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Pliocene

February 25, 2023

The Pliocene ( /ˈpl.əsn, ˈpl.-/ PLY-ə-seen, PLY-oh-;[6][7] also Pleiocene)[8] is the epoch in the geologic time scale that extends from 5.333 million to 2.58[9] million years ago. It is the second and most recent epoch of the Neogene Period in the Cenozoic Era. The Pliocene follows the Miocene Epoch and is followed by the Pleistocene Epoch. Prior to the 2009 revision of the geologic time scale, which placed the four most recent major glaciations entirely within the Pleistocene, the Pliocene also included the Gelasian Stage, which lasted from 2.588 to 1.806 million years ago, and is now included in the Pleistocene.[10]

Pliocene
5.333 ± 0.08 – 2.58 ± 0.04 Ma
Chronology
Etymology
Name formalityFormal
Usage information
Celestial bodyEarth
Regional usageGlobal (ICS)
Time scale(s) usedICS Time Scale
Definition
Chronological unitEpoch
Stratigraphic unitSeries
Time span formalityFormal
Lower boundary definitionBase of the Thvera magnetic event (C3n.4n), which is only 96 ka (5 precession cycles) younger than the GSSP
Lower boundary GSSPHeraclea Minoa section, Heraclea Minoa, Cattolica Eraclea, Sicily, Italy
37°23′30″N 13°16′50″E / 37.3917°N 13.2806°E / 37.3917; 13.2806
Lower GSSP ratified2000[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]

As with other older geologic periods, the geological strata that define the start and end are well identified but the exact dates of the start and end of the epoch are slightly uncertain. The boundaries defining the Pliocene are not set at an easily identified worldwide event but rather at regional boundaries between the warmer Miocene and the relatively cooler Pliocene. The upper boundary was set at the start of the Pleistocene glaciations.

Etymology

Charles Lyell (later Sir Charles) gave the Pliocene its name in Principles of Geology (volume 3, 1833).[11]

The word pliocene comes from the Greek words πλεῖον (pleion, "more") and καινός (kainos, "new" or "recent")[12] and means roughly "continuation of the recent", referring to the essentially modern marine mollusc fauna.

Subdivisions

 
Some schemes for subdivisions of the Pliocene

In the official timescale of the ICS, the Pliocene is subdivided into two stages. From youngest to oldest they are:

The Piacenzian is sometimes referred to as the Late Pliocene, whereas the Zanclean is referred to as the Early Pliocene.

In the system of

In the Paratethys area (central Europe and parts of western Asia) the Pliocene contains the Dacian (roughly equal to the Zanclean) and Romanian (roughly equal to the Piacenzian and Gelasian together) stages. As usual in stratigraphy, there are many other regional and local subdivisions in use.

In Britain, the Pliocene is divided into the following stages (old to young): Gedgravian, Waltonian, Pre-Ludhamian, Ludhamian, Thurnian, Bramertonian or Antian, Pre-Pastonian or Baventian, Pastonian and Beestonian. In the Netherlands the Pliocene is divided into these stages (old to young): Brunssumian C, Reuverian A, Reuverian B, Reuverian C, Praetiglian, Tiglian A, Tiglian B, Tiglian C1-4b, Tiglian C4c, Tiglian C5, Tiglian C6 and Eburonian. The exact correlations between these local stages and the International Commission on Stratigraphy (ICS) stages is still a matter of detail.[18]

Climate

Main article: Pliocene climate
 
Mid-Pliocene reconstructed annual sea surface temperature anomaly

The beginning of the Pliocene was marked by an increase in global temperatures relative to the cooler Messinian related to the 1.2 million year obliquity amplitude modulation cycle.[19] The global average temperature in the mid-Pliocene (3.3–3 mya) was 2–3 °C higher than today,[20] carbon dioxide levels were the same as today,[21] and global sea level was 25 m higher.[22] The northern hemisphere ice sheet was ephemeral before the onset of extensive glaciation over Greenland that occurred in the late Pliocene around 3 Ma.[23] The formation of an Arctic ice cap is signaled by an abrupt shift in oxygen isotope ratios and ice-rafted cobbles in the North Atlantic and North Pacific Ocean beds.[24] Mid-latitude glaciation was probably underway before the end of the epoch. The global cooling that occurred during the Pliocene may have spurred on the disappearance of forests and the spread of grasslands and savannas.[25]

Paleogeography

 
Examples of migrant species in the Americas after the formation of the Isthmus of Panama. Olive green silhouettes denote North American species with South American ancestors; blue silhouettes denote South American species of North American origin.

Continents continued to drift, moving from positions possibly as far as 250 km from their present locations to positions only 70 km from their current locations. South America became linked to North America through the Isthmus of Panama during the Pliocene, making possible the Great American Interchange and bringing a nearly complete end to South America's distinctive native ungulate fauna,[26] though other South American lineages like its predatory mammals were already extinct by this point and others like xenarthrans continued to do well afterwards. The formation of the Isthmus had major consequences on global temperatures, since warm equatorial ocean currents were cut off and an Atlantic cooling cycle began, with cold Arctic and Antarctic waters dropping temperatures in the now-isolated Atlantic Ocean.[27]

Africa's collision with Europe formed the Mediterranean Sea, cutting off the remnants of the Tethys Ocean. The border between the Miocene and the Pliocene is also the time of the Messinian salinity crisis.[28][29]

The land bridge between Alaska and Siberia (Beringia) was first flooded near the start of the Pliocene, allowing marine organisms to spread between the Arctic and Pacific Oceans. The bridge would continue to be periodically flooded and restored thereafter.[30]

Pliocene marine formations are exposed in northeast Spain,[31] southern California,[32] New Zealand,[33] and Italy.[34]

