Changhsingian

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title: "Changhsingian" type: doc version: 1 created: 2026-02-28 author: "Wikipedia contributors" status: active scope: public tags: ["changhsingian", "permian-geochronology", "geological-ages", "lopingian"] description: "Ninth and last stage of the Permian" topic_path: "philosophy" source: "https://en.wikipedia.org/wiki/Changhsingian" license: "CC BY-SA 4.0" wikipedia_page_id: 0 wikipedia_revision_id: 0

::summary Ninth and last stage of the Permian ::

::data[format=table title="Infobox geologic timespan"]

Field	Value
name	Changhsingian
color	Changhsingian
time_start	254.14
time_start_uncertainty	0.07
time_end	251.902
time_end_uncertainty	0.024
image_outcrop	DBRollepass.jpg
caption_outcrop	Bellerophon Formation, Dolomites, Italy
timeline	Permian
name_formality	Formal
name_accept_date	1981
alternate_spellings	Changxingian
celestial_body	earth
usage	Global (ICS)
timescales_used	ICS Time Scale
chrono_unit	Age
strat_unit	Stage
timespan_formality	Formal
lower_boundary_def	FAD of the Conodont Clarkina wangi
lower_gssp_location	Meishan, Zhejiang, China
lower_gssp_coords
lower_gssp_accept_date	2005
upper_boundary_def	FAD of the Conodont Hindeodus parvus.
upper_gssp_location	Meishan, Zhejiang, China
upper_gssp_coords
upper_gssp_accept_date	2001
::

| name = Changhsingian | color = Changhsingian | time_start = 254.14 | time_start_uncertainty = 0.07 | time_end = 251.902 | time_end_uncertainty = 0.024 | image_map = | caption_map = | image_outcrop = DBRollepass.jpg | caption_outcrop = Bellerophon Formation, Dolomites, Italy | image_art = | caption_art = | timeline = Permian | formerly_part_of = | partially_contained_in = | partially_contains = | name_formality = Formal | name_accept_date = 1981 | alternate_spellings = Changxingian | synonym1 = | synonym1_coined = | synonym2 = | synonym2_coined = | synonym3 = | synonym3_coined = | nicknames = | former_names = | proposed_names = | celestial_body = earth | usage = Global (ICS) | timescales_used = ICS Time Scale | formerly_used_by = | not_used_by = | chrono_unit = Age | strat_unit = Stage | proposed_by = | type_section = | timespan_formality = Formal | lower_boundary_def = FAD of the Conodont Clarkina wangi | lower_gssp_location = Meishan, Zhejiang, China | lower_gssp_coords = | lower_gssp_accept_date = 2005 | upper_boundary_def = FAD of the Conodont Hindeodus parvus. | upper_gssp_location = Meishan, Zhejiang, China | upper_gssp_coords = | upper_gssp_accept_date = 2001 | o2 = | co2 = | temp = | sea_level =

In the geologic time scale, the Changhsingian or Changxingian is the latest age or uppermost stage of the Permian period and the Paleozoic era as a whole. It is also the upper or latest of two subdivisions of the Lopingian Epoch or Series. The Changhsingian lasted from to 251.902 Ma ago. It is preceded by the Wuchiapingian age/stage and is followed by the Induan age/stage (Early Triassic epoch).

The greatest mass extinction in the Phanerozoic eon, the Permian–Triassic extinction event, occurred around the end of this age.

Stratigraphic definitions

The Changhsingian is named after Changxing () in northern Zhejiang, China. The stage was named for the Changhsing Limestone. The name was first used for a stage in 1970 and was anchored in the international timescale in 1981.

The base of the Changhsingian Stage is at the first appearance of the conodont species Clarkina wangi. The global reference profile is profile D at Meishan, in the type area in Changxing, just below the Changhsingian foraminifer index fossil Palaeofusulina and the first appearance of the ammonoid Tapashanites. In the second part of the 20th century, appearance of the ammonite Otoceras, that existed no more than 100,000 years, in the boreal region was considered a marker of the Lower Triassic boundary. However, a more detailed study of Lower Induan biostratigraphy revealed the diachronicity of the appearance of these mollusks in different regions of the Earth.

The Changhsingian contains only one ammonoid biozone: that of the genus Iranites.

Changhsingian life

Main article: :Category:Changhsingian life

The Changhsingian ended with the Permian–Triassic extinction event, the largest mass extinction event of the Phanerozoic Era, when both global biodiversity and alpha diversity (community-level diversity) were devastated.

On land, the Changhsingian fauna comprised gorgonopsid synapsids like Inostrancevia, anomodont synapsids like Daptocephalus and Dicynodon, and parareptiles like Elginia, milleretids and Nanoparia.

Among fishes, the bobasatraniiforms Bobasatrania and Ebenaqua are known from Changhsingian deposits of Greenland and Australia, respectively. Another deep-bodied fish, Sinoplatysomus, is known from Zhejiang province of China, along with the elongate saurichthyiform Eosaurichthys and the coelacanths Changxingia and Youngichthys. Within the Eugeneodontida, the helicoprionids are represented by the genus Sinohelicoprion; as well as some edestids such as Helicampodus; and other eugeneodontids. Several fish genera were described from Changhsingian deposits of Russia and South Africa. The Hambast Formation of Iran yielded chondrichthyan faunas of Wuchiapingian to Changhsingian age.

