Chondrichthyes: Difference between revisions
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{{Short description|Class of jawed cartilaginous | {{Short description|Class of jawed cartilaginous fish}} | ||
{{Use dmy dates|date=August 2020}} | {{Use dmy dates|date=August 2020}} | ||
{{Automatic taxobox | {{Automatic taxobox | ||
| name = Cartilaginous fishes | |name = Cartilaginous fishes | ||
| fossil_range = {{Fossil range|439|0}} Early [[Silurian]] ([[Aeronian]]) - Present | |fossil_range = {{Fossil range|439|0}} Early [[Silurian]] ([[Aeronian]]) - Present | ||
| image = Chondrichthyes.jpg | |image = Chondrichthyes.jpg | ||
| image_caption = Example of cartilaginous fishes: [[Elasmobranchii]] | |image_caption = Example of cartilaginous fishes: [[Elasmobranchii]] above, [[Holocephali]] below. | ||
| display_parents = 3 | |display_parents = 3 | ||
| taxon = Chondrichthyes | |taxon = Chondrichthyes | ||
| authority = [[Thomas Henry Huxley|Huxley]], 1880 | |authority = [[Thomas Henry Huxley|Huxley]], 1880 | ||
| subdivision_ranks = Living subgroups and ''[[incertae sedis]]'' | |subdivision_ranks = Living subgroups and ''[[incertae sedis]]'' | ||
| subdivision = * Subclass [[Elasmobranchii]] | |subdivision = * Subclass [[Elasmobranchii]] | ||
** Division [[Shark|Selachii]] | ** Division [[Shark|Selachii]] | ||
*** Order [[Carcharhiniformes]] | *** Order [[Carcharhiniformes]] | ||
| Line 30: | Line 30: | ||
*** Order [[Chimaeriformes]] | *** Order [[Chimaeriformes]] | ||
* ''[[Incertae sedis]]'' | * ''[[Incertae sedis]]'' | ||
**†''[[Bandringa]]''<ref>{{Cite web |title=Mazon Monday #19: Species Spotlight: Bandringa rayi #MazonCreek #fossils #MazonMonday #shark |url=https://www.esconi.org/esconi_earth_science_club/2020/08/mazon-monday-19-species-spotlight-bandringa-rayi-mazoncreek-fossils-mazonmonday-shark.html |access-date=2020-10-04 |website=Earth Science Club of Northern Illinois - ESCONI}}</ref> | **†''[[Bandringa]]''<ref>{{Cite web |title=Mazon Monday #19: Species Spotlight: Bandringa rayi #MazonCreek #fossils #MazonMonday #shark |url=https://www.esconi.org/esconi_earth_science_club/2020/08/mazon-monday-19-species-spotlight-bandringa-rayi-mazoncreek-fossils-mazonmonday-shark.html |access-date=2020-10-04 |website=Earth Science Club of Northern Illinois - ESCONI |date=3 August 2020 }}</ref> | ||
**†''[[Delphyodontos]]''<ref>{{Cite web|url=http://people.sju.edu/~egrogan/BearGulch/pages_fish_species/Delphyodontos_dacriformes.html|title=Bear Gulch - Delphyodontos dacriformes|work=Fossil Fishes of Bear Gulch|access-date=2019-05-15|archive-date=25 February 2015|archive-url=https://web.archive.org/web/20150225041927/http://people.sju.edu/~egrogan/BearGulch/pages_fish_species/Delphyodontos_dacriformes.html | **†''[[Delphyodontos]]''<ref>{{Cite web|url=http://people.sju.edu/~egrogan/BearGulch/pages_fish_species/Delphyodontos_dacriformes.html|title=Bear Gulch - Delphyodontos dacriformes|work=Fossil Fishes of Bear Gulch|access-date=2019-05-15|archive-date=25 February 2015|archive-url=https://web.archive.org/web/20150225041927/http://people.sju.edu/~egrogan/BearGulch/pages_fish_species/Delphyodontos_dacriformes.html}}</ref> | ||
**†[[Listracanthidae]]<ref name="mutter2006">{{cite journal | first1 = R.J. | last1 = Mutter | first2 = A.G. | last2 = Neuman | title = An enigmatic chondrichthyan with Paleozoic affinities from the Lower Triassic of western Canada | journal = Acta Palaeontologica Polonica | volume = 51 | issue = 2 | pages = 271–282 | url = https://www.app.pan.pl/article/item/app51-271.html}}</ref><ref>{{Cite web|title=Fossilworks: Acanthorhachis|url=https://paleobiodb.org/classic/checkTaxonInfo?taxon_no=289828|access-date=17 December 2021|website=fossilworks.org}}</ref> | **†[[Listracanthidae]]<ref name="mutter2006">{{cite journal |first1=R.J. |last1=Mutter |first2=A.G. |last2=Neuman |title=An enigmatic chondrichthyan with Paleozoic affinities from the Lower Triassic of western Canada |journal=Acta Palaeontologica Polonica |volume=51 |issue=2 |pages=271–282 |url=https://www.app.pan.pl/article/item/app51-271.html}}</ref><ref>{{Cite web|title=Fossilworks: Acanthorhachis|url=https://paleobiodb.org/classic/checkTaxonInfo?taxon_no=289828|access-date=17 December 2021|website=fossilworks.org}}</ref> | ||
** †[[Mcmurdodontidae]]<ref>{{Citation |last1=Long |first1=John |title=Fossil chondrichthyan remains from the Middle Devonian Kevington Creek Formation, South Blue Range, Victoria |date=2021-10-28 |url=https://researchnow-admin.flinders.edu.au/ws/portalfiles/portal/48435020/Long_et_al_2021_MId_dev_sharks_Victoria_JOHN_MAISEY_VOLUME.pdf|work=Ancient Fishes and their Living Relatives |pages=239–245 |editor-last=Pradel |editor-first=Alan |access-date=2023-11-30 |place=Munich, Germany |publisher=Verlag, Dr Friedrich Pfeil |isbn=978-3-89937-269-4 |last2=Thomson |first2=Victoria |last3=Burrow |first3=Carole |last4=Turner |first4=Susan |editor2-last=Denton |editor2-first=John S.S. |editor3-last=Janvier |editor3-first=Philippe}}</ref> | ** †[[Mcmurdodontidae]]<ref>{{Citation |last1=Long |first1=John |title=Fossil chondrichthyan remains from the Middle Devonian Kevington Creek Formation, South Blue Range, Victoria |date=2021-10-28 |url=https://researchnow-admin.flinders.edu.au/ws/portalfiles/portal/48435020/Long_et_al_2021_MId_dev_sharks_Victoria_JOHN_MAISEY_VOLUME.pdf|work=Ancient Fishes and their Living Relatives |pages=239–245 |editor-last=Pradel |editor-first=Alan |access-date=2023-11-30 |place=Munich, Germany |publisher=Verlag, Dr Friedrich Pfeil |isbn=978-3-89937-269-4 |last2=Thomson |first2=Victoria |last3=Burrow |first3=Carole |last4=Turner |first4=Susan |editor2-last=Denton |editor2-first=John S.S. |editor3-last=Janvier |editor3-first=Philippe}}</ref> | ||
** †''[[Nanocetorhinus]]''<ref name=UnderwoodetSchlogl>{{cite journal |author=Charlie J. Underwood and Jan Schlogl |year=2012 |title=Deep water chondrichthyans from the Early Miocene of the Vienna Basin (Central Paratethys, Slovakia) |journal=Acta Palaeontologica Polonica |volume=58 |issue=3 |pages=487–509 |url=http://app.pan.pl/article/item/app20110101.html |doi=10.4202/app.2011.0101|doi-access=free }}</ref> | ** †''[[Nanocetorhinus]]''<ref name=UnderwoodetSchlogl>{{cite journal |author=Charlie J. Underwood and Jan Schlogl |year=2012 |title=Deep water chondrichthyans from the Early Miocene of the Vienna Basin (Central Paratethys, Slovakia) |journal=Acta Palaeontologica Polonica |volume=58 |issue=3 |pages=487–509 |url=http://app.pan.pl/article/item/app20110101.html |doi=10.4202/app.2011.0101|doi-access=free }}</ref> | ||
** †''[[Plesioselachus]]''<ref name=": | ** †''[[Plesioselachus]]''<ref name=":anderson">{{cite journal |last1=Anderson |first1=M. Eric |last2=Long |first2=John A. |last3=Gess |first3=Robert W. |last4=Hiller |first4=Norton |year=1999 |title=An unusual new fossil shark (Pisces: Chondrichthyes) from the Late Devonian of South Africa |url=http://museum.wa.gov.au/research/records-supplements/records/unusual-new-fossil-shark-pisces-chondrichthyes-late-devonian-so |journal=Records of the Western Australian Museum |volume=57 |pages=151–156}}</ref> | ||
** †[[Psammodontiformes]] | ** †[[Psammodontiformes]] | ||
}} | }} | ||
'''Chondrichthyes''' ({{IPAc-en|k|ɒ|n|ˈ|d|r|ɪ|k|θ|i|iː|z}}; {{etymology|grc|''{{Wikt-lang|grc|χόνδρος}}'' ({{grc-transl|χόνδρος}})|cartilage||''{{Wikt-lang|grc|ἰχθύς}}'' ({{grc-transl|ἰχθύς}})|fish}}) is a [[class (biology)|class]] of [[jawed fish]] that contains the '''cartilaginous fish''' or '''chondrichthyans''', which all have [[skeleton]]s primarily composed of [[cartilage]]. They can be contrasted with the [[Osteichthyes]] or ''bony fish'', which have skeletons primarily composed of [[bone tissue]]. Chondrichthyes are [[aquatic animal|aquatic]] [[vertebrate]]s with [[paired fins]], paired [[Nostril|nare]]s, [[placoid scale]]s, [[conus arteriosus]] in the [[heart]] | '''Chondrichthyes''' ({{IPAc-en|k|ɒ|n|ˈ|d|r|ɪ|k|θ|i|iː|z}}; {{etymology|grc|''{{Wikt-lang|grc|χόνδρος}}'' ({{grc-transl|χόνδρος}})|cartilage||''{{Wikt-lang|grc|ἰχθύς}}'' ({{grc-transl|ἰχθύς}})|fish}}) is a [[class (biology)|class]] of [[jawed fish]] that contains the '''cartilaginous fish''' or '''chondrichthyans''', which all have [[skeleton]]s primarily composed of [[cartilage]]. They can be contrasted with the [[Osteichthyes]] or ''bony fish'', which have skeletons primarily composed of [[bone tissue]]. Chondrichthyes are [[aquatic animal|aquatic]] [[vertebrate]]s with [[paired fins]], paired [[Nostril|nare]]s, [[placoid scale]]s, and [[conus arteriosus]] in the [[heart]]. Within the infraphylum [[Gnathostomata]], cartilaginous fishes are distinct from all other jawed vertebrates. | ||
The class is divided into two subclasses: [[Elasmobranchii]] ([[shark]]s, [[Batoidea|ray]]s, [[skate (fish)|skate]]s and [[sawfish]]) and [[Holocephali]] ([[chimaera]]s, sometimes called ghost sharks, which are sometimes separated into their own class). Extant chondrichthyans range in size from the {{cvt|10|cm}} [[finless sleeper ray]] to the over {{cvt|10|m}} [[whale shark]]. | The class is divided into two subclasses: [[Elasmobranchii]] ([[shark]]s, [[Batoidea|ray]]s, [[skate (fish)|skate]]s and [[sawfish]]) which lack [[operculum (fish)|opercula]], and [[Holocephali]] ([[chimaera]]s, sometimes called ghost sharks, which are sometimes separated into their own class). Extant chondrichthyans range in size from the {{cvt|10|cm}} [[finless sleeper ray]] to the over {{cvt|10|m}} [[whale shark]].<ref>{{Cite web |title=Chondrichthyan {{!}} Definition, Species, & Facts {{!}} Britannica |url=https://www.britannica.com/animal/chondrichthian |access-date=2025-10-04 |website=www.britannica.com}}</ref> | ||
==Anatomy== | ==Anatomy== | ||
{{See also|Cartilaginous versus bony fishes}} | {{See also|Cartilaginous versus bony fishes}} | ||
===Skeleton=== | ===Skeleton=== | ||
The skeleton is cartilaginous. The [[notochord]] is gradually replaced by a vertebral column during development, except in [[Holocephali]], where the notochord stays intact. In some deepwater sharks, the column is reduced.<ref>{{Cite book|url=https://books.google.com/books?id=cxxSN4YA2i8C&dq=Notochord:+Chimaeroids+%22Some+deepwater+squaloid,+hexanchoid,+and+lamnoid+sharks+%22&pg=PA23|title=Sharks of the World: An Annotated and Illustrated Catalogue of Shark Species Known to Date|first1=Leonard J. V.|last1=Compagno|first2=Food and Agriculture Organization of the United|last2=Nations|date=20 November 2001|publisher=Food & Agriculture Org.|isbn= | |||
The skeleton is cartilaginous. The [[notochord]] is gradually replaced by a vertebral column during development, except in [[Holocephali]], where the notochord stays intact. In some deepwater sharks, the column is reduced.<ref>{{Cite book|url=https://books.google.com/books?id=cxxSN4YA2i8C&dq=Notochord:+Chimaeroids+%22Some+deepwater+squaloid,+hexanchoid,+and+lamnoid+sharks+%22&pg=PA23|title=Sharks of the World: An Annotated and Illustrated Catalogue of Shark Species Known to Date|first1=Leonard J. V.|last1=Compagno|first2=Food and Agriculture Organization of the United|last2=Nations|date=20 November 2001|publisher=Food & Agriculture Org.|isbn=978-92-5-104543-5 |via=Google Books}}</ref> | |||