During the Pliocene parts of southern Norway and southern Sweden that had been near sea level rose. In Norway this rise elevated the Hardangervidda plateau to 1200 m in the Early Pliocene.[35] In Southern Sweden similar movements elevated the South Swedish highlands leading to a deflection of the ancient Eridanos river from its original path across south-central Sweden into a course south of Sweden.[36]

Environment and evolution of human ancestors

The Pliocene is bookended by two significant events in the evolution of human ancestors. The first is the appearance of the hominin Australopithecus anamensis in the early Pliocene, around 4.2 million years ago.[37][38][39] The second is the appearance of Homo, the genus that includes modern humans and their closest extinct relatives, near the end of the Pliocene at 2.6 million years ago.[40] Key traits that evolved among hominins during the Pliocene include terrestrial bipedality and, by the end of the Pliocene, encephalized brains (brains with a large neocortex relative to body mass[41][a] and stone tool manufacture.[42]

Improvements in dating methods and in the use of climate proxies have provided scientists with the means to test hypotheses of the evolution of human ancestors.[42][43] Early hypotheses of the evolution of human traits emphasized the selective pressures produced by particular habitats. For example, many scientists have long favored the savannah hypothesis. This proposes that the evolution of terrestrial bipedality and other traits was an adaptive response to Pliocene climate change that transformed forests into more open savannah. This was championed by Grafton Elliot Smith in his 1924 book, The Evolution of Man, as "the unknown world beyond the trees", and was further elaborated by Raymond Dart as the killer ape theory.[44] Other scientists, such as Sherwood L. Washburn, emphasized an intrinsic model of hominin evolution. According to this model, early evolutionary developments triggered later developments. The model placed little emphasis on the surrounding environment.[45] Anthropologists tended to focus on intrinsic models while geologists and vertebrate paleontologists tended to put greater emphasis on habitats.[46]

Alternatives to the savanna hypothesis include the woodland/forest hypothesis, which emphasizes the evolution of hominins in closed habitats, or hypotheses emphasizing the influence of colder habitats at higher latitudes or the influence of seasonal variation. More recent research has emphasized the variability selection hypothesis, which proposes that variability in climate fostered development of hominin traits.[42] Improved climate proxies show that the Pliocene climate of east Africa was highly variable, suggesting that adaptability to varying conditions was more important in driving hominin evolution than the steady pressure of a particular habitat.[41]

Flora

The change to a cooler, drier, more seasonal climate had considerable impacts on Pliocene vegetation, reducing tropical species worldwide. Deciduous forests proliferated, coniferous forests and tundra covered much of the north, and grasslands spread on all continents (except Antarctica). Tropical forests were limited to a tight band around the equator, and in addition to dry savannahs, deserts appeared in Asia and Africa.[47][failed verification]

Fauna

Both marine and continental faunas were essentially modern, although continental faunas were a bit more primitive than today.

The land mass collisions meant great migration and mixing of previously isolated species, such as in the Great American Interchange. Herbivores got bigger, as did specialized predators.

  •  

    The gastropod Oliva sayana, from the Pliocene of Florida

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    The coral Cladocora from the Pliocene of Cyprus

  •  

    A gastropod and attached serpulid wormtube from the Pliocene of Cyprus

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    The gastropod Turritella carinata from the Pliocene of Cyprus

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    The thorny oyster Spondylus right and left valve interiors from the Pliocene of Cyprus

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    The limpet Diodora italica from the Pliocene of Cyprus

  •  

    The scaphopod Dentalium from the Pliocene of Cyprus

  •  

    The gastropod Aporrhais from the Pliocene of Cyprus

  •  

    The arcid bivalve Anadara from the Pliocene of Cyprus

  •  

    The pectenid bivalve Ammusium cristatum from the Pliocene of Cyprus

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    Vermetid gastropod Petaloconchus intortus attached to a branch of the coral Cladocora from the Pliocene of Cyprus

  •  

    Chesapecten, barnacles and sponge borings (Entobia) from the Pliocene of York River, Virginia

Mammals

 
19th century artist's impression of a Pliocene landscape

In North America, rodents, large mastodons and gomphotheres, and opossums continued successfully, while hoofed animals (ungulates) declined, with camel, deer and horse all seeing populations recede. Three-toed horses (Nannippus), oreodonts, protoceratids, and chalicotheres became extinct. Borophagine dogs and Agriotherium became extinct, but other carnivores including the weasel family diversified, and dogs and short-faced bears did well. Ground sloths, huge glyptodonts, and armadillos came north with the formation of the Isthmus of Panama.

In Eurasia rodents did well, while primate distribution declined. Elephants, gomphotheres and stegodonts were successful in Asia (the largest land mammals of the Pliocene were such proboscideans as Deinotherium, Anancus and Mammut borsoni[48]), and hyraxes migrated north from Africa. Horse diversity declined, while tapirs and rhinos did fairly well. Bovines and antelopes were successful; some camel species crossed into Asia from North America. Hyenas and early saber-toothed cats appeared, joining other predators including dogs, bears and weasels.

Africa was dominated by hoofed animals, and primates continued their evolution, with australopithecines (some of the first hominins) and baboon-like monkeys such as the Dinopithecus appearing in the late Pliocene. Rodents were successful, and elephant populations increased. Cows and antelopes continued diversification and overtook pigs in numbers of species. Early giraffes appeared. Horses and modern rhinos came onto the scene. Bears, dogs and weasels (originally from North America) joined cats, hyenas and civets as the African predators, forcing hyenas to adapt as specialized scavengers. Most mustelids in Africa declined as a result of increased competition from the new predators, although Enhydriodon omoensis remained an unusually successful terrestrial predator.

