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• W2148568460 abstract "Research Article| July 01, 2008 Carbon chemostratigraphy of the Cambrian-Ordovician transition in a midlatitude mixed platform, Montagne Noire, France J. Javier Álvaro; J. Javier Álvaro † 1Departamento Ciencias de la Tierra, Universidad de Zaragoza, 50009-Zaragoza, Spain, and LP3, UMR 8014 CNRS, University of Lille I, 59655-Villeneuve d'Ascq, France †E-mail: Jose-Javier.Alvaro@univ-lille1.fr. Search for other works by this author on: GSW Google Scholar Blanca Bauluz; Blanca Bauluz 2Departamento Ciencias de la Tierra, Universidad de Zaragoza, 50009-Zaragoza, Spain Search for other works by this author on: GSW Google Scholar Ignacio Subías; Ignacio Subías 2Departamento Ciencias de la Tierra, Universidad de Zaragoza, 50009-Zaragoza, Spain Search for other works by this author on: GSW Google Scholar Catherine Pierre; Catherine Pierre 3Laboratoire d'Océanographie Dynamique et de Climatologie, Université Pierre et Marie Curie, 75252-Paris cedex 05, France Search for other works by this author on: GSW Google Scholar Daniel Vizcaïno Daniel Vizcaïno 47 rue Jean-Baptiste Chardin, Maquens, 11090-Carcassonne, France Search for other works by this author on: GSW Google Scholar GSA Bulletin (2008) 120 (7-8): 962–975. https://doi.org/10.1130/B26243.1 Article history received: 13 Apr 2007 rev-recd: 26 Nov 2007 accepted: 08 Dec 2007 first online: 02 Mar 2017 Cite View This Citation Add to Citation Manager Share Icon Share Facebook Twitter LinkedIn MailTo Tools Icon Tools Get Permissions Search Site Citation J. Javier Álvaro, Blanca Bauluz, Ignacio Subías, Catherine Pierre, Daniel Vizcaïno; Carbon chemostratigraphy of the Cambrian-Ordovician transition in a midlatitude mixed platform, Montagne Noire, France. GSA Bulletin 2008;; 120 (7-8): 962–975. doi: https://doi.org/10.1130/B26243.1 Download citation file: Ris (Zotero) Refmanager EasyBib Bookends Mendeley Papers EndNote RefWorks BibTex toolbar search Search Dropdown Menu toolbar search search input Search input auto suggest filter your search All ContentBy SocietyGSA Bulletin Search Advanced Search Abstract The Cambrian Drumian Carbon Isotope Excursion (DICE) and the Steptoean Positive Carbon Isotope Excursion (SPICE) have been so far reported in subtropical platforms: the DICE event is a large negative excursion in δ13Ccarb record that nearly coincides with the beginning of the Drumian (Cambrian Series 3), whereas the SPICE event is a large positive shift in δ13Ccarb identified close to the base of the Paibian (Furongian Series). The chemostratigraphic excursions have been recognized in carbonate-dominated platforms, and their application to mid- and high-latitude, siliciclastic-dominated platforms has been problematic. This paper offers, for the first time, a high-resolution stratigraphic analysis of this time span in a temperate-water platform (Montagne Noire, France) that recorded episodes of carbonate productivity in nearshore environments. Two sections were analyzed in detail: a complete Cambrian Series 3–Tremadocian succession, devoid of carbonate interbeds and paleogeographically located in the distal part of the platform (Pardailhan nappe), and a Furongian-Tremadocian succession, which has limestone interbeds and represents the proximal part of the platform (Minervois nappe).The lower part of the La Gardie Formation in the Pardailhan nappe displays background δ13Corg values of −22‰ punctuated by a large negative, middle Languedocian (regional substage) shift, peaking at −24.5‰. This negative excursion is similar to the DICE event reported close to the base of the Drumian, although the latter is exclusively based on δ13Ccarb values. Stable isotopes of δ13Ccarb and δ13Corg from both sections also indicate a common chemostratigraphic shift at the onset of the Furongian. In nearshore deposits of the Minervois