As they do not have [[bone marrow]], [[red blood cell]]s are produced in the [[spleen]] and the epigonal organ (special tissue around the [[gonad]]s, which is also thought to play a role in the immune system). They are also produced in the [[Leydig's organ]], which is only found in certain cartilaginous fishes. The subclass [[Holocephali]], which is a very specialized group, lacks both the Leydig's and epigonal organs. | As they do not have [[bone marrow]], [[red blood cell]]s are produced in the [[spleen]] and the epigonal organ (special tissue around the [[gonad]]s, which is also thought to play a role in the immune system). They are also produced in the [[Leydig's organ]], which is only found in certain cartilaginous fishes. The subclass [[Holocephali]], which is a very specialized group, lacks both the Leydig's and epigonal organs. | ||
===Appendages=== | ===Appendages=== | ||
Apart from [[electric ray]]s, which have a thick and flabby body, with soft, loose skin, chondrichthyans have tough skin covered with dermal teeth (again, Holocephali is an exception, as the teeth are lost in adults, only kept on the clasping organ seen on the caudal ventral surface of the male), also called [[placoid scale]]s (or ''dermal denticles''), making it feel like sandpaper. In most species, all dermal denticles are oriented in one direction, making the skin feel very smooth if rubbed in one direction and very rough if rubbed in the other. | Apart from [[electric ray]]s, which have a thick and flabby body, with soft, loose skin, chondrichthyans have tough skin covered with dermal teeth (again, Holocephali is an exception, as the teeth are lost in adults, only kept on the clasping organ seen on the caudal ventral surface of the male), also called [[placoid scale]]s (or ''dermal denticles''), making it feel like sandpaper. In most species, all dermal denticles are oriented in one direction, making the skin feel very smooth if rubbed in one direction and very rough if rubbed in the other. | ||
Originally, the pectoral and pelvic girdles, which do not contain any dermal elements, did not connect. In later forms, each pair of fins became ventrally connected in the middle when scapulocoracoid and puboischiadic bars evolved. In [[Batoidea|rays]], the pectoral fins are connected to the head and are very flexible. | Originally, the pectoral and pelvic girdles, which do not contain any dermal elements, did not connect. In later forms, each pair of fins became ventrally connected in the middle when scapulocoracoid and puboischiadic bars evolved. In [[Batoidea|rays]], the pectoral fins are connected to the head and are very flexible. | ||
One of the primary characteristics present in most sharks is the heterocercal tail, which aids in locomotion.<ref>{{cite journal |first1=C. D. |last1=Wilga |first2=G. V. |last2=Lauder |title=Function of the heterocercal tail in sharks: quantitative wake dynamics during steady horizontal swimming and vertical maneuvering |journal=[[Journal of Experimental Biology]] |volume=205 |issue=16 |pages=2365–2374 |year=2002 |doi=10.1242/jeb.205.16.2365 |url=http://jeb.biologists.org/content/205/16/2365.short |pmid=12124362|url-access=subscription }}</ref> | One of the primary characteristics present in most sharks is the heterocercal tail, which aids in locomotion.<ref>{{cite journal |first1=C. D. |last1=Wilga |first2=G. V. |last2=Lauder |title=Function of the heterocercal tail in sharks: quantitative wake dynamics during steady horizontal swimming and vertical maneuvering |journal=[[Journal of Experimental Biology]] |volume=205 |issue=16 |pages=2365–2374 |year=2002 |doi=10.1242/jeb.205.16.2365 |url=http://jeb.biologists.org/content/205/16/2365.short |pmid=12124362|bibcode=2002JExpB.205.2365W |url-access=subscription }}</ref> | ||
===Body covering=== | ===Body covering=== | ||
Chondrichthyans have tooth-like scales called [[dermal denticle]]s or placoid scales. Denticles usually provide protection, and in most cases, streamlining. Mucous glands exist in some species, as well. | Chondrichthyans have tooth-like scales called [[dermal denticle]]s or placoid scales. Denticles usually provide protection, and in most cases, streamlining. Mucous glands exist in some species, as well. | ||
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===Respiratory system=== | ===Respiratory system=== | ||
A spiracle is a small hole | All chondrichthyans breathe through five to seven pairs of [[gill]]s, depending on the species. In general, pelagic species must keep swimming to keep oxygenated water moving through their gills, whilst demersal species can actively pump water in through their [[Spiracle (vertebrates)|spiracles]] and out through their gills.<ref>{{Cite web |last=Long |first=Douglas |date=September 8, 1998 |title=Chondrichthyan/Form and function |url=https://www.britannica.com/animal/chondrichthian/Form-and-function |url-status=live |access-date=Mar 29, 2026 |website=Britannica}}</ref> However, this is only a general rule and many species differ. | ||
A spiracle is a small hole behind each eye. These can be tiny and circular, such as found on the nurse shark (''Ginglymostoma cirratum''), to extended and slit-like, such as found on the wobbegongs (Orectolobidae). Many larger, pelagic species, such as the mackerel sharks (Lamnidae) and the thresher sharks (Alopiidae), no longer possess them. | |||
===Nervous system=== | ===Nervous system=== | ||
[[File:Skate Brain Regions.png|thumb|Regions of a Chondrichthyes brain colored and labeled on dissected skate. The [[Anatomical terms of location# | |||
In chondrichthyans, the nervous system is composed of a small brain, 8–10 pairs of cranial nerves, and a spinal cord with spinal nerves.<ref>{{ | [[File:Skate Brain Regions.png|thumb|Regions of a Chondrichthyes brain colored and labeled on dissected skate. The [[Anatomical terms of location#Rostral, cranial, and caudal|rostral]] end of the skate is to the right.]] | ||
In chondrichthyans, the nervous system is composed of a small brain, 8–10 pairs of cranial nerves, and a spinal cord with spinal nerves.<ref>{{cite journal |last=Collin |first=Shaun P. |date=2012 |title=The Neuroecology of Cartilaginous Fishes: Sensory Strategies for Survival |journal=Brain, Behavior and Evolution |volume=80 |issue=2 |pages=80–96 |doi=10.1159/000339870 |pmid=22986825 |s2cid=207717002}}</ref> They have several sensory organs that provide information to be processed. [[Ampullae of Lorenzini]] are a network of small jelly-filled pores called [[Electroreception|electroreceptors]] which help the fish sense electric fields in water. This aids in finding prey, navigation, and sensing temperature. The [[lateral line]] system has modified epithelial cells located externally that sense motion, vibration, and pressure in the water around them. Most species have large, well-developed eyes. Also, they have very powerful nostrils and [[Olfactory bulb|olfactory]] organs. Their inner ears consist of 3 large [[semicircular canals]] which aid in balance and orientation. Their sound-detecting apparatus has a limited range and is typically more powerful at lower frequencies. Some species have [[Electric organ (biology)|electric organs]] which can be used for defense and predation. They have relatively simple brains with the forebrain not greatly enlarged. The structure and formation of myelin in their nervous systems are nearly identical to that of tetrapods, which has led evolutionary biologists to believe that Chondrichthyes were a cornerstone group in the evolutionary timeline of myelin development.<ref>{{cite journal |last=de Bellard |first=Maria Elena |date=2016-06-15 |title=Myelin in cartilaginous fish |journal=Brain Research |volume=1641 |issue=Pt A |pages=34–42 |doi=10.1016/j.brainres.2016.01.013 |pmc=4909530 |pmid=26776480}}</ref> | |||
===Immune system=== | ===Immune system=== | ||
Like all other jawed vertebrates, members of Chondrichthyes have an [[adaptive immune system#Evolution|adaptive immune system]].<ref name=ref1>{{cite journal |last1=Flajnik |first1=M. F. |first2=M. |last2=Kasahara |title=Origin and evolution of the adaptive immune system: genetic events and selective pressures |journal=[[Nature Reviews Genetics]] |volume=11 |issue=1 |pages=47–59 |year=2009 |doi=10.1038/nrg2703 |pmid=19997068 |pmc=3805090}}</ref> | Like all other jawed vertebrates, members of Chondrichthyes have an [[adaptive immune system#Evolution|adaptive immune system]].<ref name=ref1>{{cite journal |last1=Flajnik |first1=M. F. |first2=M. |last2=Kasahara |title=Origin and evolution of the adaptive immune system: genetic events and selective pressures |journal=[[Nature Reviews Genetics]] |volume=11 |issue=1 |pages=47–59 |year=2009 |doi=10.1038/nrg2703 |pmid=19997068 |pmc=3805090}}</ref> | ||
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Fertilization is internal. Development is usually live birth ([[ovoviviparous]] species) but can be through eggs ([[oviparous]]). Some rare species are [[viviparous]]. There is no parental care after birth; however, some chondrichthyans do guard their eggs. | Fertilization is internal. Development is usually live birth ([[ovoviviparous]] species) but can be through eggs ([[oviparous]]). Some rare species are [[viviparous]]. There is no parental care after birth; however, some chondrichthyans do guard their eggs. | ||
Capture-induced premature birth and abortion (collectively called capture-induced parturition) occurs frequently in sharks | Capture-induced premature birth and abortion (collectively called capture-induced parturition) occurs frequently in sharks and rays when fished.<ref name="Adams">{{cite journal |last1=Adams |first1=Kye R. |last2=Fetterplace |first2=Lachlan C. |last3=Davis |first3=Andrew R. |last4=Taylor |first4=Matthew D. |last5=Knott |first5=Nathan A. |title=Sharks, rays and abortion: The prevalence of capture-induced parturition in elasmobranchs |journal=Biological Conservation |date=January 2018 |volume=217 |pages=11–27 |doi=10.1016/j.biocon.2017.10.010 |bibcode=2018BCons.217...11A |s2cid=90834034 |url=http://marxiv.org/k2qvy/ |access-date=18 January 2019 |archive-date=23 February 2019 |archive-url=https://web.archive.org/web/20190223020619/https://marxiv.org/k2qvy/}}</ref> Capture-induced parturition is often mistaken for natural birth by recreational fishers and is rarely considered in commercial fisheries management despite being shown to occur in at least 12% of live bearing sharks and rays (88 species to date).<ref name="Adams"/> | ||
==Classification== | ==Classification== | ||