South America was invaded by North American species for the first time since the Cretaceous, with North American rodents and primates mixing with southern forms. Litopterns and the notoungulates, South American natives, were mostly wiped out, except for the macrauchenids and toxodonts, which managed to survive. Small weasel-like carnivorous mustelids, coatis and short-faced bears migrated from the north. Grazing glyptodonts, browsing giant ground sloths and smaller caviomorph rodents, pampatheres, and armadillos did the opposite, migrating to the north and thriving there.

The marsupials remained the dominant Australian mammals, with herbivore forms including wombats and kangaroos, and the huge Diprotodon. Carnivorous marsupials continued hunting in the Pliocene, including dasyurids, the dog-like thylacine and cat-like Thylacoleo. The first rodents arrived in Australia. The modern platypus, a monotreme, appeared.

Birds

 
Titanis

The predatory South American phorusrhacids were rare in this time; among the last was Titanis, a large phorusrhacid that migrated to North America and rivaled mammals as top predator. Other birds probably evolved at this time, some modern (such as the genera Cygnus, Bubo, Struthio and Corvus), some now extinct.

Reptiles and amphibians

Alligators and crocodiles died out in Europe as the climate cooled. Venomous snake genera continued to increase as more rodents and birds evolved. Rattlesnakes first appeared in the Pliocene. The modern species Alligator mississippiensis, having evolved in the Miocene, continued into the Pliocene, except with a more northern range; specimens have been found in very late Miocene deposits of Tennessee. Giant tortoises still thrived in North America, with genera like Hesperotestudo. Madtsoid snakes were still present in Australia. The amphibian order Allocaudata became extinct.

Oceans

Oceans continued to be relatively warm during the Pliocene, though they continued cooling. The Arctic ice cap formed, drying the climate and increasing cool shallow currents in the North Atlantic. Deep cold currents flowed from the Antarctic.

The formation of the Isthmus of Panama about 3.5 million years ago[49] cut off the final remnant of what was once essentially a circum-equatorial current that had existed since the Cretaceous and the early Cenozoic. This may have contributed to further cooling of the oceans worldwide.

The Pliocene seas were alive with sea cows, seals, sea lions and sharks.

Supernovae

In 2002, Narciso Benítez et al. calculated that roughly 2 million years ago, around the end of the Pliocene Epoch, a group of bright O and B stars called the Scorpius–Centaurus OB association passed within 130 light-years of Earth and that one or more supernova explosions gave rise to a feature known as the Local Bubble.[50] Such a close explosion could have damaged the Earth's ozone layer and caused the extinction of some ocean life (at its peak, a supernova of this size could have the same absolute magnitude as an entire galaxy of 200 billion stars).[51][52] Radioactive iron-60 isotopes that have been found in ancient seabed deposits further back this finding, as there are no natural sources for this radioactive isotope on Earth, but they can be produced in supernovae.[53] Furthermore, iron-60 residues point to a huge spike 2.6 million years ago, but an excess scattered over 10 million years can also be found, suggesting that there may have been multiple, relatively close supernovae.[53]

In 2019, researchers found more of these interstellar iron-60 isotopes in Antarctica, which have been associated with the Local Interstellar Cloud.[54]

See also

Notes

  1. ^ Because of the 2009 reassignment of the Pliocene-Pleistocene boundary from 1.8 to 2.6 million years ago, older papers on Pliocene hominin evolution sometimes include events that would now be regarded as taking place in the early Pleistocene.

References

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  54. ^ "Interstellar Iron Found In Antarctic Snow – Astrobiology". astrobiology.com. 21 August 2019.

Further reading

  • Comins, Niel F.; William J. Kaufmann III (2005). Discovering the Universe (7th ed.). New York, NY: Susan Finnemore Brennan. ISBN 978-0-7167-7584-3.
  • Gradstein, F.M.; Ogg, J.G. & Smith, A.G.; 2004: A Geologic Time Scale 2004, Cambridge University Press.
  • Ogg, Jim (June 2004). . Archived from the original on 23 April 2006. Retrieved 30 April 2006.
  • Van Andel, Tjeerd H. (1994). New Views on an Old Planet: a History of Global Change (2nd ed.). Cambridge: Cambridge University Press. ISBN 978-0-521-44243-5.

External links

 
Wikimedia Commons has media related to Pliocene.
 
Wikisource has original works on the topic: Cenozoic#Neogene
  • PBS Change: Deep Time: Pliocene
  • Possible Pliocene supernova
  • retrieved February 2, 2002
  • UCMP Berkeley Pliocene Epoch Page
  • Pliocene Microfossils: 100+ images of Pliocene Foraminifera
  • Human Timeline (Interactive) – Smithsonian, National Museum of Natural History (August 2016).

