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Ypresian

January 01, 1970

In the geologic timescale the Ypresian is the oldest age or lowest stratigraphic stage of the Eocene. It spans the time between 56 and 47.8 Ma, is preceded by the Thanetian Age (part of the Paleocene) and is followed by the Eocene Lutetian Age. The Ypresian is consistent with the lower Eocene.

Ypresian
56.0 – 47.8 Ma
Earth ~50 mya
Chronology
Formerly part ofTertiary Period/System
Etymology
Name formalityFormal
Usage information
Celestial bodyEarth
Regional usageGlobal (ICS)
Time scale(s) usedICS Time Scale
Definition
Chronological unitAge
Stratigraphic unitStage
First proposed byDumont
Time span formalityFormal
Lower boundary definitionStrong negative anomaly in δ13C values at the PETM[3]
Lower boundary GSSPDababiya section, Luxor, Egypt[3]
25°30′00″N 32°31′52″E / 25.5000°N 32.5311°E / 25.5000; 32.5311
Lower GSSP ratified2003[3]
Upper boundary definitionFAD of the calcareous nannofossil Blackites inflatus
Upper boundary GSSPGorrondatxe section, Western Pyrenees, Basque Country, Spain
43°22′47″N 3°00′51″W / 43.3796°N 3.0143°W / 43.3796; -3.0143
Upper GSSP ratifiedApril 2011[4]

Events edit

The Ypresian Age begins during the throes of the Paleocene–Eocene Thermal Maximum (PETM). The Fur Formation in Denmark, the Messel shales in Germany, the Oise amber of France and Cambay amber of India are of this age. The Eocene Okanagan Highlands are an uplands subtropical to temperate series of lakes from the Ypresian.[5][6][7]

The Ypresian is additionally marked by another warming event called the Early Eocene Climatic Optimum (EECO). The EECO is the longest sustained warming event in the Cenozoic record, lasting about 2–3 million years between 53 and 50 Ma. The interval is characterized by low oxygen 18 isotopes,[8][9][10] high levels of atmospheric pCO2,[11][12] and low meridional thermal gradients.[13] Biodiversity has been reported to have been significantly impacted by the conditions prevalent during the EECO. For instance, there were biotic turnovers among marine producers such as calcerous nannofossil among others etc.[14][15]

Stratigraphic definition edit

The Ypresian Stage was introduced in scientific literature by Belgian geologist André Hubert Dumont in 1850. The Ypresian is named after the Flemish city of Ypres in Belgium (spelled Ieper in Dutch). The definitions of the original stage were totally different from the modern ones.[16] The Ypresian shares its name with the Belgian Ieper Group (French: Groupe d'Ypres), which has an Ypresian age.

The base of the Ypresian Stage is defined at a strong negative anomaly in δ13C values at the PETM. The official reference profile (GSSP) for the base of the Ypresian is the Dababiya profile near the Egyptian city of Luxor.[17] Its original type section was located in the vicinity of Ieper.

The top of the Ypresian (the base of the Lutetian) is identified by the first appearance of the foraminifera genus Hantkenina in the fossil record.

The Ypresian Stage overlaps the upper Neustrian and most of the Grauvian European Land Mammal Mega Zones (it spans the Mammal Paleogene zones 7 through 10.[18]), the Wasatchian and lower and middle Bridgerian North American Land Mammal Ages, the Casamayoran South American Land Mammal Age and the Bumbanian and most of the Arshantan Asian Land Mammal Ages. It is also coeval with the upper Wangerripian and lowest Johannian regional stages of Australia and the Bulitian, Penutian, and Ulatisian regional stages of California.

