Neogene

"Neogenic" redirects here. For the fictional item featured in Marvel comics and animated series, see Neogenic (comics).
For the moth genus, see Neogene (moth).
Neogene
23.03 ± 0.3 – 2.588 ± 0.04 Ma
A map of Earth as it appeared 15 million years ago during the Neogene Period, Miocene Epoch
Chronology
Etymology
Name formalityFormal
Usage information
Celestial bodyEarth
Regional usageGlobal (ICS)
Time scale(s) usedICS Time Scale
Definition
Chronological unitPeriod
Stratigraphic unitSystem
Time span formalityFormal
Lower boundary definition
Lower boundary GSSPLemme-Carrosio Section, Carrosio, Italy
44°39′32″N 8°50′11″E / 44.6589°N 8.8364°E / 44.6589; 8.8364
Lower GSSP ratified1996[4]
Upper boundary definition
Upper boundary GSSPMonte San Nicola Section, Gela, Sicily, Italy
37°08′49″N 14°12′13″E / 37.1469°N 14.2035°E / 37.1469; 14.2035
Upper GSSP ratified2009 (as base of Quaternary and Pleistocene)[5]
Atmospheric and climatic data
Mean atmospheric O2 contentc. 21.5 vol %
(100 % of modern)
Mean atmospheric CO2 contentc. 280 ppm
(1 times pre-industrial)
Mean surface temperaturec. 14 °C
(0.5 °C above pre-industrial)

The Neogene (/ˈn.ən/ NEE-ə-jeen,[6][7]) is a geologic period and system that spans 20.45 million years from the end of the Paleogene Period 23.03 million years ago (Mya) to the beginning of the present Quaternary Period 2.58 million years ago. It is the second period of the Cenozoic and the eleventh period of the Phanerozoic. The Neogene is sub-divided into two epochs, the earlier Miocene and the later Pliocene. Some geologists assert that the Neogene cannot be clearly delineated from the modern geological period, the Quaternary.[8] The term "Neogene" was coined in 1853 by the Austrian palaeontologist Moritz Hörnes (1815–1868).[9] The earlier term Tertiary Period was used to define the span of time now covered by Paleogene and Neogene and, despite no longer being recognized as a formal stratigraphic term, "Tertiary" still sometimes remains in informal use.[10]

During this period, mammals and birds continued to evolve into modern forms, while other groups of life remained relatively unchanged. The first humans (Homo habilis) appeared in Africa near the end of the period.[11] Some continental movements took place, the most significant event being the connection of North and South America at the Isthmus of Panama, late in the Pliocene. This cut off the warm ocean currents from the Pacific to the Atlantic Ocean, leaving only the Gulf Stream to transfer heat to the Arctic Ocean. The global climate cooled considerably throughout the Neogene, culminating in a series of continental glaciations in the Quaternary Period that followed.

Divisions

In ICS terminology, from upper (later, more recent) to lower (earlier):

The Pliocene Epoch is subdivided into two ages:

The Miocene Epoch is subdivided into six ages:

In different geophysical regions of the world, other regional names are also used for the same or overlapping ages and other timeline subdivisions.

The terms Neogene System (formal) and Upper Tertiary System (informal) describe the rocks deposited during the Neogene Period.

Paleogeography

The continents in the Neogene were very close to their current positions. The Isthmus of Panama formed, connecting North and South America. The Indian subcontinent continued to collide with Asia, forming the Himalayas. Sea levels fell, creating land bridges between Africa and Eurasia and between Eurasia and North America.