February 25, 2023
pliocene, this, article, needs, additional, citations, verification, please, help, improve, this, article, adding, citations, reliable, sources, unsourced, material, challenged, removed, find, sources, news, newspapers, books, scholar, jstor, january, 2019, le. This article needs additional citations for verification Please help improve this article by adding citations to reliable sources Unsourced material may be challenged and removed Find sources Pliocene news newspapers books scholar JSTOR January 2019 Learn how and when to remove this template message The Pliocene ˈ p l aɪ e s iː n ˈ p l aɪ oʊ PLY e seen PLY oh 6 7 also Pleiocene 8 is the epoch in the geologic time scale that extends from 5 333 million to 2 58 9 million years ago It is the second and most recent epoch of the Neogene Period in the Cenozoic Era The Pliocene follows the Miocene Epoch and is followed by the Pleistocene Epoch Prior to the 2009 revision of the geologic time scale which placed the four most recent major glaciations entirely within the Pleistocene the Pliocene also included the Gelasian Stage which lasted from 2 588 to 1 806 million years ago and is now included in the Pleistocene 10 Pliocene5 333 0 08 2 58 0 04 Ma PreꞒ Ꞓ O S D C P T J K Pg N Chronology 24 22 20 18 16 14 12 10 8 6 4 2 CenozoicPgNeogeneQOligoceneMiocenePlio PleistoceneAquitanianBurdigalianLanghianSerravallianTortonianMessinianZancleanPiacenzian Messinian salinity crisis 1 North American prairie expands 2 Subdivision of the Neogene according to the ICS as of 2021 3 Vertical axis millions of years ago EtymologyName formalityFormalUsage informationCelestial bodyEarthRegional usageGlobal ICS Time scale s usedICS Time ScaleDefinitionChronological unitEpochStratigraphic unitSeriesTime span formalityFormalLower boundary definitionBase of the Thvera magnetic event C3n 4n which is only 96 ka 5 precession cycles younger than the GSSPLower boundary GSSPHeraclea Minoa section Heraclea Minoa Cattolica Eraclea Sicily Italy37 23 30 N 13 16 50 E 37 3917 N 13 2806 E 37 3917 13 2806Lower GSSP ratified2000 4 Upper boundary definitionBase of magnetic polarity chronozone C2r Matuyama Extinction of the Haptophytes Discoaster pentaradiatus and Discoaster surculusUpper boundary GSSPMonte San Nicola Section Gela Sicily Italy37 08 49 N 14 12 13 E 37 1469 N 14 2035 E 37 1469 14 2035Upper GSSP ratified2009 as base of Quaternary and Pleistocene 5 As with other older geologic periods the geological strata that define the start and end are well identified but the exact dates of the start and end of the epoch are slightly uncertain The boundaries defining the Pliocene are not set at an easily identified worldwide event but rather at regional boundaries between the warmer Miocene and the relatively cooler Pliocene The upper boundary was set at the start of the Pleistocene glaciations Contents 1 Etymology 2 Subdivisions 3 Climate 4 Paleogeography 5 Environment and evolution of human ancestors 6 Flora 7 Fauna 7 1 Mammals 7 2 Birds 7 3 Reptiles and amphibians 8 Oceans 9 Supernovae 10 See also 11 Notes 12 References 13 Further reading 14 External linksEtymology EditCharles Lyell later Sir Charles gave the Pliocene its name in Principles of Geology volume 3 1833 11 The word pliocene comes from the Greek words pleῖon pleion more and kainos kainos new or recent 12 and means roughly continuation of the recent referring to the essentially modern marine mollusc fauna Subdivisions Edit Some schemes for subdivisions of the Pliocene In the official timescale of the ICS the Pliocene is subdivided into two stages From youngest to oldest they are Piacenzian 3 600 2 58 Ma 13 Zanclean 5 333 3 600 Ma 4 The Piacenzian is sometimes referred to as the Late Pliocene whereas the Zanclean is referred to as the Early Pliocene In the system of North American Land Mammal Ages NALMA include Hemphillian 9 4 75 Ma 14 15 and Blancan 4 75 1 6 Ma 16 The Blancan extends forward into the Pleistocene South American Land Mammal Ages SALMA include Montehermosan 6 8 4 0 Ma Chapadmalalan 4 0 3 0 Ma and Uquian 3 0 1 2 Ma 17 In the Paratethys area central Europe and parts of western Asia the Pliocene contains the Dacian roughly equal to the Zanclean and Romanian roughly equal to the Piacenzian and Gelasian together stages As usual in stratigraphy there are many other regional and local subdivisions in use In Britain the Pliocene is divided into the following stages old to young Gedgravian Waltonian Pre Ludhamian Ludhamian Thurnian Bramertonian or Antian Pre Pastonian or Baventian Pastonian and Beestonian In the Netherlands the Pliocene is divided into these stages old to young Brunssumian C Reuverian A Reuverian B Reuverian C Praetiglian Tiglian A Tiglian B Tiglian C1 4b Tiglian C4c Tiglian C5 Tiglian C6 and Eburonian The exact correlations between these local stages and the International Commission on Stratigraphy ICS stages is still a matter of detail 18 Climate EditMain article Pliocene climate Mid Pliocene reconstructed annual sea surface temperature anomaly The beginning of the Pliocene was marked by an increase in global temperatures relative to the cooler Messinian related to the 1 2 million year obliquity amplitude modulation cycle 19 The global average temperature in the mid Pliocene 3 3 3 mya was 2 3 C higher than today 20 carbon dioxide levels were the same as today 21 and global sea level was 25 m higher 22 The northern hemisphere ice sheet was ephemeral before the onset of extensive glaciation over Greenland that occurred in the late Pliocene around 3 Ma 23 The formation of an Arctic ice cap is signaled by an abrupt shift in oxygen isotope ratios and ice rafted cobbles in the North Atlantic and North Pacific Ocean beds 24 Mid latitude glaciation was probably underway before the end of the epoch The global cooling that occurred during the Pliocene may have spurred on the disappearance of forests and the spread of grasslands and savannas 25 