References edit

  1. ^ Zachos, J. C.; Kump, L. R. (2005). "Carbon cycle feedbacks and the initiation of Antarctic glaciation in the earliest Oligocene". Global and Planetary Change. 47 (1): 51–66. Bibcode:2005GPC....47...51Z. doi:10.1016/j.gloplacha.2005.01.001.
  2. ^ "International Chronostratigraphic Chart" (PDF). International Commission on Stratigraphy.
  3. ^ a b c Aubry, Marie-Pierre; Ouda, Khaled; Dupuis, Christian; William A. Berggren; John A. Van Couvering; Working Group on the Paleocene/Eocene Boundary (2007). "The Global Standard Stratotype-section and Point (GSSP) for the base of the Eocene Series in the Dababiya section (Egypt)" (PDF). Episodes. 30 (4): 271–286. doi:10.18814/epiiugs/2007/v30i4/003.
  4. ^ Molina, Eustoquio; Alegret, Laia; Apellaniz, Estibaliz; Bernaola, Gilen; Caballero, Fernando; Jaume Dinarès-Turell; Hardenbol, Jan; Claus Heilmann-Clausen; Juan C. Larrasoana; Hanspeter Luterbacher; Simonetta Monechi; Silvia Ortiz; Xabier Orue-Etxebarria; Aitor Payros; Victoriano Pujalte; Francisco J. Rodríguez-Tobar; Flavia Tori; Josep Tosquella; Alfred Uchman (2011). "The Global Stratotype Section and Point (GSSP) for the base of the Lutetian Stage at the Gorrondatxe section, Spain" (PDF). Episodes. 34 (2): 86–108. doi:10.18814/epiiugs/2011/v34i2/006.
  5. ^ Greenwood, D.R.; Archibald, S.B.; Mathewes, R.W; Moss, P.T. (2005). "Fossil biotas from the Okanagan Highlands, southern British Columbia and northeastern Washington State: climates and ecosystems across an Eocene landscape". Canadian Journal of Earth Sciences. 42 (2): 167–185. Bibcode:2005CaJES..42..167G. doi:10.1139/e04-100.
  6. ^ Archibald, S.; Greenwood, D.; Smith, R.; Mathewes, R.; Basinger, J. (2011). "Great Canadian Lagerstätten 1. Early Eocene Lagerstätten of the Okanagan Highlands (British Columbia and Washington State)". Geoscience Canada. 38 (4): 155–164.
  7. ^ Lowe, A. J.; Greenwood, D. R.; West, C. K.; Galloway, J. M.; Sudermann, M.; Reichgelt, T. (2018). "Plant community ecology and climate on an upland volcanic landscape during the Early Eocene Climatic Optimum: McAbee Fossil Beds, British Columbia, Canada". Palaeogeography, Palaeoclimatology, Palaeoecology. 511: 433–448. Bibcode:2018PPP...511..433L. doi:10.1016/j.palaeo.2018.09.010. S2CID 134962126.
  8. ^ Bijl, Peter K.; Schouten, Stefan; Sluijs, Appy; Reichart, Gert-Jan; Zachos, James C.; Brinkhuis, Henk (October 2009). "Early Palaeogene temperature evolution of the southwest Pacific Ocean". Nature. 461 (7265): 776–779. Bibcode:2009Natur.461..776B. doi:10.1038/nature08399. hdl:1874/385779. ISSN 1476-4687. PMID 19812670. S2CID 4358350.