{| class="wikitable" | The class Chondrichthyes has two subclasses: the subclass [[Elasmobranchii]] ([[shark]]s, [[Batoidea|rays, skates, and sawfish]]) and the subclass [[Holocephali]] ([[chimaera]]s). To see the full list of the species, click [[full list of cartilaginous fish|here]]. | ||
{|class="wikitable" | |||
|- | |- | ||
! colspan=3 | [[Subclass (biology)|Subclasses]] of cartilaginous fishes | ! colspan=3 |[[Subclass (biology)|Subclasses]] of cartilaginous fishes | ||
|- | |- | ||
! [[Elasmobranchii]] | ! [[Elasmobranchii]] | ||
| <span style="{{MirrorH}}">[[File:White shark (Duane Raver).png|140px]]</span>{{center|[[Sharks]]}} | |<span style="{{MirrorH}}">[[File:White shark (Duane Raver).png|140px]]</span>{{center|[[Sharks]]}} | ||
[[File:Myliobatis aquila sasrája.jpg|140px|right]]{{center|and [[Batoidea|rays, skates, and sawfish]]}} | [[File:Myliobatis aquila sasrája.jpg|140px|right]]{{center|and [[Batoidea|rays, skates, and sawfish]]}} | ||
| valign=top | [[Elasmobranchii]] is a subclass that includes the [[shark]]s and the [[Batoidea|rays and skates]]. Members of the elasmobranchii have no [[swim bladders]], five to seven pairs of [[gill]] clefts opening individually to the exterior, rigid [[dorsal fins]], and small [[placoid scale]]s. The teeth are in several series; the upper jaw is not fused to the cranium, and the lower jaw is articulated with the upper. The [[Vision in fishes|eyes]] have a [[tapetum lucidum]]. The inner margin of each pelvic fin in the male fish is grooved to constitute a [[clasper]] for the transmission of [[sperm]]. These fish are widely distributed in [[tropical]] and [[temperate]] waters.<ref>{{cite book | | |valign=top |[[Elasmobranchii]] is a subclass that includes the [[shark]]s and the [[Batoidea|rays and skates]]. Members of the elasmobranchii have no [[swim bladders]], five to seven pairs of [[gill]] clefts opening individually to the exterior, rigid [[dorsal fins]], and small [[placoid scale]]s. The teeth are in several series; the upper jaw is not fused to the cranium, and the lower jaw is articulated with the upper. The [[Vision in fishes|eyes]] have a [[tapetum lucidum]]. The inner margin of each pelvic fin in the male fish is grooved to constitute a [[clasper]] for the transmission of [[sperm]]. These fish are widely distributed in [[tropical]] and [[temperate]] waters.<ref>{{cite book | | ||
last = Bigelow| first = Henry B. | | last=Bigelow|first=Henry B. | | ||
authorlink = Henry Bryant Bigelow|author2=Schroeder, William C. | | authorlink=Henry Bryant Bigelow|author2=Schroeder, William C. | | ||
title = Fishes of the Western North Atlantic | | title=Fishes of the Western North Atlantic | | ||
publisher = Sears Foundation for Marine Research, Yale University | | publisher=Sears Foundation for Marine Research, Yale University | | ||
year = 1948 | | year=1948 | | ||
pages = 64–65 | | pages=64–65 | | ||
asin= B000J0D9X6| author-link2 = Schroeder, William C }}</ref> | asin= B000J0D9X6|author-link2=Schroeder, William C }}</ref> | ||
|- | |- | ||
! [[Holocephali]] | ! [[Holocephali]] | ||
| [[File:Chimaera monstrosa1.jpg|140px]]{{center|[[Chimaeras]]}} | |[[File:Chimaera monstrosa1.jpg|140px]]{{center|[[Chimaeras]]}} | ||
| [[Holocephali]] ''(complete-heads)'' is a subclass of which the [[order (biology)|order]] [[Chimaeriformes]] is the only surviving group. This group includes the rat fishes (e.g., ''[[Chimaera]]''), rabbit-fishes (e.g., ''[[Hydrolagus]]'') and elephant-fishes (''[[Callorhynchus]]''). Today, they preserve some features of elasmobranch life in Paleaozoic times, though in other respects they are aberrant. They live close to the bottom and feed on molluscs and other invertebrates. The tail is long and thin and they move by sweeping movements of the large pectoral fins. There is an erectile spine in front of the dorsal fin, sometimes poisonous. There is no stomach (that is, the gut is simplified and the 'stomach' is merged with the intestine), and the mouth is a small aperture surrounded by lips, giving the head a parrot-like appearance. | |[[Holocephali]] ''(complete-heads)'' is a subclass of which the [[order (biology)|order]] [[Chimaeriformes]] is the only surviving group. This group includes the rat fishes (e.g., ''[[Chimaera]]''), rabbit-fishes (e.g., ''[[Hydrolagus]]'') and elephant-fishes (''[[Callorhynchus]]''). Today, they preserve some features of elasmobranch life in Paleaozoic times, though in other respects they are aberrant. They live close to the bottom and feed on molluscs and other invertebrates. The tail is long and thin and they move by sweeping movements of the large pectoral fins. There is an erectile spine in front of the dorsal fin, sometimes poisonous. There is no stomach (that is, the gut is simplified and the 'stomach' is merged with the intestine), and the mouth is a small aperture surrounded by lips, giving the head a parrot-like appearance. | ||
The fossil record of the Holocephali starts in the [[Devonian]] period. The record is extensive, but most fossils are teeth, and the body forms of numerous species are not known, or at best poorly understood. | The fossil record of the Holocephali starts in the [[Devonian]] period. The record is extensive, but most fossils are teeth, and the body forms of numerous species are not known, or at best poorly understood. | ||
|} | |} | ||
{| class="wikitable" | {|class="wikitable" | ||
|- | |- | ||
! colspan=13 | Extant [[Order (biology)|orders]] of cartilaginous fishes | ! colspan=13 |Extant [[Order (biology)|orders]] of cartilaginous fishes | ||
|- | |- | ||
! rowspan=2 | Group | ! rowspan=2 |Group | ||
! rowspan=2 | Order | ! rowspan=2 |Order | ||
! rowspan=2 | Image | ! rowspan=2 |Image | ||
! rowspan=2 | Common name | ! rowspan=2 |Common name | ||
! rowspan=2 | Authority | ! rowspan=2 |Authority | ||
! rowspan=2 | Families | ! rowspan=2 |Families | ||
! rowspan=2 | Genera | ! rowspan=2 |Genera | ||
! colspan=4 | Species | ! colspan=4 |Species | ||
! rowspan=2 | Note | ! rowspan=2 |Note | ||
|- | |- | ||
! Total | ! Total | ||
| Line 129: | Line 137: | ||
! [[File:VU IUCN 3 1.svg]] | ! [[File:VU IUCN 3 1.svg]] | ||
|- | |- | ||
| align=center style="background:rgb(110,110,170)" rowspan=4 | [[Galean shark|<span style="color:white;">Galean<br />sharks</span>]] | |align=center style="background:rgb(110,110,170)" rowspan=4 |[[Galean shark|<span style="color:white;">Galean<br />sharks</span>]] | ||
| align=center style="background:rgb(140,140,190)" | [[Carcharhiniformes|<span style="color:white;">Carcharhiniformes</span>]] | |align=center style="background:rgb(140,140,190)" |[[Carcharhiniformes|<span style="color:white;">Carcharhiniformes</span>]] | ||
| [[File: | |<span style="{{MirrorH}}">[[File:Great hammerhead (Duane Raver).png|140px]]</span> | ||
| align=center | [[ground sharks|ground<br />sharks]] | |align=center |[[ground sharks|ground<br />sharks]] | ||
| align=center | <small>[[Leonard Compagno|Compagno]], 1977</small> | |align=center |<small>[[Leonard Compagno|Compagno]], 1977</small> | ||
| align=center | 8 | |align=center |8 | ||
| align=center | 51 | |align=center |51 | ||
| align=center | >270 | |align=center |>270 | ||
| align=center | 7 | |align=center |7 | ||
| align=center | 10 | |align=center |10 | ||
| align=center | 21 | |align=center |21 | ||
| valign=top | | |valign=top | | ||
|- | |- | ||
| align=center style="background:rgb(125,125,180)" | [[Heterodontiformes|<span style="color:white;">Heterodontiformes</span>]] | |align=center style="background:rgb(125,125,180)" |[[Heterodontiformes|<span style="color:white;">Heterodontiformes</span>]] | ||
| [[File: | |<span style="{{MirrorH}}">[[File:Heterodontus zebra.jpg|140px]]</span> | ||
| align=center | [[bullhead sharks|bullhead<br />sharks]] | |align=center |[[bullhead sharks|bullhead<br />sharks]] | ||
| align=center | <small>[[Lev Berg|L. S. Berg]], 1940</small> | |align=center |<small>[[Lev Berg|L. S. Berg]], 1940</small> | ||
| align=center | 1 | |align=center |1 | ||
| align=center | 1 | |align=center |1 | ||
| align=center | 9 | |align=center |9 | ||
| align=center | | |align=center | | ||
| align=center | | |align=center | | ||
| align=center | | |align=center | | ||
| valign=top | | |valign=top | | ||
|- | |- | ||
| align=center style="background:rgb(140,140,190)" | [[Lamniformes|<span style="color:white;">Lamniformes</span>]] | |align=center style="background:rgb(140,140,190)" |[[Lamniformes|<span style="color:white;">Lamniformes</span>]] | ||
| [[File:White shark. | |<span style="{{MirrorH}}">[[File:White shark (Duane Raver).png|140px]]</span> | ||
| align=center | [[mackerel sharks|mackerel<br />sharks]] | |align=center |[[mackerel sharks|mackerel<br />sharks]] | ||
| align=center | <small>[[Lev Berg|L. S. Berg]], 1958</small> | |align=center |<small>[[Lev Berg|L. S. Berg]], 1958</small> | ||
| align=center | 7<br /><small>+2 extinct</small> | |align=center |7<br /><small>+2 extinct</small> | ||
| align=center | 10 | |align=center |10 | ||
| align=center | 16 | |align=center |16 | ||
| align=center | | |align=center | | ||
| align=center | | |align=center | | ||
| align=center | 10 | |align=center |10 | ||
| valign=top | | |valign=top | | ||
|- | |- | ||
| align=center style="background:rgb(125,125,180)" | [[Orectolobiformes|<span style="color:white;">Orectolobiformes</span>]] | |align=center style="background:rgb(125,125,180)" |[[Orectolobiformes|<span style="color:white;">Orectolobiformes</span>]] | ||
| [[File: | |[[File:Rhinodon typicus (white background).jpg|140px]] | ||
| align=center | [[carpet sharks|carpet<br />sharks]] | |align=center |[[carpet sharks|carpet<br />sharks]] | ||
| align=center | <small>Applegate, 1972</small> | |align=center |<small>Applegate, 1972</small> | ||
| align=center | 7 | |align=center |7 | ||
| align=center | 13 | |align=center |13 | ||
| align=center | 43 | |align=center |43 | ||
| align=center | | |align=center | | ||
| align=center | | |align=center | | ||
| align=center | 7 | |align=center |7 | ||
| valign=top | | |valign=top | | ||
|- | |- | ||
| align=center style="background:rgb(110,110,170)" rowspan=4 | [[Squalomorphi|<span style="color:white;">Squalomorph<br />sharks</span>]] | |align=center style="background:rgb(110,110,170)" rowspan=4 |[[Squalomorphi|<span style="color:white;">Squalomorph<br />sharks</span>]] | ||
| align=center style="background:rgb(140,140,190)" | [[Hexanchiformes|<span style="color:white;">Hexanchiformes</span>]] | |align=center style="background:rgb(140,140,190)" |[[Hexanchiformes|<span style="color:white;">Hexanchiformes</span>]] | ||
| [[File: | |<span style="{{MirrorH}}">[[File:Chlamydoselachus anguineus1.jpg|140px]]</span> | ||
| align=center | [[Hexanchiformes|frilled<br />and<br />cow sharks]] | |align=center |[[Hexanchiformes|frilled<br />and<br />cow sharks]] | ||
