Editing Conodont

{{short description|Extinct agnathan chordates resembling eels}}
{{Distinguish|Conodon|Cynodont}}
{{automatic taxobox
| name = Conodonts
| fossil_range = {{fossil range|Miaolingian|Triassic|[[Middle Cambrian]] to [[Early Jurassic|Earliest Jurassic]] ([[Hettangian]])}}
| image = Conodonts from the Glen Dean formation (Chester) of the Illinois basin (1958) (20654535006).jpg
| image_caption = Conodont elements
| image2 = 
| image2_caption = 
| taxon = Conodonta
| authority = [[Heinz Christian Pander|Pander]], 1856
| synonyms = *{{extinct}}'''Conodontophorida''' <small>[[Wilhelm Eichenberg|Eichenberg]], 1930</small><ref name="Eichenberg-1930" />
*{{extinct}}'''Euconodonta'''
| subdivision_ranks = Subgroups
| subdivision = *'''Cavidonti'''
**[[Belodellida]]?
**[[Proconodontida]]
*'''Conodonti'''
**[[Protopanderodontida]] <small>([[paraphyletic]])</small>
**[[Panderodontida]]
**[[Prioniodontida]]
***[[Prioniodinida]]
***[[Ozarkodinida]]
}}
'''Conodonts''', are an [[extinct]] group of marine [[jawless vertebrates]] belonging to the [[Class (biology)|class]] '''Conodonta''' (from [[Ancient Greek]] κῶνος (''kōnos''), meaning "[[cone]]", and ὀδούς (''odoús''), meaning "[[tooth]]"). They are primarily known from their hard, mineralised tooth-like structures called "conodont elements" that in life were present in the oral cavity and used to process food. Rare soft tissue remains suggest that they had elongate eel-like bodies with large eyes. Conodonts were a long-lasting group with over 300 million years of existence from the [[Cambrian]] (over 500 million years ago) to the beginning of the [[Jurassic]] (around 200 million years ago). Conodont elements are highly distinctive to particular species and are widely used in [[biostratigraphy]] as indicative of particular periods of geological time.

== Discovery and understanding of conodonts ==
The teeth-like fossils of the conodont were first discovered by [[Heinz Christian Pander]] and the results published in [[Saint Petersburg, Russia]], in 1856.<ref name="Cooper, Barry J.-2008">{{cite web |url=https://www.researchgate.net/publication/286568271 |title=C.H. Pander's introduction to conodonts, 1856 |date=December 2008 |access-date=3 January 2019 |author1=Sweet, Walter C. |author2=Cooper, Barry J. }}</ref>

It was only in the early 1980s that the first fossil evidence of the rest of the animal was found (see below). In the 1990s exquisite fossils were found in South Africa in which the soft tissue had been converted to clay, preserving even muscle fibres. The presence of muscles for rotating the eyes showed definitively that the animals were primitive vertebrates.<ref>{{cite journal |last1=[[Jan Zalasiewicz]] and [[Sarah Gabbott]] |title=The quick and the dead |journal=New Scientist |date=Jun 5, 1999 |url=https://www.newscientist.com/article/mg16221895-200-the-quick-and-the-dead/}}</ref>

=== Nomenclature and taxonomic rank ===
Through their history of study, "conodont" is a term which has been applied to both the individual fossils and to the animals to which they belonged. The original German term used by Pander was "conodonten", which was subsequently [[Anglicisation (linguistics)|anglicized]] as "conodonts", though no formal [[Latinisation of names|latinized]] name was provided for several decades. MacFarlane (1923) described them as an [[Order (biology)|order]], Conodontes (a Greek translation), which Huddle (1934) altered to the Latin spelling Conodonta.<ref name="Fåhraeus-1983">{{Cite journal |last=Fåhraeus |first=Lars E. |date=1983 |title=Phylum Conodonta Pander, 1856 and Nomenclatural Priority |url=https://www.jstor.org/stable/2413175 |journal=Systematic Zoology |volume=32 |issue=4 |pages=455–459 |doi=10.2307/2413175 |jstor=2413175|url-access=subscription }}</ref> A few years earlier, Eichenberg (1930) established another name for the animals responsible for conodont fossils: Conodontophorida ("conodont bearers").<ref name="Eichenberg-1930">{{cite journal |doi=10.1007/BF03044446 |volume=12 |title=Conodonten aus dem Culm des Harzes |year=1930 |journal=Paläontologische Zeitschrift |pages=177–182 |last1=Eichenberg |first1=W.|issue=3–4 |bibcode=1930PalZ...12..177E |s2cid=129519805 }}</ref> A few other scientific names were rarely and inconsistently applied to conodonts and their proposed close relatives during 20th century, such as Conodontophoridia, Conodontophora, Conodontochordata, Conodontiformes,<ref name="Bengtson-1976">{{Cite journal |last=Bengtson |first=Stefan |date=1976 |title=The structure of some Middle Cambrian conodonts, and the early evolution of conodont structure and function |url=https://www.idunn.no/doi/pdf/10.1111/j.1502-3931.1976.tb00966.x |journal=Lethaia |volume=9 |issue=2 |pages=185–206 |doi=10.1111/j.1502-3931.1976.tb00966.x |bibcode=1976Letha...9..185B |issn=0024-1164|url-access=subscription }}</ref> and Conodontomorpha.

Conodonta and Conodontophorida are by far the most common scientific names used to refer to conodonts, though inconsistencies regarding their [[taxonomic rank]] still persist. Bengtson (1976)'s research on conodont evolution identified three morphological tiers of early conodont-like fossils: [[protoconodont]]s, [[Paraconodontida|paraconodonts]], and "true conodonts" (euconodonts).<ref name="Bengtson-1976" /> Further investigations revealed that protoconodonts were probably more closely related to [[Chaetognatha|chaetognaths]] (arrow worms) rather than true conodonts. On the other hand, paraconodonts are still considered a likely ancestral stock or [[sister group]] to euconodonts.

The 1981 ''[[Treatise on Invertebrate Paleontology]]'' volume on the conodonts (Part W revised, supplement 2) lists Conodonta as the name of both a [[phylum]] and a [[Class (biology)|class]], with Conodontophorida as a subordinate order for "true conodonts". All three ranks were attributed to Eichenberg, and Paraconodontida was also included as an order under Conodonta.<ref>{{Cite book |last=Clark |first=David L. |url=https://journals.ku.edu/InvertebratePaleo/issue/view/522 |title=Part W, Miscellanea, Supplement 2: Conodonta |publisher=Geological Society of America; University of Kansas |year=1981 |isbn=0-8137-3028-7 |editor-last=Moore |editor-first=Raymond C. |edition= |series=[[Treatise on Invertebrate Paleontology]] |volume= |location=Boulder, Colorado; Lawrence, Kansas |pages=111–180 |chapter=Chapter 3: Systematic Descriptions |display-authors= |editor-last2=Robison |editor-first2=R.A. |chapter-url=https://journals.ku.edu/InvertebratePaleo/article/view/5663/5137}}</ref> This approach was criticized by Fåhraeus (1983), who argued that it overlooked Pander's historical relevance as a founder and primary figure in conodontology. Fåhraeus proposed to retain Conodonta as a phylum (attributed to Pander), with the single class Conodontata (Pander) and the single order Conodontophorida (Eichenberg).<ref name="Fåhraeus-1983" /><ref>{{Cite journal |last=Fåhraeus |first=Lars E. |date=1984 |title=A critical look at the Treatise family-group classification of Conodonta: an exercise in eclecticism |url=http://dx.doi.org/10.1111/j.1502-3931.1984.tb00675.x |journal=Lethaia |volume=17 |issue=4 |pages=293–305 |doi=10.1111/j.1502-3931.1984.tb00675.x |doi-broken-date=11 December 2024 |issn=0024-1164|url-access=subscription }}</ref> Subsequent authors continued to regard Conodonta as a phylum with an ever-increasing number of subgroups.<ref name="Sweet-1988" />