nappe, the δ13Ccarb background values for the interbedded limestone strata of the Val d'Homs Formation gradually increase from −3‰ to −1‰ and are punctuated by a sharp increase in δ13Ccarb values to >3.0‰. By contrast, in basinal shales of the La Gardie Formation in the Pardailhan nappe, the δ13Corg background values decrease from −22‰ to −27.1‰. This trend is directly controlled by total organic carbon (TOC) contents and is interpreted to have been initiated by changes in the degree of biodegradation of organic matter, sulfate reduction, and methanogenesis before or soon after burial. Despite this overprinting and the very low degree of metamorphism reached by the shales, the δ13Corg background trend is also punctuated by a sharp positive shift in δ13Corg values to >4.0‰, similar to the SPICE event. In addition, the asymmetric shape of the SPICE excursion in the Montagne Noire shows evidence for the HERB event, a late Furongian negative carbon isotope excursion not yet accepted as a worldwide chemostratigraphic anomaly.The recognition of both chemostratigraphic shifts in mixed and clayey strata opens new possibilities of chemostratigraphic correlation in mid- and high-latitude platforms, where carbonate factories did not widely develop, and strata only contain endemic fauna. This implication has a major consequence because the Global Stratotype Section and Point (GSSP) of the Drumian and Paibian stages occurs near the base of both excursions. 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• W2148568460 date "2008-07-01" @default.
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• W2148568460 title "Carbon chemostratigraphy of the Cambrian-Ordovician transition in a midlatitude mixed platform, Montagne Noire, France" @default.
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• W2148568460 cites W1682777677 @default.
• W2148568460 cites W1966077680 @default.
• W2148568460 cites W1969824833 @default.
• W2148568460 cites W1972987173 @default.
• W2148568460 cites W1973364692 @default.
• W2148568460 cites W1982470756 @default.
• W2148568460 cites W1984491575 @default.
• W2148568460 cites W1986916739 @default.
• W2148568460 cites W1986930372 @default.
• W2148568460 cites W1987854863 @default.
• W2148568460 cites W1994831204 @default.
• W2148568460 cites W1995104316 @default.
• W2148568460 cites W1998294701 @default.
• W2148568460 cites W1998684983 @default.
• W2148568460 cites W2008991880 @default.
• W2148568460 cites W2019629786 @default.
• W2148568460 cites W2019691523 @default.
• W2148568460 cites W2020610733 @default.
• W2148568460 cites W2020872632 @default.
• W2148568460 cites W2025696977 @default.
• W2148568460 cites W2031053894 @default.
• W2148568460 cites W2032855124 @default.
• W2148568460 cites W2035632430 @default.
• W2148568460 cites W2038430731 @default.
• W2148568460 cites W2039311538 @default.
• W2148568460 cites W2047748419 @default.
• W2148568460 cites W2054598905 @default.
• W2148568460 cites W2054774617 @default.
• W2148568460 cites W2056670043 @default.
• W2148568460 cites W2056826935 @default.
• W2148568460 cites W2058304931 @default.
• W2148568460 cites W2058684541 @default.
• W2148568460 cites W2058812106 @default.
• W2148568460 cites W2059131953 @default.
• W2148568460 cites W2059849751 @default.
• W2148568460 cites W2069801499 @default.
• W2148568460 cites W2070822025 @default.
• W2148568460 cites W2071016525 @default.
• W2148568460 cites W2077809433 @default.
• W2148568460 cites W2079030090 @default.
• W2148568460 cites W2081466015 @default.
• W2148568460 cites W2092555112 @default.
• W2148568460 cites W2103726081 @default.
• W2148568460 cites W2104139642 @default.
• W2148568460 cites W2107533036 @default.
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• W2148568460 cites W2128956731 @default.
• W2148568460 cites W2141848714 @default.
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