| align=center | <small>[[Don Fernando de Buen y Lozano|de Buen]], 1926</small> | |align=center |<small>[[Don Fernando de Buen y Lozano|de Buen]], 1926</small> | ||
| align=center | 2<br /><small>+3 extinct</small> | |align=center |2<br /><small>+3 extinct</small> | ||
| align=center | 4<br /><small>+11 extinct</small> | |align=center |4<br /><small>+11 extinct</small> | ||
| align=center | 7<br /><small>+33 extinct</small> | |align=center |7<br /><small>+33 extinct</small> | ||
| align=center | | |align=center | | ||
| align=center | | |align=center | | ||
| align=center | | |align=center | | ||
| valign=top | | |valign=top | | ||
|- | |- | ||
| align=center style="background:rgb(125,125,180)" | [[Pristiophoriformes|<span style="color:white;">Pristiophoriformes</span>]] | |align=center style="background:rgb(125,125,180)" |[[Pristiophoriformes|<span style="color:white;">Pristiophoriformes</span>]] | ||
| [[File:Pristiophorus | |[[File:Pristiophorus nudipinnis McCoy.jpg|140px]] | ||
| align=center | [[sawsharks]] | |align=center |[[sawsharks]] | ||
| align=center | <small>[[Lev Berg|L. S. Berg]], 1958</small> | |align=center |<small>[[Lev Berg|L. S. Berg]], 1958</small> | ||
| align=center | 1 | |align=center |1 | ||
| align=center | 2 | |align=center |2 | ||
| align=center | 6 | |align=center |6 | ||
| align=center | | |align=center | | ||
| align=center | | |align=center | | ||
| align=center | | |align=center | | ||
| valign=top | | |valign=top | | ||
|- | |- | ||
| align=center style="background:rgb(140,140,190)" | [[Squaliformes|<span style="color:white;">Squaliformes</span>]] | |align=center style="background:rgb(140,140,190)" |[[Squaliformes|<span style="color:white;">Squaliformes</span>]] | ||
| [[File:Spiny dogfish. | |<span style="{{MirrorH}}">[[File:Spiny dogfish (Duane Raver).png|140px]]</span> | ||
| align=center | [[dogfish sharks|dogfish<br />sharks]] | |align=center |[[dogfish sharks|dogfish<br />sharks]] | ||
| align=center | <small>[[Edwin Stephen Goodrich|Goodrich]], 1909</small> | |align=center |<small>[[Edwin Stephen Goodrich|Goodrich]], 1909</small> | ||
| align=center | 7 | |align=center |7 | ||
| align=center | 23 | |align=center |23 | ||
| align=center | 126 | |align=center |126 | ||
| align=center | 1 | |align=center |1 | ||
| align=center | | |align=center | | ||
| align=center | 6 | |align=center |6 | ||
| valign=top | | |valign=top | | ||
|- | |- | ||
| align=center style="background:rgb(125,125,180)" | [[Squatiniformes|<span style="color:white;">Squatiniformes</span>]] | |align=center style="background:rgb(125,125,180)" |[[Squatiniformes|<span style="color:white;">Squatiniformes</span>]] | ||
| [[File:Squatina angelus - Gervais.jpg|140px]] | |[[File:Squatina angelus - Gervais.jpg|140px]] | ||
| align=center | [[angel sharks|angel<br />sharks]] | |align=center |[[angel sharks|angel<br />sharks]] | ||
| align=center | <small>[[Don Fernando de Buen y Lozano|Buen]], 1926</small> | |align=center |<small>[[Don Fernando de Buen y Lozano|Buen]], 1926</small> | ||
| align=center | 1 | |align=center |1 | ||
| align=center | 1 | |align=center |1 | ||
| align=center | 24 | |align=center |24 | ||
| align=center | 3 | |align=center |3 | ||
| align=center | 4 | |align=center |4 | ||
| align=center | 5 | |align=center |5 | ||
| valign=top | | |valign=top | | ||
|- | |- | ||
| align=center style="background:rgb(110,110,170)" rowspan=4 | [[Batoidea|<span style="color:white;">Rays</span>]] | |align=center style="background:rgb(110,110,170)" rowspan=4 |[[Batoidea|<span style="color:white;">Rays</span>]] | ||
| align=center style="background:rgb(140,140,190)" | [[Myliobatiformes|<span style="color:white;">Myliobatiformes</span>]] | |align=center style="background:rgb(140,140,190)" |[[Myliobatiformes|<span style="color:white;">Myliobatiformes</span>]] | ||
| [[File:Myliobatis aquila sasrája.jpg|140px]] | |[[File:Myliobatis aquila sasrája.jpg|140px]] | ||
| align=center | [[Myliobatiformes|stingrays<br />and<br />relatives]] | |align=center |[[Myliobatiformes|stingrays<br />and<br />relatives]] | ||
| align=center | <small>[[Leonard Joseph Victor Compagno|Compagno]], 1973</small> | |align=center |<small>[[Leonard Joseph Victor Compagno|Compagno]], 1973</small> | ||
| align=center | 10 | |align=center |10 | ||
| align=center | 29 | |align=center |29 | ||
| align=center | 223 | |align=center |223 | ||
| align=center | 1 | |align=center |1 | ||
| align=center | 16 | |align=center |16 | ||
| align=center | 33 | |align=center |33 | ||
| valign=top | | |valign=top | | ||
|- | |- | ||
| align=center style="background:rgb(125,125,180)" | [[Rhinopristiformes|<span style="color:white;">Rhinopristiformes</span>]] | |align=center style="background:rgb(125,125,180)" |[[Rhinopristiformes|<span style="color:white;">Rhinopristiformes</span>]] | ||
| [[File: | |[[File:Pristis microdon.jpg|140px]] | ||
| align=center | [[sawfishes]] | |align=center |[[sawfishes]] | ||
| align=center | | |align=center | | ||
| align=center | 1 | |align=center |1 | ||
| align=center | 2 | |align=center |2 | ||
| align=center | 5–7 | |align=center |5–7 | ||
| align=center | 5–7 | |align=center |5–7 | ||
| align=center | | |align=center | | ||
| align=center | | |align=center | | ||
| valign=top | | |valign=top | | ||
|- | |- | ||
| align=center style="background:rgb(140,140,190)" | [[Rajiformes|<span style="color:white;">Rajiformes</span>]] | |align=center style="background:rgb(140,140,190)" |[[Rajiformes|<span style="color:white;">Rajiformes</span>]] | ||
| [[File:Amblyraja hyperborea1.jpg|140px]] | |[[File:Amblyraja hyperborea1.jpg|140px]] | ||
| align=center | [[Rajiformes|skates<br />and<br />guitarfishes]] | |align=center |[[Rajiformes|skates<br />and<br />guitarfishes]] | ||
| align=center | <small>[[Lev Berg|L. S. Berg]], 1940</small> | |align=center |<small>[[Lev Berg|L. S. Berg]], 1940</small> | ||
| align=center | 5 | |align=center |5 | ||
| align=center | 36 | |align=center |36 | ||
| align=center | >270 | |align=center |>270 | ||
| align=center | 4 | |align=center |4 | ||
| align=center | 12 | |align=center |12 | ||
| align=center | 26 | |align=center |26 | ||
| valign=top | | |valign=top | | ||
|- | |- | ||
| align=center style="background:rgb(125,125,180)" | [[Torpediniformes|<span style="color:white;">Torpediniformes</span>]] | |align=center style="background:rgb(125,125,180)" |[[Torpediniformes|<span style="color:white;">Torpediniformes</span>]] | ||
| [[File: | |[[File:Narcine tasmaniensis by richardson.png|140px]] | ||
| align=center | [[electric rays|electric<br />rays]] | |align=center |[[electric rays|electric<br />rays]] | ||
| align=center | <small>[[Don Fernando de Buen y Lozano|de Buen]], 1926</small> | |align=center |<small>[[Don Fernando de Buen y Lozano|de Buen]], 1926</small> | ||
| align=center | 2 | |align=center |2 | ||
| align=center | 12 | |align=center |12 | ||
| align=center | 69 | |align=center |69 | ||
| align=center | 2 | |align=center |2 | ||
| align=center | | |align=center | | ||
| align=center | 9 | |align=center |9 | ||
| valign=top | | |valign=top | | ||
|- | |- | ||
| align=center style="background:rgb(110,110,170)" rowspan=1 | [[Holocephali|<span style="color:white;">Holocephali</span>]] | |align=center style="background:rgb(110,110,170)" rowspan=1 |[[Holocephali|<span style="color:white;">Holocephali</span>]] | ||
| align=center style="background:rgb(140,140,190)" | [[Chimaeriformes|<span style="color:white;">Chimaeriformes</span>]] | |align=center style="background:rgb(140,140,190)" |[[Chimaeriformes|<span style="color:white;">Chimaeriformes</span>]] | ||
| [[File:Chimaera | |[[File:Chimaera monstrosa1.jpg|140px]] | ||
| align=center | [[chimaera]] | |align=center |[[chimaera]] | ||
| align=center | <small>[[Dmitry Obruchev|Obruchev]], 1953</small> | |align=center |<small>[[Dmitry Obruchev|Obruchev]], 1953</small> | ||
| align=center | 3<br /><small>+2 extinct</small> | |align=center |3<br /><small>+2 extinct</small> | ||
| align=center | 6<br /><small>+3 extinct</small> | |align=center |6<br /><small>+3 extinct</small> | ||
| align=center | 39<br /><small>+17 extinct</small> | |align=center |39<br /><small>+17 extinct</small> | ||
| align=center | | |align=center | | ||
| align=center | | |align=center | | ||
| align=center | | |align=center | | ||
| valign=top | | |valign=top | | ||
|} | |} | ||
{| class="wikitable collapsible collapsed" | {|class="wikitable collapsible collapsed" | ||
! width=450px | Taxonomy according to [[Leonard Compagno]], 2005<ref>{{cite book|publisher = Princeton University Press|author1-link =Leonard Compagno|first1= Leonard|last1 = Compagno|first2= Marc |last2 =Dando|first3= Sarah L.|last3 = Fowler |date = 2005|title =Sharks of the World|isbn = | ! width=450px |Taxonomy according to [[Leonard Compagno]], 2005<ref>{{cite book|publisher=Princeton University Press|author1-link =Leonard Compagno|first1= Leonard|last1=Compagno|first2= Marc |last2 =Dando|first3= Sarah L.|last3=Fowler |date=2005|title =Sharks of the World|isbn=978-0-691-12072-0}}</ref> with additions from <ref>{{cite book|last=Haaramo, Mikko|title=''Chondrichthyes – Sharks, Rays and Chimaeras'' |access-date=22 October 2013 |url=http://www.helsinki.fi/~mhaaramo/metazoa/deuterostoma/chordata/chondrichthyes/chondrichthyes.html#Elasmobranchii}}</ref> | ||
|- | |- | ||
| | | | ||
| Line 308: | Line 316: | ||
***†Order [[Debeeriiformes]] <small>Grogan & Lund, 2000</small> | ***†Order [[Debeeriiformes]] <small>Grogan & Lund, 2000</small> | ||
***†Order [[Eugeneodontiformes]] <small>Zangerl, 1981</small> | ***†Order [[Eugeneodontiformes]] <small>Zangerl, 1981</small> | ||
**Superorder Holocephalimorpha | **Superorder Holocephalimorpha | ||
***†Order [[Psammodontiformes]]* <small>Obruchev, 1953</small> | ***†Order [[Psammodontiformes]]* <small>Obruchev, 1953</small> | ||
***†Order [[Copodontiformes]] <small>Obručhev, 1953</small> | ***†Order [[Copodontiformes]] <small>Obručhev, 1953</small> | ||
***†Order [[Squalorajiformes]] | ***†Order [[Squalorajiformes]] | ||
***†Order [[Chondrenchelyiformes]] <small>[[J. A. Moy-Thomas|Moy-Thomas]], 1939</small> | ***†Order [[Chondrenchelyiformes]] <small>[[J. A. Moy-Thomas|Moy-Thomas]], 1939</small> | ||
***†Order [[Menaspiformes]] | ***†Order [[Menaspiformes]] | ||
***†Order [[Cochliodontiformes]] <small>Obručhev, 1953</small> | ***†Order [[Cochliodontiformes]] <small>Obručhev, 1953</small> | ||
***Order [[Chimaeriformes]] <small>Berg, 1940 sensu Obručhev, 1953</small> (chimaeras) | ***Order [[Chimaeriformes]] <small>Berg, 1940 sensu Obručhev, 1953</small> (chimaeras) | ||
*Subclass [[Elasmobranchii]] | *Subclass [[Elasmobranchii]] | ||
**†''[[Plesioselachus]]'' | **†''[[Plesioselachus]]'' | ||
**†Order [[Antarctilamniformes]] <small>Ginter, Liao & Valenzuela-Rios, 2008</small> | **†Order [[Antarctilamniformes]] <small>Ginter, Liao & Valenzuela-Rios, 2008</small> | ||
**†Order [[Elegestolepidiformes]] <small>Andreev ''et al.'', 2016</small> | **†Order [[Elegestolepidiformes]] <small>Andreev ''et al.'', 2016</small> | ||
| Line 323: | Line 331: | ||