With increasingly strong evidence that conodonts lie within the phylum Chordata, more recent studies generally refer to "true conodonts" as the class Conodonta, containing multiple smaller orders.<ref name="Donoghue-2000" /><ref name="Sweet-2001">{{Cite journal |doi=10.1666/0022-3360(2001)075<1174:CPPF>2.0.CO;2 |volume=75 |issue=6 |pages=1174–1184 |last=Sweet |first=W. C. |author2=Donoghue, P. C. J. |title=Conodonts: Past, Present, Future |journal=Journal of Paleontology |year=2001 |bibcode=2001JPal...75.1174S |s2cid=53395896 |url=https://donoghue.blogs.bristol.ac.uk/files/2019/08/Sweet_Donoghue_2001.pdf |url-status=live |archive-url=https://web.archive.org/web/20221030162538/https://cpb-eu-w2.wpmucdn.com/blogs.bristol.ac.uk/dist/3/589/files/2019/08/Sweet_Donoghue_2001.pdf |archive-date=2022-10-30 }}</ref><ref name="Donoghue-2008">{{Cite journal |last1=Donoghue |first1=Philip C. J. |last2=Purnell |first2=Mark A. |last3=Aldridge |first3=Richard J. |last4=Zhang |first4=Shunxin |date=2008-01-01 |title=The interrelationships of 'complex' conodonts (Vertebrata) |url=https://www.researchgate.net/publication/27246517 |journal=Journal of Systematic Palaeontology |language=en |volume=6 |issue=2 |pages=119–153 |doi=10.1017/S1477201907002234 |bibcode=2008JSPal...6..119D |issn=1477-2019}}</ref> Paraconodonts are typically excluded from the group, though still regarded as close relatives.<ref name="Donoghue-2000" /><ref name="Sweet-2001" /><ref name="Donoghue-2008" /> In practice, Conodonta, Conodontophorida, and Euconodonta are equivalent terms and are used interchangeably.

== Conodont elements ==
For a long time, the function and arrangement of conodont elements was enigmatic, since the whole animal was soft-bodied, with the sole exception of the mineralized elements. Upon the conodont animal's demise, the [[Soft tissue|soft tissues]] would decompose and the individual conodont elements would separate. However, in instances of exceptional preservation the conodont elements may be recovered in articulation.<ref name="Liu">{{cite journal |last1=Liu |first1=H.P. |last2=Bergström |first2=S.M. |last3=Witzke |first3=B.J. |last4=Briggs |first4=D.E.G. |last5=McKay |first5=R.M. |last6=Ferretti |first6=A. |year=2017 |title=Exceptionally preserved conodont apparatuses with giant elements from the Middle Ordovician Winneshiek Konservat-Lagerstätte, Iowa, USA |journal=Journal of Paleontology |volume=91 |issue=3 |pages=493–511 |bibcode=2017JPal...91..493L |doi=10.1017/jpa.2016.155 |doi-access=free}}</ref> By closely observing these rare specimens, Briggs ''et al''. (1983)<ref name="Briggs-1983" /> were able to for the first time study the [[anatomy]] of the complexes formed by the conodont elements arranged as they were in life. Other researchers have continued to revise and reinterpret this initial description.<ref name="Aldridge">{{cite journal |last1=Aldridge |first1=R.J. |last2=Briggs |first2=D.E.G. |last3=Smith |first3=M.P. |last4=Clarkson |first4=E.N.K. |last5=Clark |first5=N.D.L. |year=1993 |title=The anatomy of conodonts |journal=Philosophical Transactions of the Royal Society of London. Series B: Biological Sciences |volume=340 |issue=1294 |pages=405–421 |doi=10.1098/rstb.1993.0082}}</ref><ref name=":0" /><ref name="Goudemand">{{cite journal |last1=Goudemand |first1=N. |last2=Orchard |first2=M.J. |last3=Urdy |first3=S. |last4=Bucher |first4=H. |last5=Tafforeau |first5=P. |year=2011 |title=Synchrotron-aided reconstruction of the conodont feeding apparatus and implications for the mouth of the first vertebrates |journal=PNAS |volume=108 |issue=21 |pages=8720–8724 |bibcode=2011PNAS..108.8720G |doi=10.1073/pnas.1101754108 |pmc=3102352 |pmid=21555584 |doi-access=free}}</ref>

=== Lone elements ===
Conodont elements consist of mineralised teeth-like structures of varying morphology and complexity. The evolution of [[mineralized tissues]] has been puzzling for more than a century. It has been hypothesized that the first mechanism of chordate tissue mineralization began either in the oral skeleton of conodonts or the dermal skeleton of early [[agnathans]].

The element array constituted a feeding apparatus that is radically different from the jaws of modern animals. They are now termed "conodont elements" to avoid confusion. The three forms of teeth, i.e., coniform cones, ramiform bars, and pectiniform platforms, probably performed different functions.

For many years, conodonts were known only from enigmatic tooth-like microfossils (200 micrometers to 5 millimeters in length<ref>{{cite web|last1=MIRACLE|title=Conodonts|url=http://www.ucl.ac.uk/GeolSci/micropal/conodont.html|access-date=26 August 2014}}</ref>), which occur commonly, but not always, in isolation and were not associated with any other fossil. Until the early 1980s, conodont teeth had not been found in association with fossils of the host organism, in a [[lagerstätte|konservat lagerstätte]].<ref name="Briggs-1983">{{Cite journal | last1 = Briggs | first1 = D. E. G. | last2 = Clarkson | first2 = E. N. K. | last3 = Aldridge | first3 = R. J. | title = The conodont animal | doi = 10.1111/j.1502-3931.1983.tb01993.x | journal = Lethaia | volume = 16 | issue = 1| pages = 1–14 | year = 1983| bibcode = 1983Letha..16....1B }}</ref> This is because the conodont animal was soft-bodied, thus everything but the teeth was unsuited for preservation under normal circumstances.

These microfossils are made of [[hydroxylapatite]] (a phosphatic mineral).<ref>{{cite journal | doi = 10.1016/j.chemgeo.2006.03.004 | volume=233 | title=Chemical systematics of conodont apatite determined by laser ablation ICPMS | year=2006 | journal=Chemical Geology | pages=196–216 | last1 = Trotter | first1 = Julie A.| issue=3–4 | bibcode=2006ChGeo.233..196T }}</ref> The conodont elements can be extracted from rock using adequate solvents.<ref>{{cite journal | last1 = Jeppsson | first1 = Lennart | last2 = Anehus | first2 = Rikard | year = 1995| title = A Buffered Formic Acid Technique for Conodont Extraction | journal = Journal of Paleontology | volume = 69 | issue = 4| pages = 790–794 | jstor = 1306313 | doi = 10.1017/s0022336000035319 | bibcode = 1995JPal...69..790J | s2cid = 131850219 }}</ref><ref>{{cite book | doi = 10.1007/978-94-017-0581-3_27 | year=2001 | pages=318–330 | last1 = Green | first1 = Owen R.| title=A Manual of Practical Laboratory and Field Techniques in Palaeobiology | chapter=Extraction Techniques for Phosphatic Fossils | isbn=978-90-481-4013-8 }}</ref><ref>{{cite journal | doi = 10.1016/j.chemgeo.2016.03.023 | volume=431 | title=Effects of extraction protocols on the oxygen isotope composition of conodont elements | year=2016 | journal=Chemical Geology | pages=36–43 | last1 = Quinton | first1 = Page C.| bibcode=2016ChGeo.431...36Q }}</ref>

They are widely [[conodont biostratigraphy|used in biostratigraphy]]. Conodont elements are also used as [[paleothermometer]]s, a proxy for thermal alteration in the host rock, because under higher temperatures, the phosphate undergoes predictable and permanent color changes, measured with the [[conodont alteration index]]. This has made them useful for [[petroleum exploration]] where they are known, in rocks dating from the [[Cambrian]] to the Late [[Triassic]].