Paleogeography Edit Examples of migrant species in the Americas after the formation of the Isthmus of Panama Olive green silhouettes denote North American species with South American ancestors blue silhouettes denote South American species of North American origin Continents continued to drift moving from positions possibly as far as 250 km from their present locations to positions only 70 km from their current locations South America became linked to North America through the Isthmus of Panama during the Pliocene making possible the Great American Interchange and bringing a nearly complete end to South America s distinctive native ungulate fauna 26 though other South American lineages like its predatory mammals were already extinct by this point and others like xenarthrans continued to do well afterwards The formation of the Isthmus had major consequences on global temperatures since warm equatorial ocean currents were cut off and an Atlantic cooling cycle began with cold Arctic and Antarctic waters dropping temperatures in the now isolated Atlantic Ocean 27 Africa s collision with Europe formed the Mediterranean Sea cutting off the remnants of the Tethys Ocean The border between the Miocene and the Pliocene is also the time of the Messinian salinity crisis 28 29 The land bridge between Alaska and Siberia Beringia was first flooded near the start of the Pliocene allowing marine organisms to spread between the Arctic and Pacific Oceans The bridge would continue to be periodically flooded and restored thereafter 30 Pliocene marine formations are exposed in northeast Spain 31 southern California 32 New Zealand 33 and Italy 34 During the Pliocene parts of southern Norway and southern Sweden that had been near sea level rose In Norway this rise elevated the Hardangervidda plateau to 1200 m in the Early Pliocene 35 In Southern Sweden similar movements elevated the South Swedish highlands leading to a deflection of the ancient Eridanos river from its original path across south central Sweden into a course south of Sweden 36 Environment and evolution of human ancestors EditThe Pliocene is bookended by two significant events in the evolution of human ancestors The first is the appearance of the hominin Australopithecus anamensis in the early Pliocene around 4 2 million years ago 37 38 39 The second is the appearance of Homo the genus that includes modern humans and their closest extinct relatives near the end of the Pliocene at 2 6 million years ago 40 Key traits that evolved among hominins during the Pliocene include terrestrial bipedality and by the end of the Pliocene encephalized brains brains with a large neocortex relative to body mass 41 a and stone tool manufacture 42 Improvements in dating methods and in the use of climate proxies have provided scientists with the means to test hypotheses of the evolution of human ancestors 42 43 Early hypotheses of the evolution of human traits emphasized the selective pressures produced by particular habitats For example many scientists have long favored the savannah hypothesis This proposes that the evolution of terrestrial bipedality and other traits was an adaptive response to Pliocene climate change that transformed forests into more open savannah This was championed by Grafton Elliot Smith in his 1924 book The Evolution of Man as the unknown world beyond the trees and was further elaborated by Raymond Dart as the killer ape theory 44 Other scientists such as Sherwood L Washburn emphasized an intrinsic model of hominin evolution According to this model early evolutionary developments triggered later developments The model placed little emphasis on the surrounding environment 45 Anthropologists tended to focus on intrinsic models while geologists and vertebrate paleontologists tended to put greater emphasis on habitats 46 Alternatives to the savanna hypothesis include the woodland forest hypothesis which emphasizes the evolution of hominins in closed habitats or hypotheses emphasizing the influence of colder habitats at higher latitudes or the influence of seasonal variation More recent research has emphasized the variability selection hypothesis which proposes that variability in climate fostered development of hominin traits 42 Improved climate proxies show that the Pliocene climate of east Africa was highly variable suggesting that adaptability to varying conditions was more important in driving hominin evolution than the steady pressure of a particular habitat 41 Flora EditThis section does not cite any sources Please help improve this section by adding citations to reliable sources Unsourced material may be challenged and removed August 2017 Learn how and when to remove this template message The change to a cooler drier more seasonal climate had considerable impacts on Pliocene vegetation reducing tropical species worldwide Deciduous forests proliferated coniferous forests and tundra covered much of the north and grasslands spread on all continents except Antarctica Tropical forests were limited to a tight band around the equator and in addition to dry savannahs deserts appeared in Asia and Africa 47 failed verification Fauna EditThis section does not cite any sources Please help improve this section by adding citations to reliable sources Unsourced material may be challenged and removed August 2017 Learn how and when to remove this template message Both marine and continental faunas were essentially modern although continental faunas were a bit more primitive than today The land mass collisions meant great migration and mixing of previously isolated species such as in the Great American Interchange Herbivores got bigger as did specialized predators The gastropod Oliva sayana from the Pliocene of Florida The coral Cladocora from the Pliocene of Cyprus A gastropod and attached serpulid wormtube from the Pliocene of Cyprus The gastropod Turritella carinata from the Pliocene of Cyprus The thorny oyster Spondylus