**†Order [[Squatinactiformes]] <small>Zangerl, 1981</small> | **†Order [[Squatinactiformes]] <small>Zangerl, 1981</small> | ||
**†Order [[Protacrodontiformes]] <small>Zangerl, 1981</small> | **†Order [[Protacrodontiformes]] <small>Zangerl, 1981</small> | ||
**†Infraclass Cladoselachimorpha | **†Infraclass Cladoselachimorpha | ||
***†Order [[Cladoselachiformes]] <small>Dean, 1909</small> | ***†Order [[Cladoselachiformes]] <small>Dean, 1909</small> | ||
**†Infraclass Xenacanthimorpha <small>Berg, 1940</small> | **†Infraclass Xenacanthimorpha <small>Berg, 1940</small> | ||
| Line 330: | Line 338: | ||
**Infraclass Euselachii (sharks and rays) | **Infraclass Euselachii (sharks and rays) | ||
***†Order [[Altholepidiformes]] <small>Andreev ''et al.'', 2015</small> | ***†Order [[Altholepidiformes]] <small>Andreev ''et al.'', 2015</small> | ||
***†Order [[Polymerolepidiformes]] | ***†Order [[Polymerolepidiformes]] | ||
***†Order [[Ptychodontiformes]] | ***†Order [[Ptychodontiformes]] | ||
***†Order [[Ctenacanthiformes]] <small>Zangerl, 1981</small> | ***†Order [[Ctenacanthiformes]] <small>Zangerl, 1981</small> | ||
***†Division Hybodonta | ***†Division Hybodonta | ||
| Line 363: | Line 371: | ||
{{Further|List of transitional fossils#Chondrichthyes|List of prehistoric cartilaginous fish}} | {{Further|List of transitional fossils#Chondrichthyes|List of prehistoric cartilaginous fish}} | ||
Cartilaginous fish are considered to have evolved from [[acanthodians]]. The discovery of ''[[Entelognathus]]'' and several examinations of acanthodian characteristics indicate that bony fish evolved directly from placoderm like ancestors, while acanthodians represent a paraphyletic assemblage leading to Chondrichthyes. Some characteristics previously thought to be exclusive to acanthodians are also present in basal cartilaginous fish.<ref>{{cite journal |author1=Min Zhu |author2=Xiaobo Yu |author3=Per Erik Ahlberg |author4=Brian Choo |author5=Jing Lu |author6=Tuo Qiao |author7=Qingming Qu |author8=Wenjin Zhao |author9=Liantao Jia |author10=Henning Blom |author11=You'an Zhu |year=2013 |title=A Silurian placoderm with osteichthyan-like marginal jaw bones |journal=[[Nature (journal)|Nature]] |volume=502 |issue=7470 |pages=188–193 |doi=10.1038/nature12617 |pmid=24067611|bibcode=2013Natur.502..188Z |s2cid=4462506 }}</ref> In particular, new phylogenetic studies find cartilaginous fish to be well nested among acanthodians, with ''[[Doliodus]]'' and ''[[Tamiobatis]]'' being the closest relatives to Chondrichthyes.<ref>{{cite journal|doi=10.26879/601|title=The diplacanthid fishes (Acanthodii, Diplacanthiformes, Diplacanthidae) from the Middle Devonian of Scotland|journal=Palaeontologia Electronica|year=2016|last1=Burrow|first1=CJ|last2=Den Blaauwen|first2=J.|last3=Newman|first3=MJ|last4=Davidson|first4=RG|doi-access=free}}</ref> Recent studies vindicate this, as '' | Cartilaginous fish are considered to have evolved from [[acanthodians]]. The discovery of ''[[Entelognathus]]'' and several examinations of acanthodian characteristics indicate that bony fish evolved directly from placoderm like ancestors, while acanthodians represent a paraphyletic assemblage leading to Chondrichthyes. Some characteristics previously thought to be exclusive to acanthodians are also present in basal cartilaginous fish.<ref>{{cite journal |author1=Min Zhu |author2=Xiaobo Yu |author3=Per Erik Ahlberg |author4=Brian Choo |author5=Jing Lu |author6=Tuo Qiao |author7=Qingming Qu |author8=Wenjin Zhao |author9=Liantao Jia |author10=Henning Blom |author11=You'an Zhu |year=2013 |title=A Silurian placoderm with osteichthyan-like marginal jaw bones |journal=[[Nature (journal)|Nature]] |volume=502 |issue=7470 |pages=188–193 |doi=10.1038/nature12617 |pmid=24067611|bibcode=2013Natur.502..188Z |s2cid=4462506 }}</ref> In particular, new phylogenetic studies find cartilaginous fish to be well nested among acanthodians, with ''[[Doliodus]]'' and ''[[Tamiobatis]]'' being the closest relatives to Chondrichthyes.<ref>{{cite journal|doi=10.26879/601|title=The diplacanthid fishes (Acanthodii, Diplacanthiformes, Diplacanthidae) from the Middle Devonian of Scotland|journal=Palaeontologia Electronica|year=2016|last1=Burrow|first1=CJ|last2=Den Blaauwen|first2=J.|last3=Newman|first3=MJ|last4=Davidson|first4=RG|doi-access=free}}</ref> Recent studies vindicate this, as ''Doliodus'' had a mosaic of chondrichthyan and acanthodian traits.<ref>{{cite journal|doi=10.1206/3875.1|title=Pectoral Morphology in ''Doliodus'': Bridging the 'Acanthodian'-Chondrichthyan Divide|journal=American Museum Novitates|issue=3875|pages=1–15|year=2017|last1=Maisey|first1=John G.|last2=Miller|first2=Randall|last3=Pradel|first3=Alan|last4=Denton|first4=John S.S.|last5=Bronson|first5=Allison|last6=Janvier|first6=Philippe|s2cid=44127090|url=https://www.archive.org/download/pectoralmorphol00mais/pectoralmorphol00mais.pdf |archive-url=https://ghostarchive.org/archive/20221009/https://www.archive.org/download/pectoralmorphol00mais/pectoralmorphol00mais.pdf |archive-date=2022-10-09 |url-status=live}}</ref> Dating back to the Middle and Late [[Ordovician]] Period, many isolated scales, made of [[dentine]] and bone, have a structure and growth form that is chondrichthyan-like. They may be the remains of [[stem group|stem]]-chondrichthyans, but their classification remains uncertain.<ref name="Andreev2015">{{cite journal |last1=Andreev |first1=Plamen S.|last2=Coates |first2 =Michael I. |last3=Shelton |first3=Richard M. |last4=Cooper |first4=Paul R. |last5=Smith |first5=M. Paul |last6=Sansom |first6=Ivan J. |year=2015 |title=Ordovician chondrichthyan-like scales from North America |journal=[[Palaeontology (journal)|Palaeontology]] |volume=58 |issue=4 |pages=691–704 |doi=10.1111/pala.12167|s2cid=140675923|doi-access=free }}</ref><ref name="Sansom2012">{{cite journal |last1=Sansom |first1=Ivan J. |last2=Davies |first2= Neil S. |last3=Coates |first3=Michael I. |last4=Nicoll |first4=Robert S. |last5=Ritchie |first5=Alex |year=2012 |title=Chondrichthyan-like scales from the Middle Ordovician of Australia |journal=[[Palaeontology (journal)|Palaeontology]] |volume=55 |issue=2 |pages=243–247 |doi=10.1111/j.1475-4983.2012.01127.x|bibcode=2012Palgy..55..243S |doi-access=free }}</ref><ref name="Andreev2016">{{cite journal |last1=Andreev |first1=Plamen |last2=Coates |first2=Michael I. |last3=Karatajūtė-Talimaa |first3=Valentina |last4=Shelton |first4=Richard M. |last5=Cooper |first5=Paul R. |last6=Wang |first6=Nian-Zhong |last7=Sansom |first7=Ivan J. |year=2016 |title=The systematics of the Mongolepidida (Chondrichthyes) and the Ordovician origins of the clade |journal=PeerJ |volume=4 |article-number=e1850 |doi=10.7717/peerj.1850|pmid=27350896 |pmc=4918221 |doi-access=free }}</ref> | ||
The earliest unequivocal fossils of acanthodian-grade cartilaginous fishes are ''[[Qianodus]]'' and ''[[Fanjingshania]]'' from the early Silurian ([[Aeronian]]) of [[Guizhou]], China around 439 million years ago, which are also the oldest unambiguous remains of any jawed vertebrates.<ref name=":12">{{cite journal |last1=Andreev |first1=Plamen S. |last2=Sansom |first2=Ivan J. |last3=Li |first3=Qiang |last4=Zhao |first4=Wenjin |last5=Wang |first5=Jianhua |last6=Wang |first6=Chun-Chieh |last7=Peng |first7=Lijian |last8=Jia |first8=Liantao |last9=Qiao |first9=Tuo |last10=Zhu |first10=Min |date=September 2022 |title=Spiny chondrichthyan from the lower Silurian of South China |url=https://www.nature.com/articles/s41586-022-05233-8 |journal=Nature |volume=609 |issue=7929 |pages=969–974 |doi=10.1038/s41586-022-05233-8 |pmid=36171377 |bibcode=2022Natur.609..969A |s2cid=252570103|url-access=subscription }}</ref><ref name=":02">{{Cite journal |last1=Andreev |first1=Plamen S. |last2=Sansom |first2=Ivan J. |last3=Li |first3=Qiang |last4=Zhao |first4=Wenjin |last5=Wang |first5=Jianhua |last6=Wang |first6=Chun-Chieh |last7=Peng |first7=Lijian |last8=Jia |first8=Liantao |last9=Qiao |first9=Tuo |last10=Zhu |first10=Min |date=2022-09-28 |title=The oldest gnathostome teeth | The earliest unequivocal fossils of acanthodian-grade cartilaginous fishes are ''[[Qianodus]]'' and ''[[Fanjingshania]]'' from the early Silurian ([[Aeronian]]) of [[Guizhou]], China around 439 million years ago, which are also the oldest unambiguous remains of any jawed vertebrates.<ref name=":12">{{cite journal |last1=Andreev |first1=Plamen S. |last2=Sansom |first2=Ivan J. |last3=Li |first3=Qiang |last4=Zhao |first4=Wenjin |last5=Wang |first5=Jianhua |last6=Wang |first6=Chun-Chieh |last7=Peng |first7=Lijian |last8=Jia |first8=Liantao |last9=Qiao |first9=Tuo |last10=Zhu |first10=Min |date=September 2022 |title=Spiny chondrichthyan from the lower Silurian of South China |url=https://www.nature.com/articles/s41586-022-05233-8 |journal=Nature |volume=609 |issue=7929 |pages=969–974 |doi=10.1038/s41586-022-05233-8 |pmid=36171377 |bibcode=2022Natur.609..969A |s2cid=252570103|url-access=subscription }}</ref><ref name=":02">{{Cite journal |last1=Andreev |first1=Plamen S. |last2=Sansom |first2=Ivan J. |last3=Li |first3=Qiang |last4=Zhao |first4=Wenjin |last5=Wang |first5=Jianhua |last6=Wang |first6=Chun-Chieh |last7=Peng |first7=Lijian |last8=Jia |first8=Liantao |last9=Qiao |first9=Tuo |last10=Zhu |first10=Min |display-authors=5 |date=2022-09-28 |title=The oldest gnathostome teeth |journal=Nature |volume=609 |issue=7929 |pages=964–968 |bibcode=2022Natur.609..964A |doi=10.1038/s41586-022-05166-2 |pmid=36171375 |s2cid=252569771 |url=https://research.birmingham.ac.uk/en/publications/1478b876-dc9b-431a-88ea-1f0f30614aea }}</ref> ''Shenacanthus vermiformis'', which lived 436 million years ago, had thoracic armour plates resembling those of placoderms.<ref>{{cite journal |pmid=36171378 |year=2022 |last1=Zhu |first1=Y. A. |last2=Li |first2=Q. |last3=Lu |first3=J. |last4=Chen |first4=Y. |last5=Wang |first5=J. |last6=Gai |first6=Z. |last7=Zhao |first7=W. |last8=Wei |first8=G. |last9=Yu |first9=Y. |last10=Ahlberg |first10=P. E. |last11=Zhu |first11=M. |title=The oldest complete jawed vertebrates from the early Silurian of China |journal=Nature |volume=609 |issue=7929 |pages=954–958 |doi=10.1038/s41586-022-05136-8 |bibcode=2022Natur.609..954Z |s2cid=252569910 }}</ref> | ||