=== Full apparatus ===
<gallery widths="200">
File:Hindeodus elements.jpg|Complete element set of the conodont ''[[Hindeodus parvus]]''
File:Archeognathus primus.png|Preserved articulated association of conodont elements belonging to the species ''[[Archeognathus]] primus'' (Ordovician, North America)
</gallery>The conodont apparatus may comprise a number of discrete elements, including the spathognathiform, ozarkodiniform, trichonodelliform, neoprioniodiform, and other forms.<ref>{{Cite journal| jstor = 1303249| pages = 227–235| title = Appalachignathus, a New Multielement Conodont Genus from the Middle Ordovician of North America| journal = Journal of Paleontology| volume = 48| issue = 2| year = 1974 |last1=Bergström| first1 = S. M. |last2=Carnes| first2 = J. B. |last3=Ethington| first3 = R. L. |last4=Votaw| first4 = R. B. |last5=Wigley| first5 = P. B. | doi = 10.1666/0022-3360(2001)075<1174:CPPF>2.0.CO;2| bibcode = 2001JPal...75.1174S| s2cid = 53395896}}</ref>

In the 1930s, the concept of conodont assemblages was described by Hermann Schmidt<ref>{{cite journal | doi = 10.1007/BF03041668 | volume=16 | title=Conodonten-Funde in ursprünglichem Zusammenhang | year=1934 | journal=Paläontologische Zeitschrift | pages=76–85 | last1 = Schmidt | first1 = Hermann| issue=1–2 | bibcode=1934PalZ...16...76S | s2cid=128496416 }}</ref> and by Harold W. Scott in 1934.<ref>Harold W. Scott, "The Zoological Relationships of the Conodonts. ''Journal of Paleontology'', Vol. 8, No. 4 (Dec., 1934), pages 448-455 ([https://www.jstor.org/stable/1298133 Stable URL])</ref><ref>{{cite journal | last1 = Scott | first1 = Harold W. | year = 1942| title = Conodont Assemblages from the Heath Formation, Montana | journal = Journal of Paleontology | volume = 16 | issue = 3| pages = 293–300 | jstor = 1298905 }}</ref><ref>{{cite journal | last1 = Dunn | first1 = David L. | year = 1965 | title = Late Mississippian conodonts from the Bird Spring Formation in Nevada | url = http://jpaleontol.geoscienceworld.org/content/39/6/1145.abstract | journal = Journal of Paleontology | volume = 39 | page = 6 | access-date = 2016-07-15 | archive-url = https://web.archive.org/web/20160818021816/http://jpaleontol.geoscienceworld.org/content/39/6/1145.abstract | archive-date = 2016-08-18 | url-status = dead }}</ref><ref>{{cite journal | last1 = Barnes | first1 = Christopher R. | year = 1967| title = A Questionable Natural Conodont Assemblage from Middle Ordovician Limestone, Ottawa, Canada | journal = Journal of Paleontology | volume = 41 | issue = 6| pages = 1557–1560 | jstor = 1302203 }}</ref>

==== Element types ====
[[File:Manticolepis subrecta.jpg|thumb|right|Model of elements of ''[[Manticolepis|Manticolepis subrecta]]'' – a conodont from the Upper Frasnian of Poland – photography taken in the Geological Museum of the Polish Geological Institute in Warsaw]]
The arrangement of elements in [[Ozarkodinida|ozarkodinids]] and other complex conodonts was first reconstructed from extremely well-preserved [[taxa]] by Briggs ''et al.'' (1983),<ref name="Briggs-1983" /> although loosely articulated conodont elements are reported as early as 1971.<ref name=":1">{{cite journal |last1=Purnell |first1=Mark A. |date=1 April 1993 |title=Feeding mechanisms in conodonts and the function of the earliest vertebrate hard tissues |url=https://www.researchgate.net/publication/249519692 |journal=Geology |volume=21 |issue=4 |pages=375–377 |bibcode=1993Geo....21..375P |doi=10.1130/0091-7613(1993)021<0375:FMICAT>2.3.CO;2 |access-date=15 July 2021}}</ref> Conodont elements are organized into three different groups based upon shape. These groups of shapes are termed '''S''', '''M''', and '''P'''&nbsp;elements.<ref name=":0">{{cite journal|volume=352| issue= 1361| pages =1545–1564|doi=10.1098/rstb.1997.0141|pmc=1692076| year= 1997| last1= Purnell| first1= M. A.| title= Architecture and functional morphology of the skeletal apparatus of ozarkodinid conodonts| journal= Philosophical Transactions of the Royal Society B: Biological Sciences| last2= Donoghue| first2= P. C.| bibcode= 1997RSPTB.352.1545P}}</ref>

The '''S''' and '''M'''&nbsp;elements are ramiform, elongate, and comb-like structures.<ref name="Aldridge" /> An individual element has a single row of many cusps running down the midline along its top side. These conodont elements are arranged towards the animal's anterior oral surface, forming an interlocking basket of cusps within the mouth. Cusp may point out towards the head of the animal, or back towards the tail.<ref name="Goudemand" /> The number of '''S''' and '''M'''&nbsp;elements present as well as the direction they point may vary by [[Taxonomy (biology)|taxonomic]] group. '''M''' (makellate) elements have a higher position in the mouth and commonly form a symmetrical shape akin to a horseshoe or pick.<ref name="Briggs-1983" /> '''S'''&nbsp;elements are further divided into three subtypes:

* '''S{{sub|a}} element''' - an unpaired [[Symmetry|symmetrical]] ramiform structure at the front of the mouth. Sometimes known as an S<sub>0</sub> element.
* '''S{{sub|b}} element''' - paired asymmetrical structures
* '''S{{sub|c}} element''' - paired highly asymmetrical, bipennate structures

In '''P'''&nbsp;elements, a pectiniform (comb-shaped) row of cusps transitions into a broad flat or ridged platform moving towards the base of the element.<ref name="Briggs-1983" /> Platforms and cusps are only found along one side of the structure. Individual elements oriented vertically and arranged in pairs, with platforms and cusps pointing towards the animal's midline. They occur deeper in the throat than the S and M elements. '''P'''&nbsp;elements are further divided into two subtypes:

* '''P<sub>a</sub> element''' - blade-like structures
* '''P<sub>b</sub> element''' - arched structures