  9. ^ Hollis, Christopher J.; Handley, Luke; Crouch, Erica M.; Morgans, Hugh E.G.; Baker, Joel A.; Creech, John; Collins, Katie S.; Gibbs, Samantha J.; Huber, Matthew; Schouten, Stefan; Zachos, James C.; Pancost, Richard D. (2009-02-01). "Tropical sea temperatures in the high-latitude South Pacific during the Eocene". Geology. 37 (2): 99–102. Bibcode:2009Geo....37...99H. doi:10.1130/g25200a.1. ISSN 1943-2682.
  10. ^ Zachos, James; Pagani, Mark; Sloan, Lisa; Thomas, Ellen; Billups, Katharina (2001-04-27). "Trends, Rhythms, and Aberrations in Global Climate 65 Ma to Present". Science. 292 (5517): 686–693. Bibcode:2001Sci...292..686Z. doi:10.1126/science.1059412. ISSN 0036-8075. PMID 11326091.
  11. ^ Beerling, David J.; Royer, Dana L. (July 2011). "Convergent Cenozoic CO2 history". Nature Geoscience. 4 (7): 418–420. Bibcode:2011NatGe...4..418B. doi:10.1038/ngeo1186. ISSN 1752-0908.
  12. ^ Zachos, James C.; Dickens, Gerald R.; Zeebe, Richard E. (January 2008). "An early Cenozoic perspective on greenhouse warming and carbon-cycle dynamics". Nature. 451 (7176): 279–283. Bibcode:2008Natur.451..279Z. doi:10.1038/nature06588. ISSN 1476-4687. PMID 18202643. S2CID 4360841.
  13. ^ Cramwinckel, Margot J.; Huber, Matthew; Kocken, Ilja J.; Agnini, Claudia; Bijl, Peter K.; Bohaty, Steven M.; Frieling, Joost; Goldner, Aaron; Hilgen, Frederik J.; Kip, Elizabeth L.; Peterse, Francien; van der Ploeg, Robin; Röhl, Ursula; Schouten, Stefan; Sluijs, Appy (July 2018). "Synchronous tropical and polar temperature evolution in the Eocene". Nature. 559 (7714): 382–386. Bibcode:2018Natur.559..382C. doi:10.1038/s41586-018-0272-2. hdl:1874/366626. ISSN 1476-4687. PMID 29967546. S2CID 256767465.
  14. ^ Cappelli, C.; Bown, P. R.; Westerhold, T.; Bohaty, S. M.; Riu, M.; Lobba, V.; Yamamoto, Y.; Agnini, C. (December 2019). "The Early to Middle Eocene Transition: An Integrated Calcareous Nannofossil and Stable Isotope Record From the Northwest Atlantic Ocean (Integrated Ocean Drilling Program Site U1410)". Paleoceanography and Paleoclimatology. 34 (12): 1913–1930. Bibcode:2019PaPa...34.1913C. doi:10.1029/2019PA003686. hdl:11577/3322441. ISSN 2572-4517. S2CID 210245165.
  15. ^ Schneider, Leah J.; Bralower, Timothy J.; Kump, Lee R. (October 2011). "Response of nannoplankton to early Eocene ocean destratification". Palaeogeography, Palaeoclimatology, Palaeoecology. 310 (3–4): 152–162. Bibcode:2011PPP...310..152S. doi:10.1016/j.palaeo.2011.06.018.
  16. ^ Steurbaut (2006)
  17. ^ The GSSP was established by Dupuis et al. (2003)
  18. ^ Alroy, John. "Mammal Paleogene zones". p. The Paleobiology Database. Retrieved 15 July 2009.