Climate

The global climate became more seasonal and continued an overall drying and cooling trend which began during the Paleogene. The Early Miocene was relatively cool;[12] Early Miocene mid-latitude seawater and continental thermal gradients were already very similar to those of the present.[13] During the Middle Miocene, Earth entered a warm phase known as the Middle Miocene Climatic Optimum (MMCO),[12] which was driven by the emplacement of the Columbia River Basalt Group.[14] Around 11 Ma, the Middle Miocene Warm Interval gave way to the much cooler Late Miocene.[12] The ice caps on both poles began to grow and thicken, a process enhanced by positive feedbacks from increased formation of sea ice.[15] Between 7 and 5.3 Ma, a decrease in global temperatures termed the Late Miocene Cooling (LMC) ensued, driven by decreases in carbon dioxide concentrations.[16] During the Pliocene, from about 5.3 to 2.7 Ma, another warm interval occurred, being known as the Pliocene Warm Interval (PWI), interrupting the longer-term cooling trend. The Pliocene Thermal Maximum (PTM) occurred between 3.3 and 3.0 Ma.[12] During the Pliocene, Green Sahara phases of wet conditions in North Africa were frequent and occurred about every 21 kyr, being especially intense when Earth's orbit's eccentricity was high.[17] The PWI had similar levels of atmospheric carbon dioxide to contemporary times and is often seen as an analogous climate to the projected climate of the near future as a result of anthropogenic global warming.[18] Towards the end of the Pliocene, decreased heat transport towards the Antarctic resulting from a weakening of the Indonesian Throughflow (ITF) cooled the Earth, a process that exacerbated itself in a positive feedback as sea levels dropped and the ITF diminished and further limited the heat transported southward by the Leeuwin Current.[19] By the end of the period the first of a series of glaciations of the current Ice Age began.[20]

Flora and fauna

Marine and continental flora and fauna have a modern appearance. The reptile group Choristodera went extinct in the early part of the period, while the amphibians known as Allocaudata disappeared at the end of it. Neogene also marked the end of the reptilian genera Langstonia and Barinasuchus, terrestrial predators that were the last surviving members of Sebecosuchia, a group related to crocodiles. The oceans were dominated by large carnivores like megalodons and livyatans, and 19 million years ago about 70% of all pelagic shark species disappeared.[21] Mammals and birds continued to be the dominant terrestrial vertebrates, and took many forms as they adapted to various habitats. An explosive radiation of ursids took place at the Miocene-Pliocene boundary.[22] The first hominins, the ancestors of humans, may have appeared in southern Europe and migrated into Africa.[23][24] The first humans (belonging to the species Homo habilis) appeared in Africa near the end of the period.[11]

About 20 million years ago gymnosperms in the form of some conifer and cycad groups started to diversify and produce more species due to the changing conditions.[25] In response to the cooler, seasonal climate, tropical plant species gave way to deciduous ones and grasslands replaced many forests. Grasses therefore greatly diversified, and herbivorous mammals evolved alongside it, creating the many grazing animals of today such as horses, antelope, and bison. Ice age mammals like the mammoths and woolly rhinoceros were common in Pliocene. With lower levels of CO2 in the atmosphere, C4 plants expanded and reached ecological dominance in grasslands during the last 10 million years. Also Asteraceae (daisies) went through a significant adaptive radiation.[26] Eucalyptus fossil leaves occur in the Miocene of New Zealand, where the genus is not native today, but have been introduced from Australia.[27]

Disagreements

The Neogene traditionally ended at the end of the Pliocene Epoch, just before the older definition of the beginning of the Quaternary Period; many time scales show this division.

However, there was a movement amongst geologists (particularly marine geologists) to also include ongoing geological time (Quaternary) in the Neogene, while others (particularly terrestrial geologists) insist the Quaternary to be a separate period of distinctly different record. The somewhat confusing terminology and disagreement amongst geologists on where to draw what hierarchical boundaries is due to the comparatively fine divisibility of time units as time approaches the present, and due to geological preservation that causes the youngest sedimentary geological record to be preserved over a much larger area and to reflect many more environments than the older geological record.[8] By dividing the Cenozoic Era into three (arguably two) periods (Paleogene, Neogene, Quaternary) instead of seven epochs, the periods are more closely comparable to the duration of periods in the Mesozoic and Paleozoic Eras.