== The conodont animal ==
<gallery>
File:Promissum NT small.jpg|Life restoration of ''[[Promissum pulchrum]]''
File:Panderodus.png|Restoration of ''[[Panderodus|Panderodus unicostatus]]''
File:A body fossil of a Panderodus unicostatus (Branson & Mehl, 1933) from the Waukesha Lagerstätte of Wisconsin, USA.png|A body fossil of ''Panderodus unicostatus''
File:Conodont species size comparison.png|A size comparison of the three conodont species with preserved body fossils.
File:Typhloesus fossils 2022.jpg|Fossils of ''[[Typhloesus]]'', at one time considered the first conodont body fossil.   
</gallery>Although conodont elements are abundant in the fossil record, fossils preserving soft tissues of conodont animals are known from only a few deposits in the world. One of the first possible body fossils of a conodont were those of ''[[Typhloesus]]'', an enigmatic animal known from the [[Bear Gulch Limestone|Bear Gulch limestone]] in [[Montana]].<ref name="Conway Morris-1990">{{Cite journal |last=Conway Morris |first=Simon |date=1990-04-12 |title=''Typhloesus wellsi'' (Melton and Scott, 1973), a bizarre metazoan from the Carboniferous of Montana, U. S. A |url=https://royalsocietypublishing.org/doi/10.1098/rstb.1990.0102 |journal=Philosophical Transactions of the Royal Society of London. B, Biological Sciences |volume=327 |issue=1242 |pages=595–624 |bibcode=1990RSPTB.327..595M |doi=10.1098/rstb.1990.0102|url-access=subscription }}</ref> This possible identification was based on the presence of conodont elements with the fossils of ''Typhloesus''. This claim was disproved, however, as the conodont elements were actually in the creature's [[Digestion|digestive]] area.<ref name="Conway Morris-2022">{{Cite journal |last1=Conway Morris |first1=Simon |last2=Caron |first2=Jean-Bernard |year=2022 |title=A possible home for a bizarre Carboniferous animal: Is Typhloesus a pelagic gastropod? |journal=Biology Letters |volume=18 |issue=9 |doi=10.1098/rsbl.2022.0179 |pmid=36126687 |pmc=9489302 |doi-access=free}}</ref> That animal is now regarded as a possible [[Mollusca|mollusk]] related to [[Gastropoda|gastropods]].<ref name="Conway Morris-2022" /> As of 2023, there are only three described species of conodonts that have preserved trunk fossils: [[Clydagnathus|''Clydagnathus windsorensis'']] from the [[Carboniferous]] aged [[Granton Shrimp Bed]] in [[Scotland]], [[Promissum|''Promissum pulchrum'']] from the [[Ordovician]] aged [[Soom Shale]] in [[South Africa]], and [[Panderodus|''Panderodus unicostatus'']] from the [[Silurian]] aged [[Waukesha Biota]] in [[Wisconsin]].<ref name="Donoghue-2000" /><ref name="Murdock-2021">{{Cite journal |last1=Murdock |first1=Duncan J. E. |last2=Smith |first2=M. Paul |date=2021 |editor-last=Sansom |editor-first=Robert |title=Panderodus from the Waukesha Lagerstätte of Wisconsin, USA: a primitive macrophagous vertebrate predator |url=https://onlinelibrary.wiley.com/doi/10.1002/spp2.1389 |journal=Papers in Palaeontology |language=en |volume=7 |issue=4 |pages=1977–1993 |doi=10.1002/spp2.1389 |bibcode=2021PPal....7.1977M |s2cid=237769553 |issn=2056-2799|url-access=subscription }}</ref><ref name="Gabbott-1995">{{cite journal |last=Gabbott |first=S.E. |author2=R. J. Aldridge |author3=J. N. Theron |year=1995 |title=A giant conodont with preserved muscle tissue from the Upper Ordovician of South Africa |journal=Nature |volume=374 |issue=6525 |pages=800–803 |bibcode=1995Natur.374..800G |doi=10.1038/374800a0 |s2cid=4342260}}</ref> There are other examples of conodont animals that only preserve the head region, including eyes, of the animals known from the Silurian aged [[Eramosa]] site in [[Ontario]] and [[Triassic]] aged [[Akkamori section]] in [[Japan]].<ref>{{Cite journal |last1=von Bitter |first1=Peter H. |last2=Purnell |first2=Mark A. |last3=Tetreault |first3=Denis K. |last4=Stott |first4=Christopher A. |date=2007 |title=Eramosa Lagerstätte—Exceptionally preserved soft-bodied biotas with shallow-marine shelly and bioturbating organisms (Silurian, Ontario, Canada) |url=http://dx.doi.org/10.1130/g23894a.1 |journal=Geology |volume=35 |issue=10 |pages=879 |doi=10.1130/g23894a.1 |bibcode=2007Geo....35..879V |issn=0091-7613|url-access=subscription }}</ref><ref>{{Cite journal |last1=Takahashi |first1=Satoshi |last2=Yamakita |first2=Satoshi |last3=Suzuki |first3=Noritoshi |date=2019-06-15 |title=Natural assemblages of the conodont Clarkina in lowermost Triassic deep-sea black claystone from northeastern Japan, with probable soft-tissue impressions |url=https://www.sciencedirect.com/science/article/pii/S0031018218310277 |journal=Palaeogeography, Palaeoclimatology, Palaeoecology |language=en |volume=524 |pages=212–229 |doi=10.1016/j.palaeo.2019.03.034 |bibcode=2019PPP...524..212T |s2cid=134664744 |issn=0031-0182|url-access=subscription }}</ref>

According to these fossils, conodonts had large eyes, fins with fin rays, [[Myomere|chevron-shaped muscles]] and axial line, which were interpreted as [[notochord]] or the [[dorsal nerve cord]].<ref name="Murdock-2021" /><ref>{{Cite book |last=Foster |first=John |url=https://books.google.com/books?id=I1V_BAAAQBAJ |title=Cambrian Ocean World: Ancient Sea Life of North America |date=2014-06-06 |publisher=Indiana University Press |isbn=978-0-253-01188-6 |pages=300–301 |language=en}}</ref> While ''Clydagnathus'' and ''Panderodus'' had lengths only reaching {{cvt|4-5|cm}}, ''[[Promissum]]'' is estimated to reach {{cvt|40|cm}} in length, if it had the same proportions as ''Clydagnathus''.<ref name="Murdock-2021" /><ref name="Gabbott-1995" />

== Ecology ==

=== Diet ===
Because they are associated with the oral region of the conodont animal, it is accepted that conodont elements are used in the acquisition of food. Two primary [[Hypothesis|hypotheses]] have arisen as to how this is accomplished. One hypothesis proposed that elements acted as support structures for filamentous soft-tissues.<ref name="Nicoli">{{cite journal |last=Nicoli |first=R.S. |year=1985 |title=Multielement composition of the conodont species ''Polygnathus xylus xylus'' {{small|(Stauffer, 1940)}} and ''Ozarkodina brevis'' {{small|(Bischoff and Ziegler, 1957)}} from the Upper Devonian of the Canning basin, Western Australia |journal=Journal of Australian Geology and Geophysics |volume=9 |pages=133–147}}</ref><ref name=":1" /> These small filaments (cilia) would be used to filter small [[Plankton|planktonic]] organisms out of the water column, analogous to the [[cnidoblast]] cells of a [[coral]] or the [[lophophore]] of a [[brachiopod]].