Literature edit

 
Wikisource has original works on the topic: Cenozoic#Paleogene
  • Dumont, A. H.; 1850: Rapport sur la carte géologique du Royaume, Bulletins de l’Académie Royale des Sciences, des Lettres et des Beaux-Arts de Belgique 16 (2), pp. 351–373. (in French)
  • Dupuis, C.; Aubry, M.; Steurbaut, É; Berggren, W. A.; Ouda, K.; Magioncalda, R.; Cramer, B. S.; Kent, D. V.; Speijer, R. P. & Heilmann-Clausen, C.; 2003: The Dababiya Quarry Section: Lithostratigraphy, clay mineralogy, geochemistry and paleontology, Micropaleontology 49 (1), pp. 41–59, ISSN 0026-2803.
  • Gradstein, F. M.; Ogg, J. G. & Smith, A. G.; 2004: A Geologic Time Scale 2004, Cambridge University Press.
  • Steurbaut, É.; 2006: Ypresian 2012-02-18 at the Wayback Machine, Geologica Belgica 9 (1–2), pp. 73–93.

External links edit

  • Paleogene timescale, at the website of the subcommission for stratigraphic information of the ICS
  • , at the website of Norges Network of offshore records of geology and stratigraphy

January 01, 1970
ypresian, geologic, timescale, oldest, lowest, stratigraphic, stage, eocene, spans, time, between, preceded, thanetian, part, paleocene, followed, eocene, lutetian, consistent, with, lower, eocene, preꞒ, nearth, myaklondike, mountain, formation, republic, wash. In the geologic timescale the Ypresian is the oldest age or lowest stratigraphic stage of the Eocene It spans the time between 56 and 47 8 Ma is preceded by the Thanetian Age part of the Paleocene and is followed by the Eocene Lutetian Age The Ypresian is consistent with the lower Eocene Ypresian56 0 47 8 Ma PreꞒ Ꞓ O S D C P T J K Pg NEarth 50 myaKlondike Mountain Formation Republic WashingtonChronology 65 60 55 50 45 40 35 30 25 MZCenozoicKPaleogeneNLKPaleoceneEoceneOligoceneMCMaastricht DanianSelandianThanetianYpresianLutetianBartonianPriabonianRupelianChattianAquitanian PETM First Antarctic permanent ice sheets 1 K Pg massextinctionSubdivision of the Paleogene according to the ICS as of 2021 2 Vertical axis scale millions of years agoFormerly part ofTertiary Period SystemEtymologyName formalityFormalUsage informationCelestial bodyEarthRegional usageGlobal ICS Time scale s usedICS Time ScaleDefinitionChronological unitAgeStratigraphic unitStageFirst proposed byDumontTime span formalityFormalLower boundary definitionStrong negative anomaly in d13C values at the PETM 3 Lower boundary GSSPDababiya section Luxor Egypt 3 25 30 00 N 32 31 52 E 25 5000 N 32 5311 E 25 5000 32 5311Lower GSSP ratified2003 3 Upper boundary definitionFAD of the calcareous nannofossil Blackites inflatusUpper boundary GSSPGorrondatxe section Western Pyrenees Basque Country Spain43 22 47 N 3 00 51 W 43 3796 N 3 0143 W 43 3796 3 0143Upper GSSP ratifiedApril 2011 4 Contents 1 Events 2 Stratigraphic definition 3 References 3 1 Literature 4 External linksEvents editThe Ypresian Age begins during the throes of the Paleocene Eocene Thermal Maximum PETM The Fur Formation in Denmark the Messel shales in Germany the Oise amber of France and Cambay amber of India are of this age The Eocene Okanagan Highlands are an uplands subtropical to temperate series of lakes from the Ypresian 5 6 7 The Ypresian is additionally marked by another warming event called the Early Eocene Climatic Optimum EECO The EECO is the longest sustained warming event in the Cenozoic record lasting about 2 3 million years between 53 and 50 Ma The interval is characterized by low oxygen 18 isotopes 8 9 10 high levels of atmospheric pCO2 11 12 and low meridional thermal gradients 13 Biodiversity has been reported to have been significantly impacted by the conditions prevalent during