By the start of the Early Devonian, 419 million years ago, [[jawed fish]]es had divided into three distinct groups: the now extinct [[placoderm]]s (a paraphyletic assemblage of ancient armoured fishes), the [[bony fish]]es, and the clade that includes [[spiny sharks]] and early [[cartilaginous fish]]. The modern bony fishes, class [[Osteichthyes]], appeared in the late [[Silurian]] or early Devonian, about 416 million years ago. The first abundant genus of shark, ''[[Cladoselache]]'', appeared in the oceans during the Devonian Period. The first cartilaginous fishes evolved from ''[[Doliodus]]''-like [[spiny shark]] ancestors. | By the start of the Early Devonian, 419 million years ago, [[jawed fish]]es had divided into three distinct groups: the now extinct [[placoderm]]s (a paraphyletic assemblage of ancient armoured fishes), the [[bony fish]]es, and the clade that includes [[spiny sharks]] and early [[cartilaginous fish]]. The modern bony fishes, class [[Osteichthyes]], appeared in the late [[Silurian]] or early Devonian, about 416 million years ago. The first abundant genus of shark, ''[[Cladoselache]]'', appeared in the oceans during the Devonian Period. The first cartilaginous fishes evolved from ''[[Doliodus]]''-like [[spiny shark]] ancestors. | ||
| Line 371: | Line 379: | ||
{{clear}} | {{clear}} | ||
{| class="wikitable" | {|class="wikitable mw-collapsible mw-collapsed" | ||
|- | |- | ||
! colspan=10 | Extinct [[Order (biology)|orders]] of cartilaginous fishes | ! colspan=10 |Extinct [[Order (biology)|orders]] of cartilaginous fishes | ||
|- | |- | ||
! Group | ! Group | ||
| Line 385: | Line 393: | ||
! Note | ! Note | ||
|- | |- | ||
| align=center style="background:rgb(150,80,150)" rowspan=13 | [[Holocephali|<span style="color:white;">Holocephali</span>]] | |align=center style="background:rgb(150,80,150)" rowspan=13 |[[Holocephali|<span style="color:white;">Holocephali</span>]] | ||
| align=center style="background:rgb(165,100,165)" | [[Orodontiformes|<span style="color:white;">†Orodontiformes</span>]] | |align=center style="background:rgb(165,100,165)" |[[Orodontiformes|<span style="color:white;">†Orodontiformes</span>]] | ||
| [[File:Orodus sp1DB.jpg|140px]] | |[[File:Orodus sp1DB.jpg|140px]] | ||
| align=center | | |align=center |[[Orodontiformes|Orodonts]] | ||
| align=center | < | |align=center |Zangerl, 1981<ref name=":4" /> | ||
| align=center | | |align=center |2<ref name=":0">{{Cite journal |last=Van der Laan |first=Richard |date=2018-10-11 |title=Family-group names of fossil fishes |url=http://www.europeanjournaloftaxonomy.eu/index.php/ejt/article/view/597 |journal=European Journal of Taxonomy |issue=466 |doi=10.5852/ejt.2018.466 |issn=2118-9773|doi-access=free }}</ref> | ||
| align=center | | |align=center | | ||
| align=center | | |align=center | | ||
| valign=top | | |valign=top |Early members of Chondrichthyes based mostly on teeth. Includes many species that are unrelated to one another.<ref name=":4">{{Cite book |last1=Ginter |first1=Michał |title=Handbook of paleoichthyology: teeth |last2=Hampe |first2=Oliver |last3=Duffin |first3=Christopher J. |date=2010 |publisher=F. Pfeil |isbn=978-3-89937-116-1 |location=München}}</ref> | ||
|- | |- | ||
| align=center style="background:rgb(180,120,180)" | [[Petalodontiformes|<span style="color:white;">†Petalodontiformes</span>]] | |align=center style="background:rgb(180,120,180)" |[[Petalodontiformes|<span style="color:white;">†Petalodontiformes</span>]] | ||
| [[File: | |[[File:Belantsea montana.png|147x147px]] | ||
| align=center | [[Petalodontiformes|Petalodonts]] | |align=center |[[Petalodontiformes|Petalodonts]] | ||
| align=center | < | |align=center |Patterson, 1965<ref>{{Cite journal |last=Egli |first=H. Chase |last2=Hodnett |first2=John-Paul M. |last3=Hodge |first3=Cody M. |last4=Ward |first4=Gabriel V. |date=2025-12-02 |title=Obruchevodid petalodonts (Chondrichthyes, Holocephali) from the Upper Mississippian (Serpukhovian) Bangor Limestone of northern Alabama, U.S.A. |url=https://www.tandfonline.com/doi/full/10.1080/08912963.2024.2412139 |journal=Historical Biology |language=en |volume=37 |issue=12 |pages=2642–2651 |doi=10.1080/08912963.2024.2412139 |url-access=subscription }}</ref><ref name=":5">{{Cite journal |last=Hodnett |first=John-Paul M. |last2=Toomey |first2=Rickard |last3=Olson |first3=Rickard |last4=Tweet |first4=Justin S. |last5=Santucci |first5=Vincent L. |date=2024 |title=Janassid petalodonts (Chondrichthyes, Petalodontiformes, Janassidae) from the middle Mississippian (Viséan) Ste. Genevieve Formation, Mammoth Cave National Park, Kentucky, USA |url=https://www.tandfonline.com/doi/full/10.1080/08912963.2023.2231955 |journal=Historical Biology |language=en |volume=36 |issue=9 |pages=1783–1792 |doi=10.1080/08912963.2023.2231955}}</ref><ref name=":6">{{Cite journal |last=Patterson |first=Colin |date=1965-06-10 |title=The phylogeny of the chimaeroids |url=https://royalsocietypublishing.org/rstb/article/249/757/101/113044/The-phylogeny-of-the-chimaeroids |journal=Philosophical Transactions of the Royal Society of London. Series B, Biological Sciences |language=en |volume=249 |issue=757 |pages=101–219 |doi=10.1098/rstb.1965.0010 |url-access=subscription }}</ref> (equiv. to Petalodontida Zangerl, 1981)<ref name=":4" /><ref>{{Cite journal |last=Gai |first=Zhikun |last2=Bai |first2=Zhijun |last3=Lin |first3=Xianghong |last4=Meng |first4=Xinyuan |last5=Zhang |first5=Junwen |date=2021 |title=First Record of Petalodus Owen, 1840 (Chondrichthyes, Petalodontidae) in the Lower Permian (Cisuralian) of China |url=https://onlinelibrary.wiley.com/doi/10.1111/1755-6724.14784 |journal=Acta Geologica Sinica - English Edition |language=en |volume=95 |issue=4 |pages=1057–1064 |doi=10.1111/1755-6724.14784 |url-access=subscription }}</ref><ref name=":7">{{Cite journal |last=Robb |first=Albert J. |date=2003 |title=Notes on the occurrence of some petalodont shark fossils from the Upper Pennsylvanian rocks of northeastern Kansas |url=http://www.bioone.org/doi/abs/10.1660/0022-8443%282003%29106%5B0071%3ANOTOOS%5D2.0.CO%3B2 |journal=Transactions of the Kansas Academy of Science |language=en |volume=106 |issue=1 & 2 |pages=71–80 |doi=10.1660/0022-8443(2003)106[0071:NOTOOS]2.0.CO;2 |url-access=subscription }}</ref> | ||
| align=center | | |align=center |5 or 6<ref name=":0" /><ref name=":5" /> | ||
| align=center | | |align=center | | ||
| align=center | | |align=center | | ||
| valign=top | Members of | |valign=top |Members of holocephali. Some resembled skates or rays,<ref name=":1">{{Cite book |last1=Nelson |first1=Joseph S. |url=https://onlinelibrary.wiley.com/doi/book/10.1002/9781119174844 |title=Fishes of the World |last2=Grande |first2=Terry C. |last3=Wilson |first3=Mark V. H. |date=2016-02-22 |publisher=Wiley |isbn=978-1-118-34233-6 |edition=1 |language=en |doi=10.1002/9781119174844}}</ref> while others were compressed and had beak-like jaws.<ref name=":7" /> | ||
|- | |- | ||
| align=center style="background:rgb(165,100,165)" | [[Helodontiformes|<span style="color:white;">†Helodontiformes</span>]] | |align=center style="background:rgb(165,100,165)" |[[Helodontiformes|<span style="color:white;">†Helodontiformes</span>]] | ||
| | |[[File:Helodus simplex.png|140x140px]] | ||
| align=center | | |align=center |[[Helodus|Helodonts]] | ||
| align=center | < | |align=center |Patterson, 1965<ref name=":6" /><ref name="helodus2021a">{{Cite book |last=Coates |first=Michael |url=https://www.researchgate.net/publication/396168558_Coates_et_al2021_Helodus |title=The cranium of Helodus simplex (Agassiz, 1838) revised |last2=Tietjen |first2=Kristen |last3=Johanson |first3=Zerina |last4=Friedman |first4=Matt |last5=Sang |first5=Stephanie |date=2021 |publisher=Verlag Dr. Friedrich Pfeil |isbn=978-3-89937-269-4 |editor-last=Pradel |editor-first=Alan |series=Ancient fishes and their living relatives: a tribute to John G. Maisey |location=München |pages=193–204 |editor-last2=Denton |editor-first2=John S. S. |editor-last3=Janvier |editor-first3=Philippe |editor-last4=Maisey |editor-first4=John G.}}</ref> | ||
| align=center | | |align=center |1<ref name=":0" /> | ||
| align=center | | |align=center |1<ref name=":1" /> | ||
| align=center | | |align=center |1?<ref name="helodus2021a" /> | ||
| valign=top | | |valign=top |Members of Holocephali based mostly on teeth.<ref name=":1" /> A single species is known from skeletal fossils.<ref name="helodus2021a" /> | ||
|- | |- | ||
| align=center style="background:rgb(180,120,180)" | [[Iniopterygiformes|<span style="color:white;">†Iniopterygiformes</span>]] | |align=center style="background:rgb(180,120,180)" |[[Iniopterygiformes|<span style="color:white;">†Iniopterygiformes</span>]] | ||
| [[File: | |[[File:Iniopteryx sp.png|140x140px]] | ||
| align=center | | |align=center |[[Iniopterygiformes|Iniopterygians]] | ||
| align=center | < | |align=center |Zangerl & Case, 1973 (as Iniopterygia)<ref name=":8">{{Cite book |last=Zangerl |first=Rainer |url=https://www.biodiversitylibrary.org/bibliography/5158 |title=Iniopterygia : a new order of Chondrichthyan fishes from the Pennsylvanian of North America |last2=Case |first2=Gerard R. |date=1973 |publisher=Field Museum of Natural History |series=Fieldiana |volume=6 |location=Chicago |doi=10.5962/bhl.title.5158}}</ref> | ||
| align=center | | |align=center |2<ref name=":0" /> | ||
| align=center | | |align=center | | ||
| align=center | | |align=center | | ||
| valign=top | | |valign=top |Early chondrichthyans that resembled flying fish.<ref name=":8" /> May be members of Holocephali.<ref name=":1" /> | ||
|- | |- | ||
| align=center style="background:rgb(165,100,165)" | [[Debeeriiformes|<span style="color:white;">†Debeeriiformes</span>]] | |align=center style="background:rgb(165,100,165)" |[[Debeeriiformes|<span style="color:white;">†Debeeriiformes</span>]] | ||
| | |[[File:Debeerius ellefsen, with coloration based on preserved color patterns.png|140x140px]] | ||
| align=center | | |align=center | | ||
| align=center | < | |align=center |Grogan & Lund, 2000<ref name=":9">{{Cite journal |last=Grogan |first=Eileen D. |last2=Lund |first2=Richard |date=2000 |title=Debeerius ellefseni (Fam. Nov., Gen. Nov., Spec. Nov.), an autodiastylic chondrichthyan from the Mississippian Bear Gulch Limestone of Montana (USA), the relationships of the chondrichthyes, and comments on gnathostome evolution |url=https://onlinelibrary.wiley.com/doi/10.1002/(SICI)1097-4687(200003)243:33.0.CO;2-1 |journal=Journal of Morphology |volume=243 |issue=3 |pages=219–245 |doi=10.1002/(SICI)1097-4687(200003)243:3<219::AID-JMOR1>3.0.CO;2-1 |url-access=subscription }}</ref> | ||
| align=center | | |align=center |1<ref name=":0" /> | ||
| align=center | | |align=center |2<ref name=":9" /> | ||
| align=center | | |align=center |2<ref name=":9" /> | ||
| valign=top | | |valign=top |Members of Holocephali with a primitive form of jaw suspension called autodiastyly.<ref name=":9" /> | ||
|- | |- | ||
| align=center style="background:rgb(180,120,180)" | [[Symmoriida|<span style="color:white;"> | |align=center style="background:rgb(180,120,180)" |[[Symmoriida|<span style="color:white;">†Symmoriiformes</span>]] | ||
| [[File:Symmorium1DB.jpg| | |[[File:Symmorium1DB.jpg|140x140px]] | ||
| align=center | [[Symmoriidae|Symmoriids]] | |align=center |[[Symmoriidae|Symmoriids]] | ||