Another hypothesis contests that the conodont elements were used to actively catch and process prey.<ref name=":1" /><ref name="Goudemand" /> S and M&nbsp;elements could have been independently movable, allowing prey to be captured in the oral region of the animal. Modern hagfish and lampreys scrape at flesh using [[Keratin|keratinous]] blades supported by a simple but effective pulley-like system, involving a string of muscles around a [[Cartilage|cartilaginous]] core. An equivalent system might have been present in conodonts.<ref name="Goudemand" /> S and M elements would be able to open and close at will to firmly grasp or pinch at prey, before rotating back to consume the prey element. The blade-like P&nbsp;elements deeper in the throat would process the food by slicing against their counterparts like a pair of scissors,<ref name="Goudemand" /> or grinding against each other like [[Molar (tooth)|molar teeth]].

Current consensus supports the latter hypothesis in which elements are used for predation, not [[suspension feeding]].<ref name="Gabbott-1995" /> One line of evidence for this includes the isometric growth pattern exhibited by S, M, and P&nbsp;elements.<ref name=":1" /> If the conodont animal relied upon a filter feeding strategy then this growth pattern would not provide the necessary surface area needed to support ciliated tissue as the animal grew. There is some evidence for cartilaginous structures similar to those present in modern jawless fish, which are both [[Predator|predators]] and [[Scavenger|scavengers]].<ref name="Goudemand" /> Wear on some conodont elements suggests that they functioned like teeth, with both wear marks likely created by food as well as by [[Occlusion (dentistry)|occlusion]] with other elements.<ref name="Gabbott-1995" /><ref name="Terrill-2022">{{Cite journal |last1=Terrill |first1=David F. |last2=Jarochowska |first2=Emilia |last3=Henderson |first3=Charles M. |last4=Shirley |first4=Bryan |last5=Bremer |first5=Oskar |date=2022-04-08 |title=Sr/Ca and Ba/Ca ratios support trophic partitioning within a Silurian conodont community from Gotland, Sweden |journal=Paleobiology |volume=48 |issue=4 |pages=601–621 |doi=10.1017/pab.2022.9 |s2cid=248062641 |issn=0094-8373|doi-access=free |bibcode=2022Pbio...48..601T }}</ref>

It is possible that multiple feeding strategies may have arisen in different groups of conodonts, as they are a diverse clade. A 2009 paper suggested that the genus ''[[Panderodus]]'' may have utilized [[venom]] in the acquisition of prey.<ref name="Szaniawski">{{cite journal |last=Szaniawski |first=H. |year=2009 |title=The earliest known venomous animals recognized among conodonts |journal=Acta Palaeontologica Polonica |volume=54 |issue=4 |pages=669–676 |doi=10.4202/app.2009.0045 |doi-access=free}}</ref> Evidence of longitudinal grooves are present on some conodont elements associated with the feeding apparatus of this particular animal. These sorts of grooves are analogous to those present in some extant groups of venomous vertebrates.

=== Lifestyle ===
Studies have concluded that conodonts taxa occupied both [[Pelagic zone|pelagic]] (open ocean) and [[Benthic zone|nektobenthic]] (swimming above the sediment surface) niches.<ref name="Terrill-2022" /> The preserved musculature suggests that some conodonts (''Promissum'' at least) were efficient cruisers, but incapable of bursts of speed.<ref name="Gabbott-1995" /> Based on isotopic evidence, some Devonian conodonts have been proposed to have been low-level consumers that fed on [[zooplankton]].<ref name="Terrill-2022" />

A study on the population dynamics of ''[[Alternognathus]]'' has been published. Among other things, it demonstrates that at least this taxon had short lifespans lasting around a month.<ref>{{cite journal | last1 = Świś | first1 = Przemysław | year = 2019 | title = Population dynamics of the Late Devonian conodont Alternognathus calibrated in days | journal = Historical Biology: An International Journal of Paleobiology | pages =  1–9| doi = 10.1080/08912963.2018.1427088 | s2cid = 89835464 }}</ref> A study [[Strontium|Sr]]/[[Calcium|Ca]] and [[Barium|Ba]]/Ca ratios of a population of conodonts from a carbonate platform from the Silurian of Sweden found that the different conodont species and genera likely occupied different [[Trophic level|trophic niches]].<ref name="Terrill-2022" />

== Classification and phylogeny ==

=== Affinities ===
{{As of | 2012}}, scientists classify the conodonts in the [[Phylum (biology)|phylum]] [[Chordata]] on the basis of their fins with fin rays, [[Chevron (insignia)|chevron]]-shaped muscles and [[notochord]].<ref name="Briggs-1992">{{cite journal
  | title = Conodonts: a major extinct group added to the vertebrates
  | journal = Science
  | first = D.
  | last = Briggs
  | volume = 256
  | issue = 5061
  | pages = 1285–1286
  | date = May 1992
  | doi = 10.1126/science.1598571
  | pmid = 1598571
| bibcode = 1992Sci...256.1285B
  }}</ref>

Milsom and [[Sue Rigby|Rigby]] envision them as vertebrates similar in appearance to modern hagfish and lampreys,<ref name="Milsom-2004">{{cite book
  | last = Milsom
  | first = Clare
  | author2-last = Rigby
  | author2-first = Sue
  | author2-link = Sue Rigby
  | title = Fossils at a Glance
  | year = 2004
  | publisher = Blackwell Publishing
  | location = Victoria, Australia
  | isbn = 978-0-632-06047-4
  | page = 88
  | chapter = Vertebrates
}}</ref> and [[phylogenetic]] analysis suggests they are more [[Synapomorphy|derived]] than either of these groups.<ref name="Donoghue-2000">{{cite journal |author=Donoghue |first1=P.C.J. |last2=Forey |first2=P.L. |last3=Aldridge |first3=R.J. |year=2000 |title=Conodont affinity and chordate phylogeny |url=http://journals.cambridge.org/abstract_S0006323199005472 |journal=Biological Reviews |volume=75 |issue=2 |pages=191–251 |doi=10.1111/j.1469-185X.1999.tb00045.x |pmid=10881388 |s2cid=22803015 |access-date=|url-access=subscription }}</ref> However, this analysis comes with one caveat: the earliest conodont-like fossils, the [[protoconodont]]s, appear to form a distinct clade from the later [[Paraconodontida|paraconodonts]] and '''euconodonts'''. Protoconodonts are probably not relatives of true conodonts, but likely represent a stem group to [[Chaetognatha]], an unrelated phylum that includes arrow worms.<ref name="Szaniawski, H.-2002">{{cite journal
 | author = Szaniawski, H.
 | year = 2002
 | title = New evidence for the protoconodont origin of chaetognaths
 | journal = Acta Palaeontologica Polonica
 | volume = 47
 | issue = 3
 | pages = 405
 | url = http://app.pan.pl/archive/published/app47/app47-405.pdf
}}</ref>