the EECO For instance there were biotic turnovers among marine producers such as calcerous nannofossil among others etc 14 15 Stratigraphic definition editThe Ypresian Stage was introduced in scientific literature by Belgian geologist Andre Hubert Dumont in 1850 The Ypresian is named after the Flemish city of Ypres in Belgium spelled Ieper in Dutch The definitions of the original stage were totally different from the modern ones 16 The Ypresian shares its name with the Belgian Ieper Group French Groupe d Ypres which has an Ypresian age The base of the Ypresian Stage is defined at a strong negative anomaly in d13C values at the PETM The official reference profile GSSP for the base of the Ypresian is the Dababiya profile near the Egyptian city of Luxor 17 Its original type section was located in the vicinity of Ieper The top of the Ypresian the base of the Lutetian is identified by the first appearance of the foraminifera genus Hantkenina in the fossil record The Ypresian Stage overlaps the upper Neustrian and most of the Grauvian European Land Mammal Mega Zones it spans the Mammal Paleogene zones 7 through 10 18 the Wasatchian and lower and middle Bridgerian North American Land Mammal Ages the Casamayoran South American Land Mammal Age and the Bumbanian and most of the Arshantan Asian Land Mammal Ages It is also coeval with the upper Wangerripian and lowest Johannian regional stages of Australia and the Bulitian Penutian and Ulatisian regional stages of California References edit Zachos J C Kump L R 2005 Carbon cycle feedbacks and the initiation of Antarctic glaciation in the earliest Oligocene Global and Planetary Change 47 1 51 66 Bibcode 2005GPC 47 51Z doi 10 1016 j gloplacha 2005 01 001 International Chronostratigraphic Chart PDF International Commission on Stratigraphy a b c Aubry Marie Pierre Ouda Khaled Dupuis Christian William A Berggren John A Van Couvering Working Group on the Paleocene Eocene Boundary 2007 The Global Standard Stratotype section and Point GSSP for the base of the Eocene Series in the Dababiya section Egypt PDF Episodes 30 4 271 286 doi 10 18814 epiiugs 2007 v30i4 003 Molina Eustoquio Alegret Laia Apellaniz Estibaliz Bernaola Gilen Caballero Fernando Jaume Dinares Turell Hardenbol Jan Claus Heilmann Clausen Juan C Larrasoana Hanspeter Luterbacher Simonetta Monechi Silvia Ortiz Xabier Orue Etxebarria Aitor Payros Victoriano Pujalte Francisco J Rodriguez Tobar Flavia Tori Josep Tosquella Alfred Uchman 2011 The Global Stratotype Section and Point GSSP for the base of the Lutetian Stage at the Gorrondatxe section Spain PDF Episodes 34 2 86 108 doi 10 18814 epiiugs 2011 v34i2 006 Greenwood D R Archibald S B Mathewes R W Moss P T 2005 Fossil biotas from the Okanagan Highlands southern British Columbia and northeastern Washington State climates and ecosystems across an Eocene landscape Canadian Journal of Earth Sciences 42 2 167 185 Bibcode 2005CaJES 42 167G doi 10 1139 e04 100 Archibald S Greenwood D Smith R Mathewes R Basinger J 2011 Great Canadian Lagerstatten 1 Early Eocene Lagerstatten of the Okanagan Highlands British Columbia and Washington State Geoscience Canada 38 4 155 164 Lowe A J Greenwood D R West C K Galloway J M Sudermann M Reichgelt T 2018 Plant community ecology and climate on an upland volcanic landscape during the Early Eocene Climatic Optimum McAbee Fossil Beds British Columbia Canada Palaeogeography Palaeoclimatology Palaeoecology 511 433 448 Bibcode 2018PPP 511 433L doi 10 1016 j palaeo 2018 09 010 S2CID 134962126 Bijl Peter K Schouten Stefan Sluijs Appy Reichart Gert Jan Zachos James C Brinkhuis Henk October 2009 Early Palaeogene