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Dual biozonation scheme (benthic foraminifera and"calcareous" green algae) over the Jurassic-Cretaceous transition: Another plea to revert the system boundary to its historical Orbigny's and Oppel's definition

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Prof. Bruno R.C. Granier

A keynote talk given on the occasion of JK2018, the International Symposium around the Jurassic - Cretaceous Boundary

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Dual biozonation scheme (benthic foraminifera and "calcareous" green algae) over the Jurassic - Cretaceous transition: Another plea to revert the system boundary to its historical Orbigny's and Oppel's definition Bruno Granier The Tithonian-Valanginian interval is subdivided into 5 biozones (zones and subzones) combining mostly large benthic foraminifera and "calcareous" green algae, which are typical of photozoan assemblages. This dual zonation is calibrated on a sequence stratigraphic framework for the Jura Mountains where all occurrences of ammonites and calpionellids are plotted. The microfossil diversity was low in the Tithonian-early Berriasian times; then it significantly increased over the middle-late Berriasian times before a first extinction event at the Berriasian/Valanginian boundary followed by a second extinction event in the early Valanginian times. The lower/middle Berriasian and the Berriasian/Valanginian boundaries can be traced consistently from West to East through the whole Tethysian realm. By contrast, the upper Tithonian and the lower Berriasian cannot be distinguished. Because the location of the Jurassic/Cretaceous system boundary has been pending a decision of the International Commission on Stratigraphy since 1975, this survey provides one more argument to abandon the early 20th century Kilian's view which placed it at the Tithonian/Berriasian stage boundary, and to return it to the original 19th century Orbigny's and Oppel's view, i.e., back at the Berriasian/Valanginian stage boundary. Granier B. (2019).- Dual biozonation scheme (benthic foraminifera and "calcareous" green algae) over the Jurassic - Cretaceous transition. Another plea to revert the system boundary to its historical Orbigny's and Oppel's definition.- Cretaceous Research., vol. 93, p. 245-274.
The goal and the approaches • How to calibrate microfossil ranges in carbonate platforms on ammonite or calpionellid scales? 1. The empirical approach 2. The pragmatical approach The first case to document the conclusions of both approaches will be the Urgonian case: 1. The starting point is a statement: the Urgonian mostly corresponds to the upper Barremian – lower Aptian (“Grenoble school”) 2. Focused analyses of vertical interfingerings and rare cooccurrences (“Genève school”)
A. Arnaud-Vanneau’s chart The empirical approach
B. Clavel’s chart The pragmatical approach
A. Arnaud-Vanneau’s chart
A. Arnaud-Vanneau’s chart versus • l’Estellon
B. Clavel’s chart versus • l’Estellon
The highest discrepancies appear with Arnaud- Vanneau‘s (2005). The best match was obtained with Clavel‘s (2007, 2010). What did we learn from • L'Estellon?
The transition of the Jurassic to the Cretaceous in the Jura mountains Stratigraphic framework derived from Charollais et al., 2008; Strasky et al., 2014; Strasser et al., 2016 Bernard Clavel 1938-2018
Montricher, Vaud, Switzerland
Crozet, Ain, France
Central Tethys The central Tethys domain is characterized by rich and diverse assemblages of benthic foraminifera and "calcareous" green algae. 5 dual biozones (4 zones and 1 subzone) have been defined for the Tithonian-lower Valanginian interval: • the Anchispirocyclina lusitanica zone for the Tithonian- lower Berriasian; • the Protopeneroplis ultragranulata subzone for the upper Tithonian-lower Berriasian; • the Rajkaella minima zone for the middle Berriasian; • the Falsolikanella campanensis zone for the upper Berriasian; • the Pseudocyclammina lituus zone for the lower Valanginian pro parte. • ”)