Moreover, some analyses do not regard conodonts as either [[vertebrate]]s or [[Craniata|craniates]], because they lack the main characteristics of these groups.<ref name="Nowlan-2010">{{cite journal
 | author = Turner, S., Burrow, C.J., Schultze, H.P., Blieck, A., Reif, W.E., Rexroad, C.B., Bultynck, P., Nowlan, G.S.
 | year = 2010
 | title = False teeth: conodont-vertebrate phylogenetic relationships revisited
 | journal = Geodiversitas
 | volume = 32
 | issue = 4
 | pages = 545–594
 | url = http://www.mnhn.fr/museum/front/medias/publication/31374_g2010n4a1.pdf
 | doi = 10.5252/g2010n4a1
 | last2 = Burrow
 | last3 = Schultze
 | last4 = Blieck
 | last5 = Reif
 | last6 = Rexroad
 | last7 = Bultynck
 | last8 = Nowlan
 | s2cid = 86599352
 | access-date = 2011-02-11
 | archive-url = https://web.archive.org/web/20120319203153/http://www.mnhn.fr/museum/front/medias/publication/31374_g2010n4a1.pdf
 | archive-date = 2012-03-19
 | url-status = dead
 }}</ref> More recently it has been proposed that conodonts may be stem-[[Cyclostomi|cyclostomes]], more closely related to [[hagfish]] and [[lamprey]]s than to [[Gnathostomata|jawed vertebrates]], based on similarities in the shape of their fins, and the idea that the conodont elements may be [[Homology (biology)|homologous]] with lamprey and hagfish tooth plates.<ref>{{Cite journal|last1=Miyashita|first1=Tetsuto|last2=Coates|first2=Michael I.|last3=Farrar|first3=Robert|last4=Larson|first4=Peter|last5=Manning|first5=Phillip L.|last6=Wogelius|first6=Roy A.|last7=Edwards|first7=Nicholas P.|last8=Anné|first8=Jennifer|last9=Bergmann|first9=Uwe|last10=Palmer|first10=A. Richard|last11=Currie|first11=Philip J.|date=2019-02-05|title=Hagfish from the Cretaceous Tethys Sea and a reconciliation of the morphological–molecular conflict in early vertebrate phylogeny|journal=Proceedings of the National Academy of Sciences|language=en|volume=116|issue=6|pages=2146–2151|doi=10.1073/pnas.1814794116|issn=0027-8424|pmc=6369785|pmid=30670644|bibcode=2019PNAS..116.2146M|doi-access=free}}</ref>

=== Ingroup relations ===
Individual conodont elements are difficult to classify in a consistent manner, but an increasing number of conodont species are now known from multi-element assemblages, which offer more data to infer how different conodont lineages are related to each other. The following is a simplified cladogram based on Sweet and Donoghue (2001),<ref name="Sweet-2001" /> which summarized previous work by Sweet (1988)<ref name="Sweet-1988" /> and Donoghue et al. (2000):<ref name="Donoghue-2000" />

{{clade| style=font-size:95%;line-height:80%
| label1=
| 1={{clade
|1= [[Paraconodontida]]
| label2= {{extinct}}'''Conodonta'''
| 2={{clade
| 1= [[Cavidonti]] / [[Proconodontida]]
| label2=[[Conodonti]]
| 2={{clade
| 1={{clade
| 1= [[Protopanderodontida]]
| 2= [[Panderontida]]}}
| label2=[[Prioniodontida]]
| 2={{clade
| 1= ''[[Paracordylodus]]''
| 2={{clade
| 1= [[Balognathidae]]
| 2={{clade
| 1= [[Prioniodinida]]
| 2= [[Ozarkodinida]]
}}
}}
}}
}}
 }} }} }}Only a few studies approach the question of conodont ingroup relationships from a [[Cladistics|cladistic]] perspective, as informed by [[phylogenetic analyses]]. One of the broadest studies of this nature was the analysis of Donoghue et al. (2008), which focused on "complex" conodonts (Prioniodontida and other descendant groups):<ref name="Donoghue-2008" />

== Evolutionary history ==
[[File:Conodonts.jpg|thumb|300px|Conodont elements from the Deer Valley Member of the [[Mauch Chunk Formation]] in Pennsylvania, Maryland, and West Virginia, US <br>{{hidden|detail|Figures 1, 2. Conodonts from the Deer Valley Member of the Mauch Chunk Formation, Keystone quarry, Pa. This collection (93RS–79c) is from the lower 10 cm of the Deer Valley Member. Note the nonabraded, although slightly broken, conodont elements of the high-energy oolitic marine facies of the Deer Valley Member.<br>1. ''[[Kladognathus]] sp.'', Sa element, posterior view, X140 2. ''[[Cavusgnathus]] unicornis'', gamma morphotype, Pa element, lateral view, X140 <br>3–9. Conodonts from the uppermost Loyalhanna Limestone Member of the Mauch Chunk Formation, Keystone quarry, Pa. This collection (93RS–79b) is from the upper 10 cm of the Loyalhanna Member. Note the highly abraded and reworked aeolian forms. <br>3, 4. ''[[Kladognathus]] sp.'', Sa element, lateral views, X140 <br>5. ''[[Cavusgnathus]] unicornis'', alpha morphotype, Pa element, lateral view, X140 <br>6, 7. ''[[Cavusgnathus]] sp.'', Pa element, lateral view, X140 <br>8. ''[[Polygnathus]] sp.'', Pa element, upper view, reworked Late Devonian to Early Mississippian morphotype, X140 <br>9. ''[[Gnathodus]] texanus?'', Pa element, upper view, X140 <br>10–14. Conodonts from the basal 20 cm of the Loyalhanna Limestone Member of the Mauch Chunk Formation, Keystone quarry, Pa. (93RS–79a), and Westernport, Md. (93RS–67), note the highly abraded and reworked aeolian forms <br>10. ''[[Polygnathus]] sp.'', Pa element, upper view, reworked Late Devonian to Early Mississippian morphotype, 93RS–79a, X140 <br>11. ''Polygnathus sp.'', Pa element, upper view, reworked Late Devonian to Early Mississippian morphotype, 93RS–67, X140 <br>12. ''[[Gnathodus]] sp.'', Pa element, upper view, reworked Late Devonian(?) through Mississippian morphotype, 93RS–67, X140 <br>13. ''[[Kladognathus]] sp.'', M element, lateral views, 93RS–67, X140 <br>14. ''[[Cavusgnathus]] sp.'', Pa element, lateral view, 93RS–67, X140}}]]The earliest fossils of conodonts are known from the Cambrian period. Conodonts extensively diversified during the early Ordovician, reaching their apex of diversity during the middle part of the period, and experienced a sharp decline during the late Ordovician and Silurian, before reaching another peak of diversity during the mid-late Devonian. Conodont diversity declined during the [[Carboniferous]], with an extinction event at the end of the middle [[Tournaisian]]<ref>{{cite journal |last1=Zhuravlev |first1=Andrey V. |last2=Plotitsyn |first2=Artem N. |date=18 January 2022 |title=The middle–late Tournaisian crisis in conodont diversity: a comparison between Northeast Laurussia and Northeast Siberia |url=https://www.sciencedirect.com/science/article/abs/pii/S1871174X22000014 |journal=Palaeoworld |volume=31 |issue=4 |pages=633–645 |doi=10.1016/j.palwor.2022.01.001 |s2cid=246060690 |access-date=16 October 2022|url-access=subscription }}</ref> and a prolonged period of significant loss of diversity during the [[Pennsylvanian (geology)|Pennsylvanian]].<ref name="Shi-2021">{{cite journal |last1=Shi |first1=Yukun |last2=Wang |first2=Xiangdong |last3=Fan |first3=Junxuan |last4=Huang |first4=Hao |last5=Xu |first5=Huiqing |last6=Zhao |first6=Yingying |last7=Shen |first7=Shuzhong |date=September 2021 |title=Carboniferous-earliest Permian marine biodiversification event (CPBE) during the Late Paleozoic Ice Age |url=https://www.sciencedirect.com/science/article/pii/S0012825221002002 |journal=Earth-Science Reviews |volume=220 |page=103699 |doi=10.1016/j.earscirev.2021.103699 |bibcode=2021ESRv..22003699S |access-date=4 September 2022|url-access=subscription }}</ref><ref>{{cite journal |last1=Sepkoski |first1=J. J. |year=2002 |title=A compendium of fossil marine animal genera |journal=Bulletins of American Paleontology |volume=363 |pages=1–560}}</ref> Only a handful of conodont genera were present during the Permian, though diversity increased after the P-T extinction during the Early Triassic.