The conodont Vjalovognathus carinatus is known from the Selong Formation of Tibet; more common conodonts include the genera Clarkina and Hindeodus.

Changhsingian aged beds of the Tesero Member of the Werfen Formation produced fossils of a crown group echinoid, Eotiaris teseroensis and other taxa.

The Paratirolites Limestone near Julfa (Azerbaijan, Iran) contains a diverse pre-extinction ammonoid fauna, including the genera Neoaganides, Pseudogastrioceras, Dzhulfites, Paratirolites, Julfotirolites, Alibashites, Abichites, Stoyanowites and Arasella

The Bellerophon Formation in northern Italy documents a pre-extinction bivalve community with 26 species adapted to stressful conditions (high temperatures, high salinity, shallow water depths, low oxygen and high terrigenous input). The formation is otherwise known for abundant Bellerophon fossils.

Only a few trilobite genera are present by the Changhsingian, mostly of the family Phillipsiidae. One of the last of the Trilobita include the genus Kathwaia of Pakistan and the Caucasus. Perhaps the most widespread and diverse genus was Pseudophillipsia, members of the subgenus Ditomopyge (Carniphillipsia) were the other most common group. Few non-phillipsid trilobites remained, such as those of Brachymetopus (Acutimetopus). Other trilobites, of the Phillipsidae, include Acropyge, Paraphillipsia, and Timorcranium.

In Australia, fossils of one of the last surviving eurypterids, Woodwardopterus? freemanorum, were found.

Notable formations

• Ali Bashi Formation (Armenia, Azerbaijan, Iran)
• Bellerophon Formation (Italy)
• Dalong formation (Yangtze, China)
• Hambast Formation (Iran)
• Hopeman Sandstone Formation (Scotland)
• Moradi Formation (Niger)
• Quartermaster Formation (Texas, USA)
• Schuchert Dal Formation (Greenland)
• Tesero Member of the Werfen Formation (Austria, Bosnia and Herzegovina, Italy)
• Lower part of Wordie Creek Formation (Greenland)

References

References

1. (June 2001). "The Global Stratotype Section and Point (GSSP) of the Permian-Triassic Boundary". Episodes.
2. (2004). "A Geologic Time Scale 2004". Cambridge University Press.
3. Grabau, A.W.. (1923). "[[Geological Survey of China]]".
4. (1970). "Stratigraphic boundary problems, Permian and Triassic of west Pakistan".
5. (1973). "The Permian and Triassic systems and their mutual boundary".
6. (2006). "The Global Boundary Stratotype Section and Point (GSSP) for the base of Changhsingian Stage (Upper Permian)". Episodes.
7. Kutygin R.V., Budnikov I.V., Biakov A.S., Davydov V.I., Kilyasov A.N., Silantiev V.V.. (2019). "First findings of ''Otoceras'' (Ceratitida) in the Kobyuma zone of the Southern Verkhoyansk region, Northeastern Russia". Uchenye Zapiski Kazanskogo Universiteta. Seriya Estestvennye Nauki.
8. (2008). "Recovery from the most profound mass extinction of all time". Proceedings of the Royal Society B: Biological Sciences.
9. (2016). "Permian-Triassic Osteichthyes (bony fishes): diversity dynamics and body size evolution". Biological Reviews.
10. (2013). "A first Late Permian fish fauna from Baghuk Mountain (Neo-Tethyan shelf, central Iran)". Bulletin of Geosciences.
11. (2017). "New Permian-Triassic conodont data from Selong (Tibet) and the youngest occurrence of ''Vjalovognathus''". Journal of Asian Earth Sciences.
12. (2019). "Echinoids from the Tesero Member (Werfen Formation) of the Dolomites (Italy): implications for extinction and survival of echinoids in the aftermath of the end-Permian mass extinction". PeerJ.
13. (2015). "The ammonoids from the Late Permian ''Paratirolites'' Limestone of Julfa (East Azerbaijan, Iran)". Journal of Systematic Palaeontology.
14. (2023). "Bivalves from the Changhsingian (upper Permian) Bellerophon Formation of the Dolomites (Italy): ancestors of Lower Triassic post-extinction benthic communities". Papers in Palaeontology.
15. Stache, G.. (1877). "Beiträge zur Fauna der Bellerphonkalke Südtirols 1, Cephalopoden und Gastropoden". Jahrbuch der Kaiserlich-Königlichen Geologischen Reichsanstalt.
16. Mychko, Eduard V.. (2025-05-24). "Lopingian (Late Permian) trilobites from the North Caucasus, Russia, with an overview of their distribution worldwide". Palaeontologia Electronica.
17. (2022-10-03). "The last eurypterid – a southern high-latitude record of sweep-feeding sea scorpion from Australia constrains the timing of their extinction". Historical Biology.

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