The central Tethys domain is characterized by rich and diverse assemblages of benthic foraminifera and "calcareous" green algae. 5 dual biozones (4 zones and 1 subzone) have been defined for the Tithonian-lower Valanginian interval: • the Anchispirocyclina lusitanica zone for the Tithonian- lower Berriasian; • the Protopeneroplis ultragranulata subzone for the upper Tithonian-lower Berriasian; • the Rajkaella minima zone for the middle Berriasian; • the Falsolikanella campanensis zone for the upper Berriasian; • the Pseudocyclammina lituus zone for the lower Valanginian pro parte. • ”) Central Tethys One cannot discriminate • upper Tithonian strata from • lower Berriasian strata
Puig Campana, Alicante, Spain Granier, 1987
Azéma & Jaffrezo, 1972 Jaffrezo, 1980 Granier, 1988 Granier, 2019 "Portlandian" Berriasian ValanginianTithonian Falsolikanella campanensis (Azéma & Jaffrezo, 1972)
Puig Campana, Alicante, Spain Granier, 2019
T I M E W Tethys E “Cosmopolitan” “Endemic” Falsolikanella campanensis (Azéma & Jaffrezo, 1972) is a subendemic species, which is in accordance with a short-ranging (i.e., upper Berriasian)
Strong long-ranging correlation Strong long-ranging correlation Only 2 strong long-ranging correlations: • lower-middle Berriasian • Berriasian-Valanginian
T I M E W Tethys E “Cosmopolitan” “Endemic” For long-distance correlations, one relies on cosmopolitan species, mostly long-ranging species (F.O. and/or L.O.), few short-ranging (e.g., Anchispirocyclina lusitanica)
European Archipelago
TOPLAPS regression
ONLAPS transgression
Extinction 2 Extinction 2 Extinction 1 No extinction!
Conclusions The Tethys domain is characterized by rich and diverse assemblages of benthic foraminifera and "calcareous" green algae. 5 dual biozones (4 zones and 1 subzone) have been defined for the Tithonian-lower Valanginian interval of the central Tethys: • the Anchispirocyclina lusitanica zone for the Tithonian- lower Berriasian; • the Protopeneroplis ultragranulata subzone for the upper Tithonian-lower Berriasian; • the Rajkaella minima and Falsolikanella campanensis zones for the middle and upper Berriasian; • the Pseudocyclammina lituus zone for the lower Valanginian pro parte. • ”)
The Tethys domain is characterized by rich and diverse assemblages of benthic foraminifera and "calcareous" green algae. 5 dual biozones (4 zones and 1 subzone) have been defined for the Tithonian-lower Valanginian interval of the central Tethys: • the Anchispirocyclina lusitanica zone for the Tithonian- lower Berriasian; • the Protopeneroplis ultragranulata subzone for the upper Tithonian-lower Berriasian; • the Rajkaella minima and Falsolikanella campanensis zones for the middle and upper Berriasian; • the Pseudocyclammina lituus zone for the lower Valanginian pro parte. • ”) One cannot discriminate • upper Tithonian strata from • lower Berriasian strata Conclusions
The Tethys domain is characterized by rich and diverse assemblages of benthic foraminifera and "calcareous" green algae. 5 dual biozones (4 zones and 1 subzone) have been defined for the Tithonian-lower Valanginian interval of the central Tethys: • the Anchispirocyclina lusitanica zone for the Tithonian- lower Berriasian; • the Protopeneroplis ultragranulata subzone for the upper Tithonian-lower Berriasian; • the Rajkaella minima and Falsolikanella campanensis zones for the middle and upper Berriasian; • the Pseudocyclammina lituus zone for the lower Valanginian pro parte. • ”) One can “easily” correlate • the base of the middle Berriasian • the base of the Valanginian (i.e., the mark of a first biological crisis!) Conclusions
Dual biozonation scheme (benthic foraminifera and"calcareous" green algae) over the Jurassic-Cretaceous transition: Another plea to revert the system boundary to its historical Orbigny's and Oppel's definition