Diversity continued to decline during the Middle and Late Triassic, culminating in their extinction soon after the Triassic-Jurassic boundary. Much of their diversity during the Paleozoic was likely controlled by sea levels and temperature, with the major declines during the Late Ordovician and Late Carboniferous due to cooler temperatures, especially [[glacial event]]s and associated [[marine regression]]s which reduced [[continental shelf]] area. However, their final demise is more likely related to [[biotic interactions]], perhaps competition with new Mesozoic taxa.<ref>{{Cite journal|last1=Ginot|first1=Samuel|last2=Goudemand|first2=Nicolas|date=December 2020|title=Global climate changes account for the main trends of conodont diversity but not for their final demise|journal=Global and Planetary Change|language=en|volume=195|pages=103325|doi=10.1016/j.gloplacha.2020.103325|bibcode=2020GPC...19503325G|s2cid=225005180|doi-access=free}}</ref>

==Taxonomy==
Conodonta taxonomy based on Sweet (1988),<ref name="Sweet-1988">{{Cite book |last1=Sweet |first1=W. C. |url=https://docplayer.net/63890166-The-conodonta-and-evolutionary-history-of-a-long-extinct-animal-phylum-morphology-taxonomy-paleoecology-walter-c-sweel-the-ohio-state-university.html |title=The Conodonta: morphology, taxonomy, paleoecology and evolutionary history of a long-extinct animal phylum |journal=Oxford Monographs on Geology and Geophysics |year=1988 |isbn=978-0-19-504352-5 |pages=1–211 |url-access= |issue=10}}</ref> Sweet & Donoghue (2001),<ref name="Sweet-2001" /> and Mikko's Phylogeny Archive.<ref name="Haaramo-2007">Mikko's Phylogeny Archive [http://www.helsinki.fi/~mhaaramo/] {{cite web |last=Haaramo |first=Mikko |year=2007 |title=''Conodonta - conodonts'' |url=http://www.helsinki.fi/~mhaaramo/metazoa/deuterostoma/chordata/conodonta/conodonta_1.html |access-date=2015-12-30}}</ref>{{clarification needed|date=August 2022|reason=This listing doesn't appear in Sweet & Donoghue or the Mikko's phylogeny version or the Fish classification site. If it's listing from the Sweet (1988) it should sat so. }}
* Class '''Conodonta''' <small>Pander, 1856</small> ['''Conodontophorida''' <small>Eichenberg, 1930; </small>'''"euconodonts"''' <small>Bengtson, 1976</small>]
**[[Cavidonti]] <small>Sweet, 1988</small>
*** Order [[Belodellida]]? <small>Sweet, 1988</small>
****[[Ansellidae]]? <small>Fåhraeus & Hunter, 1985</small>
****[[Belodellidae]] <small>Khodalevich & Tschernich, 1973</small>
****[[Dapsilodontidae]]? <small>Sweet, 1988</small>
*** Order [[Proconodontida]] <small>Sweet, 1988</small> 
****[[Cordylodontidae]] <small>Lindström, 1970</small>
****[[Fryxellodontidae]] <small>Miller, 1981</small>
****[[Pseudooneotodidae]]? <small>Wang & Aldridge, 2010</small>
****[[Proconodontidae]] <small>Lindström, 1970</small>
****[[Pygodontidae]]? <small>Bergstrom, 1981</small>
** [[Conodonti]] <small>Pander, 1856 non Branson, 1938</small>
***Order [[Protopanderodontida]] <small>Sweet, 1988</small>
**** [[Acanthodontidae]] <small>Lindström, 1970</small>
**** [[Clavohamulidae]] <small>Lindström, 1970</small>
**** [[Drepanoistodontidae]]? <small>Fåhraeus, 1978</small> [Distacodontidae <small>Bassler, 1925</small>]
**** [[Protopanderodontidae]] <small>Lindström, 1970</small> [Scolopodontidae <small>Bergström, 1981</small>; Oneotodontidae <small>Miller, 1981</small>; Teridontidae <small>Miller, 1981</small>]
**** [[Serratognathidae]]? <small>Zhen et al., 2009</small>
****[[Strachanognathidae]]? <small>Bergström, 1981</small> [Cornuodontidae <small>Stouge, 1984</small>]
*** Order [[Panderodontida]] <small>Sweet, 1988</small>
**** [[Panderodontidae]] <small>Lindström, 1970</small>
*** Order [[Prioniodontida]] <small>Dzik, 1976</small> (paraphyletic)
**** [[Acodontidae]]? <small>Dzik, 1993</small> [Tripodontinae <small>Sweet, 1988</small>]
**** [[Cahabagnathidae]]? <small>Stouge & Bagnoli 1999</small>
****[[Distacodontidae]]? <small>Bassler, 1925 emend. Ulrich & Bassler, 1926</small> [Drepanodontinae <small>Fåhraeus & Nowlan, 1978</small>; Lonchodininae <small>Hass, 1959</small>]
****[[Gamachignathidae]]? <small>Wang & Aldridge, 2010</small>
****[[Jablonnodontidae]]? <small>Dzik, 2006</small>
****[[Nurrellidae]]? <small>Pomešano-Cherchi, 1967</small>
**** [[Paracordylodontidae]]? <small>Bergström, 1981</small>
****[[Playfordiidae]]? <small>Dzik, 2002</small>
****[[Ulrichodinidae]]? <small>Bergström, 1981</small>
****''[[Rossodus]]'' <small>Repetski & Ethington, 1983</small>
****[[Multioistodontidae]] <small>Harris, 1964</small> [Dischidognathidae]
****[[Oistodontidae]] <small>Lindström, 1970</small> [Juanognathidae <small>Bergström, 1981</small>]
****[[Periodontidae]] <small>Lindström, 1970</small>
****[[Rhipidognathidae]] <small>Lindström, 1970 sensu Sweet, 1988</small>
****[[Prioniodontidae]] <small>Bassler, 1925</small>
****[[Phragmodontidae]] <small>Bergström, 1981</small> [Cyrtoniodontinae <small>Hass, 1959</small>]
****[[Plectodinidae]] <small>Sweet, 1988</small>
****[[Pygodontidae]]? <small>Bergstrom, 1981</small>
****Icriodontacea
***** [[Balognathidae]] <small>(Hass, 1959)</small>
***** [[Polyplacognathidae]] <small>Bergström, 1981</small>
***** [[Distomodontidae]] <small>Klapper, 1981</small>
***** [[Icriodellidae]] <small>Sweet, 1988</small>
***** [[Icriodontidae]] <small>Müller & Müller, 1957</small>
****Order [[Prioniodinida]] <small>Sweet, 1988</small>
***** [[Oepikodontidae]]? <small>Bergström, 1981</small>
*****[[Xaniognathidae]]? <small>Sweet, 1981</small>
*****[[Chirognathidae]] <small>Branson & Mehl, 1944</small>
*****[[Prioniodinidae]] <small>Bassler, 1925</small> [Hibbardellidae <small>Mueller, 1956</small>]
*****[[Bactrognathidae]] <small>Lindström, 1970</small>
*****[[Ellisoniidae]] <small>Clark, 1972</small>
*****[[Gondolellidae]] <small>Lindström, 1970</small>
****Order [[Ozarkodinida]] <small>Dzik, 1976</small> [Polygnathida]
***** [[Anchignathodontidae]]? <small>Clark, 1972</small>
*****[[Archeognathidae]]? <small>Miller, 1969</small>
*****[[Belodontidae]]? <small>Huddle, 1934</small>
*****[[Coleodontidae]]? <small>Branson & Mehl, 1944</small> [Hibbardellidae <small>Müller, 1956</small>; Loxodontidae]
*****[[Eognathodontidae]]? <small>Bardashev, Weddige & Ziegler, 2002</small>
*****[[Francodinidae]]? <small>Dzik, 2006</small>
*****[[Gladigondolellidae]]? <small>(Hirsch, 1994)</small> [Sephardiellinae <small>Plasencia, Hirsch & Márquez-Aliaga, 2007</small>; Neogondolellinae <small>Hirsch, 1994</small>; Cornudininae <small>Orchard, 2005</small>; Epigondolellinae <small>Orchard, 2005</small>; Marquezellinae <small>Plasencia ''et al.'', 2018</small>; Paragondolellinae <small>Orchard, 2005</small>; Pseudofurnishiidae <small>Ramovs, 1977</small>]
*****[[Iowagnathidae]]? <small>Liu ''et al.'', 2017</small>
*****[[Novispathodontidae]]? <small>(Orchard, 2005)</small>
*****[[Trucherognathidae]]? <small>Branson & Mehl, 1944</small>
*****[[Vjalovognathidae]]? <small>Shen, Yuan & Henderson, 2015</small>
*****[[Wapitiodontidae]]? <small>Orchard, 2005</small>
*****[[Cryptotaxidae]] <small>Klapper & Philip, 1971</small>
*****[[Spathognathodontidae]] <small>Hass, 1959 [</small>Ozarkodinidae <small>Dzik, 1976</small>]
*****[[Pterospathodontidae]] <small>Cooper, 1977</small> [Carniodontidae]
*****[[Kockelellidae]] <small>Klapper, 1981</small> [Caenodontontidae]
*****[[Polygnathidae]] <small>Bassler, 1925</small> [?Eopolygnathidae <small>Bardashev, Weddige & Ziegler, 2002</small>]
*****[[Palmatolepidae]] <small>Sweet, 1988</small>
*****[[Hindeodontidae]] (Hass, 1959)
*****[[Elictognathidae]] <small>Austin & Rhodes, 1981</small>
*****[[Gnathodontidae]] <small>Sweet, 1988</small>
*****[[Idiognathodontidae]] <small>Harris & Hollingsworth, 1933</small>
*****[[Mestognathidae]] <small>Austin & Rhodes, 1981</small>
*****[[Cavusgnathidae]] <small>Austin & Rhodes, 1981</small>
*****[[Sweetognathidae]] <small>Ritter, 1986</small>