right and left valve interiors from the Pliocene of Cyprus The limpet Diodora italica from the Pliocene of Cyprus The scaphopod Dentalium from the Pliocene of Cyprus The gastropod Aporrhais from the Pliocene of Cyprus The arcid bivalve Anadara from the Pliocene of Cyprus The pectenid bivalve Ammusium cristatum from the Pliocene of Cyprus Vermetid gastropod Petaloconchus intortus attached to a branch of the coral Cladocora from the Pliocene of Cyprus Chesapecten barnacles and sponge borings Entobia from the Pliocene of York River VirginiaMammals Edit 19th century artist s impression of a Pliocene landscape In North America rodents large mastodons and gomphotheres and opossums continued successfully while hoofed animals ungulates declined with camel deer and horse all seeing populations recede Three toed horses Nannippus oreodonts protoceratids and chalicotheres became extinct Borophagine dogs and Agriotherium became extinct but other carnivores including the weasel family diversified and dogs and short faced bears did well Ground sloths huge glyptodonts and armadillos came north with the formation of the Isthmus of Panama In Eurasia rodents did well while primate distribution declined Elephants gomphotheres and stegodonts were successful in Asia the largest land mammals of the Pliocene were such proboscideans as Deinotherium Anancus and Mammut borsoni 48 and hyraxes migrated north from Africa Horse diversity declined while tapirs and rhinos did fairly well Bovines and antelopes were successful some camel species crossed into Asia from North America Hyenas and early saber toothed cats appeared joining other predators including dogs bears and weasels Human evolution during the PlioceneAfrica was dominated by hoofed animals and primates continued their evolution with australopithecines some of the first hominins and baboon like monkeys such as the Dinopithecus appearing in the late Pliocene Rodents were successful and elephant populations increased Cows and antelopes continued diversification and overtook pigs in numbers of species Early giraffes appeared Horses and modern rhinos came onto the scene Bears dogs and weasels originally from North America joined cats hyenas and civets as the African predators forcing hyenas to adapt as specialized scavengers Most mustelids in Africa declined as a result of increased competition from the new predators although Enhydriodon omoensis remained an unusually successful terrestrial predator South America was invaded by North American species for the first time since the Cretaceous with North American rodents and primates mixing with southern forms Litopterns and the notoungulates South American natives were mostly wiped out except for the macrauchenids and toxodonts which managed to survive Small weasel like carnivorous mustelids coatis and short faced bears migrated from the north Grazing glyptodonts browsing giant ground sloths and smaller caviomorph rodents pampatheres and armadillos did the opposite migrating to the north and thriving there The marsupials remained the dominant Australian mammals with herbivore forms including wombats and kangaroos and the huge Diprotodon Carnivorous marsupials continued hunting in the Pliocene including dasyurids the dog like thylacine and cat like Thylacoleo The first rodents arrived in Australia The modern platypus a monotreme appeared Birds Edit Titanis The predatory South American phorusrhacids were rare in this time among the last was Titanis a large phorusrhacid that migrated to North America and rivaled mammals as top predator Other birds probably evolved at this time some modern such as the genera Cygnus Bubo Struthio and Corvus some now extinct Reptiles and amphibians Edit Alligators and crocodiles died out in Europe as the climate cooled Venomous snake genera continued to increase as more rodents and birds evolved Rattlesnakes first appeared in the Pliocene The modern species Alligator mississippiensis having evolved in the Miocene continued into the Pliocene except with a more northern range specimens have been found in very late Miocene deposits of Tennessee Giant tortoises still thrived in North America with genera like Hesperotestudo Madtsoid snakes were still present in Australia The amphibian order Allocaudata became extinct Oceans EditThis article needs additional citations for verification Please help improve this article by adding citations to reliable sources Unsourced material may be challenged and removed Find sources Pliocene news newspapers books scholar JSTOR May 2021 Learn how and when to remove this template message Oceans continued to be relatively warm during the Pliocene though they continued cooling The Arctic ice cap formed drying the climate and increasing cool shallow currents in the North Atlantic Deep cold currents flowed from the Antarctic The formation of the Isthmus of Panama about 3 5 million years ago 49 cut off the final remnant of what was once essentially a circum equatorial current that had existed since the Cretaceous and the early Cenozoic This may have contributed to further cooling of the oceans worldwide The Pliocene seas were alive with sea cows seals sea lions and sharks Supernovae EditIt has been suggested that this section be split out into another article titled Local Bubble Extinction Discuss May 2021 In 2002 Narciso Benitez et al calculated that roughly 2 million years ago around the end of the Pliocene Epoch a group of bright O and B stars called the Scorpius Centaurus OB association passed within 130 light years of Earth and that one or more supernova explosions gave rise to a feature known as the Local Bubble 50 Such a close explosion could have damaged the Earth s ozone layer and caused the extinction of some ocean life at its peak a supernova of this size could have the same absolute magnitude as an entire galaxy of 200 billion stars 51 52 Radioactive iron 60 isotopes that have been found in ancient seabed deposits