The International Commission on Stratigraphy (ICS) once proposed that the Quaternary be considered a sub-era (sub-erathem) of the Neogene, with a beginning date of 2.58 Ma, namely the start of the Gelasian Stage. In the 2004 proposal of the ICS, the Neogene would have consisted of the Miocene and Pliocene Epochs.[28] The International Union for Quaternary Research (INQUA) counterproposed that the Neogene and the Pliocene end at 2.58 Ma, that the Gelasian be transferred to the Pleistocene, and the Quaternary be recognized as the third period in the Cenozoic, citing key changes in Earth's climate, oceans, and biota that occurred 2.58 Ma and its correspondence to the Gauss-Matuyama magnetostratigraphic boundary.[29][30] In 2006 ICS and INQUA reached a compromise that made Quaternary a sub-era, subdividing Cenozoic into the old classical Tertiary and Quaternary, a compromise that was rejected by International Union of Geological Sciences because it split both Neogene and Pliocene in two.[31]

Following formal discussions at the 2008 International Geological Congress in Oslo, Norway,[32] the ICS decided in May 2009 to make the Quaternary the youngest period of the Cenozoic Era with its base at 2.58 Mya and including the Gelasian Age, which was formerly considered part of the Neogene Period and Pliocene Epoch.[33] Thus the Neogene Period ends bounding the succeeding Quaternary Period at 2.58 Mya.