==See also==
{{Portal|Paleontology}}
* [[Timeline of the evolutionary history of life]]
* [[Micropaleontology]]
* [[List of conodont genera]]
* [[Conodont biostratigraphy]]
* [[Conodont alteration index]]

== References ==
{{Reflist|30em}}

==Further reading==
* {{Cite journal | doi = 10.1098/rstb.1993.0082 | last1 = Aldridge | first1 = R. J. | last2 = Briggs | first2 = D. E. G. | last3 = Smith | first3 = M. Paul|author-link3=M. Paul Smith | last4 = Clarkson | first4 = E. N. K. | last5 = Clark | first5 = N. D. L. | year = 1993 | title = The anatomy of conodonts | journal = Philosophical Transactions of the Royal Society of London, Series B | volume = 340 | issue = 1294| pages = 405–421 }}
*{{Cite journal | doi = 10.1016/0169-5347(96)10048-3 | last1 = Aldridge | first1 = R. J. | last2 = Purnell | first2 = M. A. | year = 1996 | title = The conodont controversies | journal = Trends in Ecology and Evolution | volume = 11 | issue = 11| pages = 463–468 | pmid = 21237922 | bibcode = 1996TEcoE..11..463A }}
* {{Cite journal | doi = 10.1111/j.1469-185X.1999.tb00045.x | last1 = Donoghue | first1 = P. C. J. | last2 = Forey | first2 = P. L. | last3 = Aldridge | first3 = R. J. | year = 2000 | title = Conodont affinity and chordate phylogeny | journal = Biological Reviews | volume = 75 | issue = 2| pages = 191–251 | pmid = 10881388 | s2cid = 22803015 }}
* Gould, Stephen Jay (1985). "Reducing Riddles". In ''The Flamingo's Smile'', 245-260. New York, W.W. Norton and Company.  {{ISBN|0-393-30375-6}}.
* {{cite web|url=http://tolweb.org/tree?group=Euconodonta&contgroup=Vertebrate|author=Janvier, P|year=1997|access-date=2007-09-05|work = The tree of life web project|title=Euconodonta}}
*Knell, Simon J. ''The Great Fossil Enigma: The Search for the Conodont Animal'' (Indiana University Press; 2012) 440 pages
* Sweet, Walter (1988). ''[[iarchive:conodontamorphol0000swee/mode/1up|The Conodonta: morphology, taxonomy, paleoecology, and evolutionary history of a long-extinct animal phylum]].'' Oxford, [[Clarendon Press]].
* {{Cite journal | doi = 10.1666/0022-3360(2001)075<1174:CPPF>2.0.CO;2 | last1 = Sweet | first1 = W. C. | last2 = Donoghue | first2 = P. C. J. | year = 2001 | title = Conodonts: past, present and future | journal = Journal of Paleontology | volume = 75 | issue = 6| pages = 1174–1184 | bibcode = 2001JPal...75.1174S | s2cid = 53395896 | issn = 0022-3360 | url = https://donoghue.blogs.bristol.ac.uk/files/2019/08/Sweet_Donoghue_2001.pdf | url-status = live | archive-url = https://web.archive.org/web/20221030162538/https://cpb-eu-w2.wpmucdn.com/blogs.bristol.ac.uk/dist/3/589/files/2019/08/Sweet_Donoghue_2001.pdf | archive-date = 2022-10-30 }}
* {{cite journal | doi = 10.1111/j.1502-3931.1970.tb00834.x | volume=3 | title=A suprageneric taxonomy of the conodonts | year=1970 | journal=Lethaia | pages=427–445 | last1 = Lindström | first1 = Maurits| issue=4 | bibcode=1970Letha...3..427L }}

== External links ==
* {{cite web |author=Mark Purnell |url=http://www.le.ac.uk/geology/map2/map2stuff/model.html|title=An oblique anterior view of a model of the apparatus of the Pennsylvanian conodont ''Idiognathodus'' |author-link=Mark Purnell}}
* {{cite web |url=http://palaeos.com/vertebrates/conodonta/index.html |title='The Jaws That Catch': an Introduction to the Conodonta |work=Palæos |access-date=2013-07-01}} 
*{{cite web|title=Ordovician conodonts |date=2002-10-15 |author=Jim Davison |url=http://www.conodonts.com |access-date=2009-07-07}}

{{evolution of fish}}
{{Conodonts|state=autocollapse}}
{{Taxonbar|from=Q586245}}
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[[Category:Conodonts| ]]
[[Category:Furongian first appearances]]
[[Category:Late Triassic extinctions]]
[[Category:Cambrian chordates]]