further back this finding as there are no natural sources for this radioactive isotope on Earth but they can be produced in supernovae 53 Furthermore iron 60 residues point to a huge spike 2 6 million years ago but an excess scattered over 10 million years can also be found suggesting that there may have been multiple relatively close supernovae 53 In 2019 researchers found more of these interstellar iron 60 isotopes in Antarctica which have been associated with the Local Interstellar Cloud 54 See also EditList of fossil sites with link directory Notes Edit Because of the 2009 reassignment of the Pliocene Pleistocene boundary from 1 8 to 2 6 million years ago older papers on Pliocene hominin evolution sometimes include events that would now be regarded as taking place in the early Pleistocene References Edit Krijgsman W Garces M Langereis C G Daams R Van Dam J Van Der Meulen A J Agusti 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 amp PSL 142 367K doi 10 1016 0012 821X 96 00109 4 Retallack G J 1997 Neogene Expansion of the North American Prairie PALAIOS 12 4 380 390 doi 10 2307 3515337 JSTOR 3515337 Retrieved 11 February 2008 ICS Timescale Chart PDF www stratigraphy org a b Van Couvering John Castradori Davide Cita Maria Hilgen Frederik Rio Domenico September 2000 The base of the Zanclean Stage and of the Pliocene Series PDF Episodes 23 3 179 187 doi 10 18814 epiiugs 2000 v23i3 005 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 Pliocene Merriam Webster Dictionary Pliocene Dictionary com Unabridged Online n d Pleiocene Dictionary com Unabridged Online n d See the 2014 version of the ICS geologic time scale Archived 2014 05 30 at the Wayback Machine Ogg James George Ogg Gabi Gradstein F M 2008 The Concise Geologic Time Scale Cambridge University Press pp 150 1 ISBN 9780521898492 See Letter from William Whewell to Charles Lyell dated 31 January 1831 in Todhunter Isaac ed 1876 William Whewell D D Master of Trinity College Cambridge An account of his writings with selections from his literary and scientific correspondence Vol 2 London England Macmillan and Co p 111 Lyell Charles 1833 Principles of Geology Vol 3 London England John Murray p 53 From p 53 We derive the term Pliocene from pleiwn major and xainos recens as the major part of the fossil testacea of this epoch are referrible to recent species Pliocene Online Etymology Dictionary Castradori D Rio D Hilgen F J Lourens L J 1998 The Global Standard Stratotype section and Point GSSP of the Piacenzian Stage Middle Pliocene Episodes 21 2 88 93 doi 10 18814 epiiugs 1998 v21i2 003 Tedford Richard H Albright L Barry Barnosky Anthony D Ferrusquia Villafranca Ismael Hunt Robert M Storer John E Swisher Carl C Voorhies Michael R Webb S David Whistler David P 31 December 2004 6 Mammalian Biochronology of the Arikareean Through Hemphillian Interval Late Oligocene Through Early Pliocene Epochs Late Cretaceous and Cenozoic Mammals of North America 169 231 doi 10 7312 wood13040 008 ISBN 9780231130400 Hulbert Richard C Jr 2 August 2016 Hemphillian North American Land Mammal Age Fossil Species of Florida Florida Museum Retrieved 7 June 2021 Hulbert Richard C Jr 2 August 2016 Blancan North American Land Mammal Age Fossil Species of Florida Florida Museum Retrieved 7 June 2021 Flynn J Swisher C C III 1995 Cenozoic South American Land Mammal Ages correlation to global geochronology In William A Berggren Dennis V Kent Marie Pierre Aubry Jan Hardenbol eds Geochronology Time Scales and Global Stratigraphic Correlation Society for Sedimentary Geology pp 317 333 doi 10 2110 pec 95 04 0317 Kuhlmann G C G Langereis D Munsterman R J van Leeuwen R Verreussel J E Meulenkamp Th E Wong 2006 Integrated chronostratigraphy of the Pliocene Pleistocene interval and its relation to the regional stratigraphical stages in the southern North Sea region PDF Netherlands Journal of Geosciences 85 19 35 doi 10 1017 S0016774600021405 S2CID 62803118 Qin Jie Zhang Rui Kravchinsky Vadim A Valet Jean Pierre Sagnotti Leonardo Li Jianxing Xu Yong Anwar Taslima Yue Leping 2 April 2022 1 2 Myr Band of Earth Mars Obliquity Modulation on the Evolution of Cold Late Miocene to Warm Early Pliocene Climate Solid Earth 127 4 Bibcode 2022JGRB 12724131Q doi 10 1029 2022JB024131 S2CID 247933545 Retrieved 24 November 2022 Robinson M Dowsett H J Chandler M A 2008 Pliocene role in assessing future climate impacts Eos Transactions American Geophysical Union 89 49 501 502 Bibcode 2008EOSTr 89 501R doi 10 1029 2008eo490001 Solutions Responding to Climate Change Climate Nasa gov Retrieved 1 September 2016 Dwyer G S Chandler M A 2009 Mid Pliocene sea level and continental ice volume based on coupled benthic Mg Ca palaeotemperatures and oxygen isotopes Phil Trans Royal Soc A 367 1886 157 168 Bibcode 2009RSPTA 367 157D doi 10 1098 rsta 2008 0222 hdl 10161 6586 PMID 18854304 S2CID 3199617 Bartoli G et al 2005 Final closure of Panama and the onset of northern hemisphere glaciation Earth Planet Sci Lett 237 1 2 3344 Bibcode 2005E amp PSL 237 33B doi 10 1016 j epsl 2005 06 020 Van Andel 1994 p 226 The Pliocene epoch University of California Museum of Paleontology Retrieved 25 March 2008 Webb S David 1991 Ecogeography and the Great American Interchange Paleobiology 17 3 266 280 doi 10 1017 S0094837300010605 JSTOR 2400869 S2CID 88305955 Bartoli G Sarnthein M Weinelt M Erlenkeuser H Garbe Schonberg D Lea D W August 2005 Final closure of Panama and the onset of northern hemisphere glaciation Earth and Planetary Science Letters 237 1 2 33 44 Bibcode 2005E amp PSL 237 33B doi 10 1016 j epsl 2005 06 020 Gautier F Clauzon G Suc J P Cravatte J Violanti D 1994 Age and duration of the Messinian salinity crisis C R Acad Sci Paris IIA 318 1103 1109 Krijgsman W August 1996 A new chronology for the middle to late Miocene continental record in Spain PDF Earth and Planetary Science Letters 142 3 4 367 380 Bibcode 1996E amp PSL 142 367K doi 10 1016 0012 821X 96 00109 4 