References

  1. ^ Krijgsman, W.; Garcés, M.; Langereis, C. G.; Daams, R.; Van Dam, J.; Van Der Meulen, A. J.; Agustí, J.; Cabrera, L. (1996). "A new chronology for the middle to late Miocene continental record in Spain". Earth and Planetary Science Letters. 142 (3–4): 367–380. Bibcode:1996E&PSL.142..367K. doi:10.1016/0012-821X(96)00109-4.
  2. ^ Retallack, G. J. (1997). "Neogene Expansion of the North American Prairie". PALAIOS. 12 (4): 380–390. doi:10.2307/3515337. JSTOR 3515337. Retrieved 2008-02-11.
  3. ^ "International Chronostratigraphic Chart" (PDF). International Commission on Stratigraphy. September 2023. Retrieved December 16, 2024.
  4. ^ Steininger, Fritz F.; M. P. Aubry; W. A. Berggren; M. Biolzi; A. M. Borsetti; Julie E. Cartlidge; F. Cati; R. Corfield; R. Gelati; S. Iaccarino; C. Napoleone; F. Ottner; F. Rögl; R. Roetzel; S. Spezzaferri; F. Tateo; G. Villa; D. Zevenboom (1997). "The Global Stratotype Section and Point (GSSP) for the base of the Neogene" (PDF). Episodes. 20 (1): 23–28. doi:10.18814/epiiugs/1997/v20i1/005.
  5. ^ Gibbard, Philip; Head, Martin (September 2010). "The newly-ratified definition of the Quaternary System/Period and redefinition of the Pleistocene Series/Epoch, and comparison of proposals advanced prior to formal ratification" (PDF). Episodes. 33 (3): 152–158. doi:10.18814/epiiugs/2010/v33i3/002. Retrieved 8 December 2020.
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  7. ^ "Neogene". Dictionary.com Unabridged (Online). n.d.
  8. ^ a b Tucker, M.E. (2001). Sedimentary petrology : an introduction to the origin of sedimentary rocks (3rd ed.). Osney Nead, Oxford, UK: Blackwell Science. ISBN 978-0-632-05735-1.
  9. ^ Hörnes, M. (1853). "Mittheilungen an Professor Bronn gerichtet" [Reports addressed to Professor Bronn]. Neues Jahrbuch für Mineralogie, Geognosie, Geologie und Petrefaktenkunde (in German): 806–810. hdl:2027/hvd.32044106271273. From p. 806: "Das häufige Vorkommen der Wiener Mollusken … im trennenden Gegensatze zu den eocänen zusammenzufassen." (The frequent occurrence of Viennese mollusks in typical Miocene as well as in typical Pliocene deposits motivated me – in order to avoid the perpetual monotony [of providing] details about the deposits – to subsume both deposits provisionally under the name "Neogene" (νεος new and γιγνομαι to arise) in distinguishing contrast to the Eocene.)
  10. ^ "GeoWhen Database – What Happened to the Tertiary?". www.stratigraphy.org.
  11. ^ a b Spoor, Fred; Gunz, Philipp; Neubauer, Simon; Stelzer, Stefanie; Scott, Nadia; Kwekason, Amandus; Dean, M. Christopher (March 2015). "Reconstructed Homo habilis type OH 7 suggests deep-rooted species diversity in early Homo". Nature. 519 (7541): 83–86. Bibcode:2015Natur.519...83S. doi:10.1038/nature14224. PMID 25739632. S2CID 4470282.
  12. ^ a b c d Scotese, Christopher R.; Song, Haijun; Mills, Benjamin J.W.; van der Meer, Douwe G. (April 2021). "Phanerozoic paleotemperatures: The earth's changing climate during the last 540 million years". Earth-Science Reviews. 215: 103503. Bibcode:2021ESRv..21503503S. doi:10.1016/j.earscirev.2021.103503. ISSN 0012-8252. S2CID 233579194. Archived from the original on 8 January 2021. Retrieved 17 July 2023. Alt URL
  13. ^ Goedert, Jean; Amiot, Romain; Arnaut-Godet, Florent; Cuny, Gilles; Fourel, François; Hernandez, Jean-Alexis; Pedreira-Segade, Ulysse; Lécuyer, Christophe (1 September 2017). "Miocene (Burdigalian) seawater and air temperatures estimated from the geochemistry of fossil remains from the Aquitaine Basin, France". Palaeogeography, Palaeoclimatology, Palaeoecology. 481: 14–28. Bibcode:2017PPP...481...14G. doi:10.1016/j.palaeo.2017.04.024. Retrieved 30 November 2022.
  14. ^ Kasbohm, Jennifer; Schoene, Blair (19 September 2018). "Rapid eruption of the Columbia River flood basalt and correlation with the mid-Miocene climate optimum". Science Advances. 4 (9): eaat8223. Bibcode:2018SciA....4.8223K. doi:10.1126/sciadv.aat8223. PMC 6154988. PMID 30255148.
  15. ^ DeConto, Robert; Pollard, David; Harwood, David (24 August 2007). "Sea ice feedback and Cenozoic evolution of Antarctic climate and ice sheets". Paleoceanography and Paleoclimatology. 22 (3): 1–18. Bibcode:2007PalOc..22.3214D. doi:10.1029/2006PA001350.
  16. ^ Tanner, Thomas; Hernández-Almeida, Iván; Drury, Anna Joy; Guitián, José; Stoll, Heather (10 December 2020). "Decreasing Atmospheric CO2 During the Late Miocene Cooling". Paleoceanography and Paleoclimatology. 35 (12). Bibcode:2020PaPa...35.3925T. doi:10.1029/2020PA003925. S2CID 230534117. Retrieved 17 March 2023.
  17. ^ Lupien, Rachel; Uno, Kevin; Rose, Cassaundra; deRoberts, Nicole; Hazan, Cole; de Menocal, Peter; Polissar, Pratigya (9 October 2023). "Low-frequency orbital variations controlled climatic and environmental cycles, amplitudes, and trends in northeast Africa during the Plio-Pleistocene". Communications Earth & Environment. 4 (1): 360. Bibcode:2023ComEE...4..360L. doi:10.1038/s43247-023-01034-7. ISSN 2662-4435.