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Dual biozonation scheme (benthic foraminifera and"calcareous" green algae) over the Jurassic-Cretaceous transition: Another plea to revert the system boundary to its historical Orbigny's and Oppel's definition

  • 1. Dual biozonation scheme (benthic foraminifera and "calcareous" green algae) over the Jurassic - Cretaceous transition: Another plea to revert the system boundary to its historical Orbigny's and Oppel's definition Bruno Granier The Tithonian-Valanginian interval is subdivided into 5 biozones (zones and subzones) combining mostly large benthic foraminifera and "calcareous" green algae, which are typical of photozoan assemblages. This dual zonation is calibrated on a sequence stratigraphic framework for the Jura Mountains where all occurrences of ammonites and calpionellids are plotted. The microfossil diversity was low in the Tithonian-early Berriasian times; then it significantly increased over the middle-late Berriasian times before a first extinction event at the Berriasian/Valanginian boundary followed by a second extinction event in the early Valanginian times. The lower/middle Berriasian and the Berriasian/Valanginian boundaries can be traced consistently from West to East through the whole Tethysian realm. By contrast, the upper Tithonian and the lower Berriasian cannot be distinguished. Because the location of the Jurassic/Cretaceous system boundary has been pending a decision of the International Commission on Stratigraphy since 1975, this survey provides one more argument to abandon the early 20th century Kilian's view which placed it at the Tithonian/Berriasian stage boundary, and to return it to the original 19th century Orbigny's and Oppel's view, i.e., back at the Berriasian/Valanginian stage boundary. Granier B. (2019).- Dual biozonation scheme (benthic foraminifera and "calcareous" green algae) over the Jurassic - Cretaceous transition. Another plea to revert the system boundary to its historical Orbigny's and Oppel's definition.- Cretaceous Research., vol. 93, p. 245-274.
  • 2. The goal and the approaches • How to calibrate microfossil ranges in carbonate platforms on ammonite or calpionellid scales? 1. The empirical approach 2. The pragmatical approach The first case to document the conclusions of both approaches will be the Urgonian case: 1. The starting point is a statement: the Urgonian mostly corresponds to the upper Barremian – lower Aptian (“Grenoble school”) 2. Focused analyses of vertical interfingerings and rare cooccurrences (“Genève school”)
  • 3. A. Arnaud-Vanneau’s chart The empirical approach
  • 4. B. Clavel’s chart The pragmatical approach
  • 5.
  • 6.
  • 7.
  • 9. A. Arnaud-Vanneau’s chart versus • l’Estellon
  • 10. B. Clavel’s chart versus • l’Estellon
  • 11. The highest discrepancies appear with Arnaud- Vanneau‘s (2005). The best match was obtained with Clavel‘s (2007, 2010). What did we learn from • L'Estellon?
  • 12. The transition of the Jurassic to the Cretaceous in the Jura mountains Stratigraphic framework derived from Charollais et al., 2008; Strasky et al., 2014; Strasser et al., 2016 Bernard Clavel 1938-2018
  • 13.
  • 14.
  • 15.
  • 18.
  • 19. Central Tethys The central Tethys domain is characterized by rich and diverse assemblages of benthic foraminifera and "calcareous" green algae. 5 dual biozones (4 zones and 1 subzone) have been defined for the Tithonian-lower Valanginian interval: • the Anchispirocyclina lusitanica zone for the Tithonian- lower Berriasian; • the Protopeneroplis ultragranulata subzone for the upper Tithonian-lower Berriasian; • the Rajkaella minima zone for the middle Berriasian; • the Falsolikanella campanensis zone for the upper Berriasian; • the Pseudocyclammina lituus zone for the lower Valanginian pro parte. • ”)
  • 20. The central Tethys domain is characterized by rich and diverse assemblages of benthic foraminifera and "calcareous" green algae. 5 dual biozones (4 zones and 1 subzone) have been defined for the Tithonian-lower Valanginian interval: • the Anchispirocyclina lusitanica zone for the Tithonian- lower Berriasian; • the Protopeneroplis ultragranulata subzone for the upper Tithonian-lower Berriasian; • the Rajkaella minima zone for the middle Berriasian; • the Falsolikanella campanensis zone for the upper Berriasian; • the Pseudocyclammina lituus zone for the lower Valanginian pro parte. • ”) Central Tethys One cannot discriminate • upper Tithonian strata from • lower Berriasian strata
  • 21.
  • 22. Puig Campana, Alicante, Spain Granier, 1987
  • 23. Azéma & Jaffrezo, 1972 Jaffrezo, 1980 Granier, 1988 Granier, 2019 "Portlandian" Berriasian ValanginianTithonian Falsolikanella campanensis (Azéma & Jaffrezo, 1972)
  • 24. Puig Campana, Alicante, Spain Granier, 2019
  • 25. T I M E W Tethys E “Cosmopolitan” “Endemic” Falsolikanella campanensis (Azéma & Jaffrezo, 1972) is a subendemic species, which is in accordance with a short-ranging (i.e., upper Berriasian)
  • 26. Strong long-ranging correlation Strong long-ranging correlation Only 2 strong long-ranging correlations: • lower-middle Berriasian • Berriasian-Valanginian
  • 27. T I M E W Tethys E “Cosmopolitan” “Endemic” For long-distance correlations, one relies on cosmopolitan species, mostly long-ranging species (F.O. and/or L.O.), few short-ranging (e.g., Anchispirocyclina lusitanica)
  • 29.
  • 31.
  • 33. Extinction 2 Extinction 2 Extinction 1 No extinction!
  • 34. Conclusions The Tethys domain is characterized by rich and diverse assemblages of benthic foraminifera and "calcareous" green algae. 5 dual biozones (4 zones and 1 subzone) have been defined for the Tithonian-lower Valanginian interval of the central Tethys: • the Anchispirocyclina lusitanica zone for the Tithonian- lower Berriasian; • the Protopeneroplis ultragranulata subzone for the upper Tithonian-lower Berriasian; • the Rajkaella minima and Falsolikanella campanensis zones for the middle and upper Berriasian; • the Pseudocyclammina lituus zone for the lower Valanginian pro parte. • ”)
  • 35. The Tethys domain is characterized by rich and diverse assemblages of benthic foraminifera and "calcareous" green algae. 5 dual biozones (4 zones and 1 subzone) have been defined for the Tithonian-lower Valanginian interval of the central Tethys: • the Anchispirocyclina lusitanica zone for the Tithonian- lower Berriasian; • the Protopeneroplis ultragranulata subzone for the upper Tithonian-lower Berriasian; • the Rajkaella minima and Falsolikanella campanensis zones for the middle and upper Berriasian; • the Pseudocyclammina lituus zone for the lower Valanginian pro parte. • ”) One cannot discriminate • upper Tithonian strata from • lower Berriasian strata Conclusions
  • 36. The Tethys domain is characterized by rich and diverse assemblages of benthic foraminifera and "calcareous" green algae. 5 dual biozones (4 zones and 1 subzone) have been defined for the Tithonian-lower Valanginian interval of the central Tethys: • the Anchispirocyclina lusitanica zone for the Tithonian- lower Berriasian; • the Protopeneroplis ultragranulata subzone for the upper Tithonian-lower Berriasian; • the Rajkaella minima and Falsolikanella campanensis zones for the middle and upper Berriasian; • the Pseudocyclammina lituus zone for the lower Valanginian pro parte. • ”) One can “easily” correlate • the base of the middle Berriasian • the base of the Valanginian (i.e., the mark of a first biological crisis!) Conclusions