Gladenkov Andrey Yu Oleinik Anton E Marincovich Louie Barinov Konstantin B July 2002 A refined age for the earliest opening of Bering Strait Palaeogeography Palaeoclimatology Palaeoecology 183 3 4 321 328 Bibcode 2002PPP 183 321G doi 10 1016 S0031 0182 02 00249 3 Gibert Jordi Maria de Martinell Jordi January 1995 Sedimentary substrate andtrace fossil assemblages in marine Pliocene deposits in Northeast Spain Geobios 28 197 206 doi 10 1016 S0016 6995 95 80166 9 Demere Thomas A 1983 The Neogene San Diego basin a review of the marine Pliocene San Diego formation Cenozoic Marine Sedimentation Pacific Margin Pacific Section m Society for Sedimentary Geology pp 187 195 Retrieved 7 June 2021 Saul G Naish T R Abbott S T Carter R M 1 April 1999 Sedimentary cyclicity in the marine Pliocene Pleistocene of the Wanganui basin New Zealand Sequence stratigraphic motifs characteristic of the past 2 5 m y GSA Bulletin 111 4 524 537 Bibcode 1999GSAB 111 524S doi 10 1130 0016 7606 1999 111 lt 0524 SCITMP gt 2 3 CO 2 Selli Raimondo September 1965 The Pliocene Pleistocene boundary in Italian marine sections and its relationship to continental stratigraphies Progress in Oceanography 4 67 86 Bibcode 1965PrOce 4 67S doi 10 1016 0079 6611 65 90041 8 Japsen Peter Green Paul F Chalmers James A Bonow Johan M 17 May 2018 Mountains of southernmost Norway uplifted Miocene peneplains and re exposed Mesozoic surfaces Journal of the Geological Society 175 5 721 741 Bibcode 2018JGSoc 175 721J doi 10 1144 jgs2017 157 S2CID 134575021 Lidmar Bergstrom Karna Olvmo Mats Bonow Johan M 2017 The South Swedish Dome a key structure for identification of peneplains and conclusions on Phanerozoic tectonics of an ancient shield GFF 139 4 244 259 doi 10 1080 11035897 2017 1364293 S2CID 134300755 Le plus vieux crane fossile d australopitheque a ete decouvert en Ethiopie RFI in French 28 August 2019 Retrieved 18 February 2023 Haile Selassie Y 27 October 2010 Phylogeny of early Australopithecus new fossil evidence from the Woranso Mille central Afar Ethiopia Philosophical Transactions of the Royal Society B Biological Sciences 365 1556 3323 3331 doi 10 1098 rstb 2010 0064 PMC 2981958 PMID 20855306 Lewis Barry et al 2013 Understanding Humans Introduction to Physical Anthropology and Archaeology 11th ed Belmont CA Wadsworth Publishing Stringer CB 1994 Evolution of early humans In Jones S Martin R Pilbeam D eds The Cambridge Encyclopedia of Human Evolution Cambridge Cambridge University Press p 242 a b Potts R 2007 Bobe Rene Alemseged Zeresenay Behrensmeyer Anna K eds Environmental hypotheses of Pliocene human evolution Hominin Environments in the East African Pliocene An Assessment of the Faunal Evidence Vertebrate Paleobiology and Paleoanthropology Series Dordrecht Springer Netherlands pp 25 49 doi 10 1007 978 1 4020 3098 7 2 ISBN 978 1 4020 3098 7 a b c Potts Richard 3 January 1999 Environmental hypotheses of hominin evolution American Journal of Biological Anthropology 107 S27 93 136 doi 10 1002 SICI 1096 8644 1998 107 27 lt 93 AID AJPA5 gt 3 0 CO 2 X PMID 9881524 deMenocal Peter B 3 March 2004 African climate change and faunal evolution during the Pliocene Pleistocene Earth and Planetary Science Letters 220 1 3 24 Bibcode 2004E amp PSL 220 3D doi 10 1016 S0012 821X 04 00003 2 ISSN 0012 821X Dart R 1953 The predatory transition from ape to man Int Anthrop Ling Rev 1 201 218 Washburn SL 1960 Tools and human evolution Sci Am 203 3 63 75 Bibcode 1960SciAm 203c 62W doi 10 1038 scientificamerican0960 62 JSTOR 24940615 PMID 13843002 Potts 1999 pp 106 108 Mares Micheal A ed 1999 Miocene Encyclopedia of Deserts University of Oaklahoma Press ISBN 0 8061 3146 2 Charles A Repenning Richard H Tedford 2013 Fossils of the Carpathian Region Indiana University Press p 373 ISBN 9780253009876 Retrieved 23 August 2022 Keigwin Lloyd D 1 October 1978 Pliocene closing of the Isthmus of Panama based on biostratigraphic evidence from nearby Pacific Ocean and Caribbean Sea cores Geology 6 10 630 634 Bibcode 1978Geo 6 630K doi 10 1130 0091 7613 1978 6 lt 630 PCOTIO gt 2 0 CO 2 ISSN 0091 7613 Benitez Narciso Maiz Apellaniz Jesus Canelles Matilde et al 2002 Evidence for Nearby Supernova Explosions Phys Rev Lett 88 8 081101 arXiv astro ph 0201018 Bibcode 2002PhRvL 88h1101B doi 10 1103 PhysRevLett 88 081101 PMID 11863949 S2CID 41229823 Katie Pennicott 13 February 2002 Supernova link to ancient extinction physicsworld com Retrieved 16 July 2012 Comins amp Kaufmann 2005 p 359 a b Researchers consider whether supernovae killed off large ocean animals at dawn of Pleistocene phys org Interstellar Iron Found In Antarctic Snow Astrobiology astrobiology com 21 August 2019 Further reading EditComins Niel F William J Kaufmann III 2005 Discovering the Universe 7th ed New York NY Susan Finnemore Brennan ISBN 978 0 7167 7584 3 Gradstein F M Ogg J G amp Smith A G 2004 A Geologic Time Scale 2004 Cambridge University Press Ogg Jim June 2004 Overview of Global Boundary Stratotype Sections and Points GSSP s Archived from the original on 23 April 2006 Retrieved 30 April 2006 Van Andel Tjeerd H 1994 New Views on an Old Planet a History of Global Change 2nd ed Cambridge Cambridge University Press ISBN 978 0 521 44243 5 External links Edit Wikimedia Commons has media related to Pliocene Wikisource has original works on the topic Cenozoic Neogene Mid Pliocene Global Warming NASA GISS Climate Modeling Palaeos Pliocene PBS Change Deep Time Pliocene Possible Pliocene supernova Supernova dealt deaths on Earth Stellar blasts may have killed ancient marine life Science News Online retrieved February 2 2002 UCMP Berkeley Pliocene Epoch Page Pliocene Microfossils 100 images of Pliocene Foraminifera Human Timeline Interactive Smithsonian National Museum of Natural History August 2016 Retrieved from https en wikipedia org w index php title Pliocene amp oldid 1140127127, wikipedia, wiki, book, books, library,

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