  18. ^ Burke, K. D.; Williams, J. W.; Chandler, M. A.; Haywood, A. M.; Lunt, D. J.; Otto-Bliesner, B. L. (26 December 2018). "Pliocene and Eocene provide best analogs for near-future climates". Proceedings of the National Academy of Sciences of the United States of America. 115 (52): 13288–13293. Bibcode:2018PNAS..11513288B. doi:10.1073/pnas.1809600115. ISSN 0027-8424. PMC 6310841. PMID 30530685.
  19. ^ De Vleeschouwer, David; Auer, Gerald; Smith, Rebecca; Bogus, Kara; Christensen, Beth; Groeneveld, Jeroen; Petrick, Benjamin; Henderiks, Jorijntje; Castañeda, Isla S.; O'Brien, Evan; Ellinghausen, Maret; Gallagher, Stephen J.; Fulthorpe, Craig S.; Pälike, Heiko (October 2018). "The amplifying effect of Indonesian Throughflow heat transport on Late Pliocene Southern Hemisphere climate cooling". Earth and Planetary Science Letters. 500: 15–27. Bibcode:2018E&PSL.500...15D. doi:10.1016/j.epsl.2018.07.035. Retrieved 13 April 2024 – via Elsevier Science Direct.
  20. ^ Benn, Douglas I. (2010). Glaciers & glaciation (2nd ed.). London: Hodder Education. pp. 15–21. ISBN 9780340905791.
  21. ^ Almost 20 Million Years Ago, Sharks Nearly Went Extinct
  22. ^ Krause, Johannes; Unger, Tina; Noçon, Aline; Malaspinas, Anna-Sapfo; Kolokotronis, Sergios-Orestis; Stiller, Mathias; Soibelzon, Leopoldo; Spriggs, Helen; Dear, Paul H; Briggs, Adrian W; Bray, Sarah CE; O'Brien, Stephen J; Rabeder, Gernot; Matheus, Paul; Cooper, Alan; Slatkin, Montgomery; Pääbo, Svante; Hofreiter, Martin (28 July 2008). "Mitochondrial genomes reveal an explosive radiation of extinct and extant bears near the Miocene-Pliocene boundary". BMC Evolutionary Biology. 8 (1): 220. Bibcode:2008BMCEE...8..220K. doi:10.1186/1471-2148-8-220. ISSN 1471-2148. PMC 2518930. PMID 18662376.
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  25. ^ DNA duplication linked to the origin and evolution of pine trees and their relatives
  26. ^ Palazzesi, Luis; Hidalgo, Oriane; Barreda, Viviana D.; Forest, Félix; Höhna, Sebastian (2022). "The rise of grasslands is linked to atmospheric CO2 decline in the late Palaeogene". Nature Communications. 13 (1): 293. Bibcode:2022NatCo..13..293P. doi:10.1038/s41467-021-27897-y. PMC 8755714. PMID 35022396.
  27. ^ "Eucalyptus fossils in New Zealand – the thin end of the wedge – Mike Pole". 22 September 2014.
  28. ^ Lourens, L., Hilgen, F., Shackleton, N.J., Laskar, J., Wilson, D., (2004) "The Neogene Period". In: Gradstein, F., Ogg, J., Smith, A.G. (Eds.), Geologic Time Scale, Cambridge University Press, Cambridge.
  29. ^ Clague, John et al. (2006) "Open Letter by INQUA Executive Committee" Archived 2006-09-23 at the Wayback Machine Quaternary Perspective, the INQUA Newsletter International Union for Quaternary Research 16(1)
  30. ^ Clague, John; et al. (2006). "Open Letter by INQUA Executive Committee" (PDF). Quaternary Perspective, the INQUA Newsletter. 16 (1). International Union for Quaternary Research: 158–159. doi:10.1016/j.quaint.2006.06.001. ISSN 1040-6182. Archived from the original (PDF) on 2006-09-23. Retrieved 2006-09-23.
  31. ^ "ICS: Consolidated Annual Report for 2006" (PDF). Stratigraphy.org. Retrieved 15 June 2007.
  32. ^ "Geoparks and Geotourism – Field Excursion of South America". 33igc.org. Retrieved 17 December 2017.
  33. ^ "See the 2009 version of the ICS geologic time scale". Quaternary.stratigraphy.org.uk. Retrieved 17 December 2017.
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Numerals used in Ancient Eygpt Part of a series onNumeral systems Place-value notation Hindu-Arabic numerals Western Arabic Eastern Arabic Bengali Devanagari Gujarati Gurmukhi Odia Sinhala Tamil Malayalam Telugu Kannada Dzongkha Tibetan Balinese Burmese Javanese Khmer Lao Mongolian Sundanese Thai East Asian systems Contemporary Chinese Suzhou Hokkien Japanese Korean Vietnamese Historic Counting rods Tangut Other systems History Ancient Babylonian Post-classical Cistercian Mayan Muisca Pentadi...

 

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Restaurant in Naples, ItalyAntica Pizzeria Port'AlbaAntica Pizzeria Port'Alba's main entranceRestaurant informationEstablished1738Food typeItalian pizzeriaStreet addressVia Port'AlbaCityNaplesPostal/ZIP Code18, 80134CountryItalyWebsitePizzeria Port’Alba Antica Pizzeria Port'Alba is a pizzeria in Naples, Italy, which is widely believed to be the world's first pizzeria.[1] Part of a series onPizza Main articles History of pizza Pizza delivery List of pizza varieties by cou...

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Strategi Solo vs Squad di Free Fire: Cara Menang Mudah!