland and Patzkowsky, 1998). H—Hirnantian, CW—Castlewood Limestone (Lst.), Gutt.—Guttenberg Limestone, KL—Kings Lake Limestone; N.A.—North America. (C) Generalized state geological map (Missouri Geological Survey, 2002) showing the sample locations: MM—Highway MM, NL—New London. Inset map marks the outcrop locations discussed in the text: 1—Kentucky, 2—Tennessee, 3—Alabama, 4—Missouri, 5—Oklahoma (global boundary stratotype section and point [GSSP]), 6—Ottawa Embayment.

(A) Generalized δ 13 C carb stratigraphy for the Upper Ordovician showing ... Available to Purchase

Published: 28 July 2020
Figure 1. (A) Generalized δ 13 C carb stratigraphy for the Upper Ordovician showing the prominent positive Guttenberg (GICE) and Hirnantian (HICE) δ 13 C carb excursions (modified from Bergström et al., 2009 ). (B) General stratigraphy of study sections ( Metzger and Fike, 2013 ; Bridges
Journal Article

Ordovician reef and mound evolution: the Baltoscandian picture Available to Purchase

BJÖRN KRÖGER, LINDA HINTS, OLIVER LEHNERT
Published: 08 June 2016
Geological Magazine (2017) 154 (4): 683–706.
DOI: https://doi.org/10.1017/S0016756816000303
... of the basin. A main factor controlling the timing of the reef and mound evolution was Baltica's shift toward palaeotropical latitudes during Late Ordovician time. The time equivalence between initial reef growth and the Guttenberg isotope carbon excursion (GICE) suggests that global climatic conditions were...
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Recently recognized positive δ13C excursions in the Upper Ordovician (Katian and Hirnantian Global Stages) and the upper Middle Ordovician (Darriwilian Global Stage). Note the stratigraphic position of the Guttenberg excursion (GICE) in the lower Katian Stage. The figure is modified from Bergström et al.(2008).

Recently recognized positive δ 13 C excursions in the Upper Ordovician (Kat... Available to Purchase

Published: 05 November 2008
Figure 1. Recently recognized positive δ 13 C excursions in the Upper Ordovician (Katian and Hirnantian Global Stages) and the upper Middle Ordovician (Darriwilian Global Stage). Note the stratigraphic position of the Guttenberg excursion (GICE) in the lower Katian Stage. The figure is modified
Journal Article

Katian (Upper Ordovician) carbon isotope chemostratigraphy in the Neixiang area, central China: implications for intercontinental correlation Available to Purchase

Xiuchun Jing, Svend Stouge, Yufeng Tian, Xunlian Wang, Hongrui Zhou
Published: 17 May 2019
Geological Magazine (2019) 156 (12): 2053–2066.
DOI: https://doi.org/10.1017/S0016756819000372
... the early Katian Guttenberg carbon isotope excursion (GICE) and the Hirnantian carbon isotope excursion (HICE), five subdominant Katian excursions are characteristic and intercontinentally correlatable (Bergström et al . 2007 , 2010 b , 2015 ; Ainsaar et al . 2010 ; Bergström & Kleffner, 2018...
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View PDF for article title, Katian (Upper Ordovician) carbon isotope chemostratigraphy in the Neixiang area, central China: implications for intercontinental correlation
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Transatlantic correlation diagram, showing the relations between conodont, graptolite and chitinozoan biostratigraphy, K-bentonite event stratigraphy, and the early Chatfieldian δ13C excursion in North America and Baltoscandia. On the basis of these relations, the GICE is considered the same δ13C excursion as the “middle Caradocian” excursion of Kaljo et al. (2004) (after Bergström et al. 2010).

Transatlantic correlation diagram, showing the relations between conodont, ... Available to Purchase

Published: 01 January 2016
Figure 6 Transatlantic correlation diagram, showing the relations between conodont, graptolite and chitinozoan biostratigraphy, K-bentonite event stratigraphy, and the early Chatfieldian δ 13 C excursion in North America and Baltoscandia. On the basis of these relations, the GICE is considered
Image
δ13C curve through the thick Ordovician succession of the Tazong 12 well in the Tarim Basin based on sample data from Jiang et al.(2001). To illustrate the excursion in a smoother curve, three-point average δ13C values were used to construct the isotope curve. The GICE is interpreted to be in the remarkably thick interval between approximately 4700 m and 5100 m. For explanation of the lithological pattern in the stratigraphic column, see Figure 4.

δ 13 C curve through the thick Ordovician succession of the Tazong 12 well ... Available to Purchase

Published: 05 November 2008
Figure 8. δ 13 C curve through the thick Ordovician succession of the Tazong 12 well in the Tarim Basin based on sample data from Jiang et al. (2001) . To illustrate the excursion in a smoother curve, three-point average δ 13 C values were used to construct the isotope curve. The GICE
Image
Stratigraphic chart illustrating the range of Amorphognathus aff. Am. ventilatus in relation to the GICE in the Puxihe section and the Mehikoorma (421) drill core, Estonia. The Estonian biostratigraphy and chemostratigraphy are based on Männik &amp; Viira (2005) and Martma (2005), respectively. Note the close similarity in the first appearance datum (FAD) of this conodont species between the two sections. For explanation of lithological patterns in the stratigraphic columns, see Figure 4. The pattern in the 286.4–298.5 m interval in the Estonian drill-core denotes dolomitic marl with lenses and interbeds of carbonate.

Stratigraphic chart illustrating the range of Amorphognathus aff. Am. ve... Available to Purchase

Published: 05 November 2008
Figure 5. Stratigraphic chart illustrating the range of Amorphognathus aff. Am. ventilatus in relation to the GICE in the Puxihe section and the Mehikoorma (421) drill core, Estonia. The Estonian biostratigraphy and chemostratigraphy are based on Männik & Viira (2005) and Martma
Image
Comparison of sampling resolution for wells and outcrop during the Guttenberg excursion interval (shaded). (A) Correlations between age-equivalent outcrop in Missouri, (Metzger and Fike, 2013) and New York wells presented here. Sampling resolution is coarser moving to the right, associated with decreasing resolution of the GICE interval. Missouri outcrop y axis (left) is exaggerated relative to the three subsurface sections. (B) Bar graph of sampling resolution for the different locations showing number of feet per sample. High values correspond to low sampling resolution.

Comparison of sampling resolution for wells and outcrop during the Guttenbe... Available to Purchase

Published: 01 August 2014
, associated with decreasing resolution of the GICE interval. Missouri outcrop y axis (left) is exaggerated relative to the three subsurface sections. (B) Bar graph of sampling resolution for the different locations showing number of feet per sample. High values correspond to low sampling resolution.