| align=center | | |align=center |Zangerl, 1981 (sensu Maisey, 2007)<ref>{{Cite journal |last=Maisey |first=John G. |date=2007 |title=THE BRAINCASE IN PALEOZOIC SYMMORIIFORM AND CLADOSELACHIAN SHARKS |url=http://www.bioone.org/doi/abs/10.1206/0003-0090%282007%29307%5B1%3ATBIPSA%5D2.0.CO%3B2 |journal=Bulletin of the American Museum of Natural History |language=en |volume=307 |pages=1–122 |doi=10.1206/0003-0090(2007)307[1:TBIPSA]2.0.CO;2 }}</ref> | ||
| align=center | | |align=center |2 or 3<ref name=":0" /><ref name=":1" /> | ||
| align=center | | |align=center | | ||
| align=center | | |align=center | | ||
| valign=top | | |valign=top |Potential members of Holocephali that were heavily [[sexually dimorphic]]. Males had an organ called a "spine-brush complex" instead of a first dorsal fin.<ref>{{cite journal |last1=Coates |first1=M. |last2=Gess |first2=R. |last3=Finarelli |first3=J. |last4=Criswell |first4=K. |last5=Tietjen |first5=K. |year=2016 |title=A symmoriiform chondrichthyan braincase and the origin of chimaeroid fishes |journal=Nature |volume= 541|issue=7636|pages= 208–211|doi=10.1038/nature20806 |pmid=28052054 |bibcode=2017Natur.541..208C |s2cid=4455946 }}</ref> | ||
|- | |- | ||
| align=center style="background:rgb(165,100,165)" | [[Eugeneodontida|<span style="color:white;"> | |align=center style="background:rgb(165,100,165)" |[[Eugeneodontida|<span style="color:white;">†Eugeneodontiformes</span>]] | ||
| [[File: | |[[File:Fadenia crenulata.png|140x140px]] | ||
| align=center | [[Eugeneodontida|Eugeneodonts]] | |align=center |[[Eugeneodontida|Eugeneodonts]] | ||
| align=center | < | |align=center |Zangerl, 1981 (as Eugeneodontida)<ref name=":4" /> | ||
< | |align=center |4 or 5<ref name=":0" /><ref name="Lebedev2022">{{cite journal |last1=Lebedev |first1=O. A. |last2=Itano |first2=W. M. |last3=Johanson |first3=Z. |last4=Alekseev |first4=A. S. |last5=Smith |first5=M. M. |last6=Ivanov |first6=A. V. |last7=Novikov |first7=I. V. |date=2022 |title=Tooth whorl structure, growth and function in a helicoprionid chondrichthyan Karpinskiprion (nom. nov.) (Eugeneodontiformes) with a revision of the family composition |journal=Earth and Environmental Science Transactions of the Royal Society of Edinburgh |volume=113 |issue=4 |pages=337–360 |doi=10.1017/S1755691022000251 |bibcode=2022EESTR.113..337L }}</ref> | ||
| | |align=center | | ||
| align=center | | |align=center | | ||
| align=center | | |valign=top |Members of holocephali, they are characterized by large tooth whorls in their jaws.<ref>{{cite journal |last1=Tapanila |first1=L |last2=Pruitt |first2=J |last3=Pradel |first3=A |last4=Wilga |first4=C |last5=Ramsay |first5=J |last6=Schlader |first6=R |last7=Didier |first7=D |year=2013 |title=Jaws for a spiral-tooth whorl: CT images reveal novel adaptation and phylogeny in fossil Helicoprion |journal=Biology Letters |volume=9 |issue= 2|article-number=20130057 |doi=10.1098/rsbl.2013.0057 |pmid=23445952 |pmc=3639784 }}</ref> | ||
| valign=top | Members of | |||
|- | |- | ||
| align=center style="background:rgb(180,120,180)" | [[Psammodontiformes|<span style="color:white;">†Psammodonti-<br />formes</span>]] | |align=center style="background:rgb(180,120,180)" |[[Psammodontiformes|<span style="color:white;">†Psammodonti-<br />formes</span>]] | ||
| | | | ||
| align=center | | |align=center | | ||
| align=center | | |align=center |Obruchev, 1953 | ||
| align=center | | |align=center |1<ref name=":0" /> | ||
| align=center | | |align=center | | ||
| align=center | | |align=center | | ||
| valign=top | | |valign=top |Members of Holocephali, almost exclusively known from teeth.<ref name=":1" /> A single skull is known, which had armor plates.<ref>{{Cite journal |last1=Ahlberg |first1=Per Erik |last2=Coates |first2=Michael I. |date=1997 |title=There's a ratfish in our cellar! |url=https://onlinelibrary.wiley.com/doi/10.1046/j.1365-2451.1997.00013.x |journal=Geology Today |volume=13 |issue=1 |pages=20–23 |doi=10.1046/j.1365-2451.1997.00013.x |bibcode=1997GeolT..13...20A |url-access=subscription }}</ref> | ||
|- | |- | ||
| align=center style="background:rgb(165,100,165)" | [[Copodontiformes|<span style="color:white;">†Copodontiformes</span>]] | |align=center style="background:rgb(165,100,165)" |[[Copodontiformes|<span style="color:white;">†Copodontiformes</span>]] | ||
| | | | ||
| align=center | | |align=center | | ||
| align=center | | |align=center |Obruchev, 1953 | ||
| align=center | | |align=center |1<ref name=":0" /> | ||
| align=center | | |align=center | | ||
| align=center | | |align=center | | ||
| valign=top | | |valign=top |Members of Holocephali. Relationships and appearance are uncertain as this order is only known from teeth.<ref name=":1" /> | ||
|- | |- | ||
| align=center style="background:rgb(180,120,180)" | [[Squalorajiformes|<span style="color:white;">†Squalorajiformes</span>]] | |align=center style="background:rgb(180,120,180)" |[[Squalorajiformes|<span style="color:white;">†Squalorajiformes</span>]] | ||
| | |[[File:Squaloraja polyspondyla.png|140x140px]] | ||
| align=center | | |align=center | | ||
| align=center | < | |align=center | | ||
| align=center | | |align=center |1<ref name=":0" /> | ||
| | |align=center |2?<ref name=":2">{{Cite journal |last1=Itano |first1=Wayne M. |last2=Duffin |first2=Christopher J. |date=2023-06-20 |title=An enigmatic chondrichthyan spine from the Visean of Indiana, USA that resembles a median rostral cartilage of Squaloraja (Holocephali, Chimaeriformes) |url=https://turia.uv.es/index.php/sjpalaeontology/article/view/26305 |journal=Spanish Journal of Palaeontology |volume=38 |issue=1 |pages=57–68 |doi=10.7203/sjp.26305 |hdl=10550/118342 |hdl-access=free }}</ref> | ||
| align=center | | |align=center |2?<ref name=":2" /> | ||
| valign=top | | |valign=top |Members of Holocephali, sometimes included in Chimaeriformes.<ref name=":1" /><ref name=":2" /> | ||
|- | |- | ||
| align=center style="background:rgb(165,100,165)" | [[Chondrenchelyiformes|<span style="color:white;">†Chondrenchelyi-<br />formes</span>]] | |align=center style="background:rgb(165,100,165)" |[[Chondrenchelyiformes|<span style="color:white;">†Chondrenchelyi-<br />formes</span>]] | ||
| [[File:Chondrenchelys | |[[File:Chondrenchelys male and female.png|140x140px]] | ||
| align=center | | |align=center | | ||
| align=center | < | |align=center |Patterson, 1965<ref name=":6" /> | ||
| align=center | | |align=center |2<ref name=":0" /> | ||
| align=center | | |align=center | | ||
| align=center | | |align=center | | ||
| valign=top | | |valign=top |Members of Holocephali with eel-like bodies and teeth similar to modern chimaeras. Members are sexually dimorphic.<ref>{{Cite journal |last=Finarelli |first=John A. |last2=Coates |first2=Michael I. |date=2014 |title=Chondrenchelys problematica (Traquair, 1888) redescribed: a Lower Carboniferous, eel-like holocephalan from Scotland |url=https://www.cambridge.org/core/product/identifier/S1755691014000139/type/journal_article |journal=Earth and Environmental Science Transactions of the Royal Society of Edinburgh |language=en |volume=105 |issue=1 |pages=35–59 |doi=10.1017/S1755691014000139 |url-access=subscription }}</ref> | ||
|- | |- | ||
| align=center style="background:rgb(180,120,180)" | [[Menaspiformes|<span style="color:white;">†Menaspiformes</span>]] | |align=center style="background:rgb(180,120,180)" |[[Menaspiformes|<span style="color:white;">†Menaspiformes</span>]] | ||
| [[File:MenaspidDB17.jpg|140px]] | |[[File:MenaspidDB17.jpg|140px]] | ||
| align=center | | |align=center | | ||
| align=center | < | |align=center |Obruchev, 1953 (equiv. to Menaspoidei Patterson, 1965)<ref name=":6" /> | ||
| align=center | | |align=center |3<ref name=":0" /> | ||
| align=center | | |align=center | | ||
| align=center | | |align=center | | ||
| valign=top | | |valign=top |Members of Holocephali with heavy armor plating. Historically misinterpreted as [[Placoderm|placoderms]] or [[Ostracoderm|ostracoderms]].<ref name=":6" /> | ||
|- | |- | ||
| align=center style="background:rgb(165,100,165)" | [[Cochliodontiformes|<span style="color:white;">†Cochliodontiformes</span>]] | |align=center style="background:rgb(165,100,165)" |[[Cochliodontiformes|<span style="color:white;">†Cochliodontiformes</span>]] | ||
| | | | ||
| align=center | | |align=center |[[Cochliodontiformes|Cochliodonts]] | ||
| align=center | | |align=center |Obruchev, 1953 | ||
| align=center | | |align=center |2<ref name=":0" /> | ||
| align=center | | |align=center | | ||
| align=center | | |align=center | | ||
| valign=top | | |valign=top |Members of Holocephali known almost exclusively from teeth; some body fossils are known but have not been described.<ref>{{Cite book |last=Lund |first=Richard |url=https://www.biodiversitylibrary.org/bibliography/5311 |title=New information on the evolution of the Bradyodont Chondrichthyes |date=1977 |publisher=Field Museum of Natural History |location=Chicago |doi=10.5962/bhl.title.5311}}</ref> | ||
|- | |- | ||
| align=center style="background:rgb(150,80,150)" rowspan=1 | [[Squalomorphi|<span style="color:white;">Squalomorph<br />sharks</span>]] | |align=center style="background:rgb(150,80,150)" rowspan=1 |[[Squalomorphi|<span style="color:white;">Squalomorph<br />sharks</span>]] | ||
| align=center style="background:rgb(165,100,165)" | [[Protospinaciformes|<span style="color:white;">†Protospinaci-<br />formes</span>]] | |align=center style="background:rgb(165,100,165)" |[[Protospinaciformes|<span style="color:white;">†Protospinaci-<br />formes</span>]] | ||
| | | | ||
| align=center | | |align=center | | ||
| align=center | | |align=center | | ||
| align=center | | |align=center |1<ref name=":0" /> | ||
| align=center | | |align=center | | ||
| align=center | | |align=center | | ||
| valign=top | | |valign=top | | ||
|- | |- | ||
| align=center style="background:rgb(150,80,150)" rowspan=6 | <span style="color:white;">Other</span> | |align=center style="background:rgb(150,80,150)" rowspan=6 |<span style="color:white;">Other</span> | ||
| align=center style="background:rgb(180,120,180)" | [[Squatinactiformes|<span style="color:white;">†Squatinactiformes</span>]] | |align=center style="background:rgb(180,120,180)" |[[Squatinactiformes|<span style="color:white;">†Squatinactiformes</span>]] | ||
| [[File:Squatinactis NT small.jpg|140px]] | |[[File:Squatinactis NT small.jpg|140px]] | ||
| align=center | | |align=center | | ||
| align=center | | |align=center |Cappetta et al., 1993 | ||
| align=center | 1 | |align=center |1<ref name=":0" /> | ||
| align=center | 1 | |align=center |1 | ||
| align=center | | |align=center |1 | ||
| valign=top | | |valign=top |Early chondrichthyans with ray-like bodies.<ref name=":1" /> | ||
|- | |- | ||
| align=center style="background:rgb(165,100,165)" | [[Protacrodontiformes|<span style="color:white;">†Protacrodonti-<br />formes</span>]] | |align=center style="background:rgb(165,100,165)" |[[Protacrodontiformes|<span style="color:white;">†Protacrodonti-<br />formes</span>]] | ||