temperature evolution of the southwest Pacific Ocean Nature 461 7265 776 779 Bibcode 2009Natur 461 776B doi 10 1038 nature08399 hdl 1874 385779 ISSN 1476 4687 PMID 19812670 S2CID 4358350 Hollis Christopher J Handley Luke Crouch Erica M Morgans Hugh E G Baker Joel A Creech John Collins Katie S Gibbs Samantha J Huber Matthew Schouten Stefan Zachos James C Pancost Richard D 2009 02 01 Tropical sea temperatures in the high latitude South Pacific during the Eocene Geology 37 2 99 102 Bibcode 2009Geo 37 99H doi 10 1130 g25200a 1 ISSN 1943 2682 Zachos James Pagani Mark Sloan Lisa Thomas Ellen Billups Katharina 2001 04 27 Trends Rhythms and Aberrations in Global Climate 65 Ma to Present Science 292 5517 686 693 Bibcode 2001Sci 292 686Z doi 10 1126 science 1059412 ISSN 0036 8075 PMID 11326091 Beerling David J Royer Dana L July 2011 Convergent Cenozoic CO2 history Nature Geoscience 4 7 418 420 Bibcode 2011NatGe 4 418B doi 10 1038 ngeo1186 ISSN 1752 0908 Zachos James C Dickens Gerald R Zeebe Richard E January 2008 An early Cenozoic perspective on greenhouse warming and carbon cycle dynamics Nature 451 7176 279 283 Bibcode 2008Natur 451 279Z doi 10 1038 nature06588 ISSN 1476 4687 PMID 18202643 S2CID 4360841 Cramwinckel Margot J Huber Matthew Kocken Ilja J Agnini Claudia Bijl Peter K Bohaty Steven M Frieling Joost Goldner Aaron Hilgen Frederik J Kip Elizabeth L Peterse Francien van der Ploeg Robin Rohl Ursula Schouten Stefan Sluijs Appy July 2018 Synchronous tropical and polar temperature evolution in the Eocene Nature 559 7714 382 386 Bibcode 2018Natur 559 382C doi 10 1038 s41586 018 0272 2 hdl 1874 366626 ISSN 1476 4687 PMID 29967546 S2CID 256767465 Cappelli C Bown P R Westerhold T Bohaty S M Riu M Lobba V Yamamoto Y Agnini C December 2019 The Early to Middle Eocene Transition An Integrated Calcareous Nannofossil and Stable Isotope Record From the Northwest Atlantic Ocean Integrated Ocean Drilling Program Site U1410 Paleoceanography and Paleoclimatology 34 12 1913 1930 Bibcode 2019PaPa 34 1913C doi 10 1029 2019PA003686 hdl 11577 3322441 ISSN 2572 4517 S2CID 210245165 Schneider Leah J Bralower Timothy J Kump Lee R October 2011 Response of nannoplankton to early Eocene ocean destratification Palaeogeography Palaeoclimatology Palaeoecology 310 3 4 152 162 Bibcode 2011PPP 310 152S doi 10 1016 j palaeo 2011 06 018 Steurbaut 2006 The GSSP was established by Dupuis et al 2003 Alroy John Mammal Paleogene zones p The Paleobiology Database Retrieved 15 July 2009 Literature edit nbsp Wikisource has original works on the topic Cenozoic Paleogene Dumont A H 1850 Rapport sur la carte geologique du Royaume Bulletins de l Academie Royale des Sciences des Lettres et des Beaux Arts de Belgique 16 2 pp 351 373 in French Dupuis C Aubry M Steurbaut E Berggren W A Ouda K Magioncalda R Cramer B S Kent D V Speijer R P amp Heilmann Clausen C 2003 The Dababiya Quarry Section Lithostratigraphy clay mineralogy geochemistry and paleontology Micropaleontology 49 1 pp 41 59 ISSN 0026 2803 Gradstein F M Ogg J G amp Smith A G 2004 A Geologic Time Scale 2004 Cambridge University Press Steurbaut E 2006 Ypresian Archived 2012 02 18 at the Wayback Machine Geologica Belgica 9 1 2 pp 73 93 External links editGeoWhen Database Ypresian Paleogene timescale at the website of the subcommission for stratigraphic information of the ICS Stratigraphic chart of the Paleogene at the website of Norges Network of offshore records of geology and stratigraphy Retrieved from https en wikipedia org w index php title Ypresian amp oldid 1193721417, wikipedia, wiki, book, books, library,

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