| | | | ||
| align=center | | |align=center | | ||
| align=center | | |align=center |Zangerl, 1981 | ||
| align=center | | |align=center |1<ref name=":0" /> | ||
| align=center | | |align=center | | ||
| align=center | | |align=center | | ||
| valign=top | | |valign=top |Early members of Elasmobranchii. | ||
|- | |- | ||
| align=center style="background:rgb(180,120,180)" | [[Cladoselachiformes|<span style="color:white;">†Cladoselachi-<br />formes</span>]] | |align=center style="background:rgb(180,120,180)" |[[Cladoselachiformes|<span style="color:white;">†Cladoselachi-<br />formes</span>]] | ||
| [[File:Cladoselache.png|140x140px]] | |[[File:Cladoselache.png|140x140px]] | ||
| align=center | | |align=center | | ||
| align=center | | |align=center |Dean, 1894 | ||
| align=center | 1 | |align=center |1<ref name=":0" /> | ||
| align=center | 2 | |align=center |2<ref name=":3">{{Cite journal |last1=Klug |first1=Christian |last2=Coates |first2=Michael |last3=Frey |first3=Linda |last4=Greif |first4=Merle |last5=Jobbins |first5=Melina |last6=Pohle |first6=Alexander |last7=Lagnaoui |first7=Abdelouahed |last8=Haouz |first8=Wahiba Bel |last9=Ginter |first9=Michal |date=2023 |title=Broad snouted cladoselachian with sensory specialization at the base of modern chondrichthyans |journal=Swiss Journal of Palaeontology |language=en |volume=142 |issue=1 |article-number=2 |doi=10.1186/s13358-023-00266-6 |doi-access=free |pmc=10050047 |pmid=37009301 |bibcode=2023SwJP..142....2K }}</ref> | ||
| align=center | | |align=center | | ||
| valign=top | | |valign=top |Potentially members of Holocephali and of the Symmoriiformes.<ref name=":3" /> | ||
|- | |- | ||
| align=center style="background:rgb(165,100,165)" | [[Xenacanthiformes|<span style="color:white;">†Xenacanthiformes</span>]] | |align=center style="background:rgb(165,100,165)" |[[Xenacanthiformes|<span style="color:white;">†Xenacanthiformes</span>]] | ||
| [[File:Xenacanth.png|147x147px]] | |[[File:Xenacanth.png|147x147px]] | ||
| align=center | [[Xenacanthida|Xenacanths]] | |align=center |[[Xenacanthida|Xenacanths]] | ||
| align=center | | |align=center |Glikman, 1964 | ||
| align=center | | |align=center |2 or 3<ref name=":0" /><ref name=":1" /> | ||
| align=center | | |align=center | | ||
| align=center | | |align=center | | ||
| valign=top | Eel-like | |valign=top |Eel-like chondrichthyans that typically lived in freshwater. May be members of Elasmobranchii. | ||
|- | |- | ||
| align=center style="background:rgb(180,120,180)" | [[Ctenacanthiformes|<span style="color:white;">†Ctenacanthi-<br />formes</span>]] | |align=center style="background:rgb(180,120,180)" |[[Ctenacanthiformes|<span style="color:white;">†Ctenacanthi-<br />formes</span>]] | ||
| [[File:Dracopristis hoffmanorum.png|147x147px]] | |[[File:Dracopristis hoffmanorum.png|147x147px]] | ||
| align=center | [[Ctenacanthiformes|Ctenacanths]] | |align=center |[[Ctenacanthiformes|Ctenacanths]] | ||
| align=center | | |align=center |Glikman, 1964 | ||
| align=center | 2 | |align=center |1 or 2<ref name=":0" /><ref name=":1" /> | ||
| align=center | | |align=center | | ||
| align=center | | |align=center | | ||
| valign=top | Shark-like | |valign=top |Shark-like chondrichthyans characterized by their robust heads and large dorsal fin spines. May be members of Elasmobranchii | ||
|- | |- | ||
| align=center style="background:rgb(165,100,165)" | [[Hybodontiformes|<span style="color:white;">†Hybodontiformes</span>]] | |align=center style="background:rgb(165,100,165)" |[[Hybodontiformes|<span style="color:white;">†Hybodontiformes</span>]] | ||
| [[File:Hybodus hauffianus.png|147x147px]] | |[[File:Hybodus hauffianus.png|147x147px]] | ||
| align=center | [[Hybodontiformes|Hybodonts]] | |align=center |[[Hybodontiformes|Hybodonts]] | ||
| align=center | | |align=center |Patterson, 1966 | ||
| align=center | | |align=center |10 or 11<ref name=":0" /><ref name=":1" /> | ||
| align=center | | |align=center | | ||
| align=center | | |align=center | | ||
| valign=top | Shark-like elasmobranchs distinguished by their conical tooth shape, and the presence of a spine on each of their two dorsal fins. | |valign=top |Shark-like elasmobranchs distinguished by their conical tooth shape, and the presence of a spine on each of their two dorsal fins. | ||
|} | |} | ||
==Taxonomy== | ==Taxonomy== | ||
{{clade | |||
|label1=[[Vertebrata]] | |||
|1={{clade | |||
|label1=[[Gnathostomata]] | |||
|1={{clade | |||
|1=[[Placodermi]] † (armored gnathostomes) | |||
|2={{clade | |||
|label1=[[Eugnathostomata]]|sublabel1=(true jawed vertebrates) | |||
|1={{clade | |||
|1=[[Acanthodii]] † (stem cartilaginous fish) | |||
|label2='''Chondrichthyes'''|sublabel2=(true cartilaginous fish) | |||
|2={{clade | |||
|1=[[Holocephali]] (chimaeras) | |||
|label2=[[Elasmobranchii]] | |||
|2={{clade | |||
|1=[[Selachii]] (true sharks) | |||
|2=[[Batoidea]] (rays and relatives) | |||
}} | |||
}} | |||
}} | |||
}} | |||
}} | |||
}} | |||
}} | |||
==See also== | ==See also== | ||
* [[List of cartilaginous fish]] | * [[List of cartilaginous fish]] | ||
* [[Cartilaginous versus bony fishes]] | * [[Cartilaginous versus bony fishes]] | ||
| Line 596: | Line 616: | ||
==References== | ==References== | ||
{{reflist|30em}} | |||
==Further reading== | |||
{{Wikispecies|Chondrichthyes}} | {{Wikispecies|Chondrichthyes}} | ||
{{Wikibooks|Dichotomous Key|Chondrichthyes}} | {{Wikibooks|Dichotomous Key|Chondrichthyes}} | ||
* [https://web.archive.org/web/20040817003309/http://www.fmnh.helsinki.fi/users/haaramo/Metazoa/Deuterostoma/Chordata/Chondrichthyes/Chondrichthyes.htm#Elasmobranchii Taxonomy of Chondrichthyes] | * [https://web.archive.org/web/20040817003309/http://www.fmnh.helsinki.fi/users/haaramo/Metazoa/Deuterostoma/Chordata/Chondrichthyes/Chondrichthyes.htm#Elasmobranchii Taxonomy of Chondrichthyes] | ||
* [http://www.morphbank.net/Browse/ByImage/?tsn=159785 Images of many sharks, skates and rays on Morphbank] | * [http://www.morphbank.net/Browse/ByImage/?tsn=159785 Images of many sharks, skates and rays on Morphbank] | ||
| Line 631: | Line 633: | ||
{{Authority control}} | {{Authority control}} | ||
[[Category:Chondrichthyes| ]] | [[Category:Chondrichthyes|Chondrichthyes]] | ||
[[Category:Fish classes]] | [[Category:Fish classes]] | ||
[[Category:Pridoli first appearances]] | [[Category:Pridoli first appearances]] | ||
[[Category:Extant Silurian first appearances]] | [[Category:Extant Silurian first appearances]] | ||
Latest revision as of 10:36, 20 May 2026
| Cartilaginous fishes | |
|---|---|
| File:Chondrichthyes.jpg | |
| Example of cartilaginous fishes: Elasmobranchii above, Holocephali below. | |
| Scientific classification e | |
| Missing taxonomy template (fix): | Chondrichthyes |
| Living subgroups and incertae sedis | |
| |
Chondrichthyes (/kɒnˈdrɪkθiiːz/; from Ancient Greek Template:Wikt-lang (Template:Grc-transl) 'cartilage', and Template:Wikt-lang (Template:Grc-transl) 'fish') is a class of jawed fish that contains the cartilaginous fish or chondrichthyans, which all have skeletons primarily composed of cartilage. They can be contrasted with the Osteichthyes or bony fish, which have skeletons primarily composed of bone tissue. Chondrichthyes are aquatic vertebrates with paired fins, paired nares, placoid scales, and conus arteriosus in the heart. Within the infraphylum Gnathostomata, cartilaginous fishes are distinct from all other jawed vertebrates.
The class is divided into two subclasses: Elasmobranchii (sharks, rays, skates and sawfish) which lack opercula, and Holocephali (chimaeras, sometimes called ghost sharks, which are sometimes separated into their own class). Extant chondrichthyans range in size from the 10 cm (3.9 in) finless sleeper ray to the over 10 m (33 ft) whale shark.[8]
Anatomy
Skeleton
The skeleton is cartilaginous. The notochord is gradually replaced by a vertebral column during development, except in Holocephali, where the notochord stays intact. In some deepwater sharks, the column is reduced.[9]
As they do not have bone marrow, red blood cells are produced in the spleen and the epigonal organ (special tissue around the gonads, which is also thought to play a role in the immune system). They are also produced in the Leydig's organ, which is only found in certain cartilaginous fishes. The subclass Holocephali, which is a very specialized group, lacks both the Leydig's and epigonal organs.
Appendages
Apart from electric rays, which have a thick and flabby body, with soft, loose skin, chondrichthyans have tough skin covered with dermal teeth (again, Holocephali is an exception, as the teeth are lost in adults, only kept on the clasping organ seen on the caudal ventral surface of the male), also called placoid scales (or dermal denticles), making it feel like sandpaper. In most species, all dermal denticles are oriented in one direction, making the skin feel very smooth if rubbed in one direction and very rough if rubbed in the other.
Originally, the pectoral and pelvic girdles, which do not contain any dermal elements, did not connect. In later forms, each pair of fins became ventrally connected in the middle when scapulocoracoid and puboischiadic bars evolved. In rays, the pectoral fins are connected to the head and are very flexible.
One of the primary characteristics present in most sharks is the heterocercal tail, which aids in locomotion.[10]
Body covering
Chondrichthyans have tooth-like scales called dermal denticles or placoid scales. Denticles usually provide protection, and in most cases, streamlining. Mucous glands exist in some species, as well.
It is assumed that their oral teeth evolved from dermal denticles that migrated into the mouth, but it could be the other way around, as the teleost bony fish Denticeps clupeoides has most of its head covered by dermal teeth (as does, probably, Atherion elymus, another bony fish). This is most likely a secondary evolved characteristic, which means there is not necessarily a connection between the teeth and the original dermal scales.
The old placoderms did not have teeth at all, but had sharp bony plates in their mouth. Thus, it is unknown whether the dermal or oral teeth evolved first. It has even been suggested[by whom?] that the original bony plates of all vertebrates are now gone and that the present scales are just modified teeth, even if both the teeth and body armor had a common origin a long time ago. However, there is currently no evidence of this.
Respiratory system
All chondrichthyans breathe through five to seven pairs of gills, depending on the species. In general, pelagic species must keep swimming to keep oxygenated water moving through their gills, whilst demersal species can actively pump water in through their spiracles and out through their gills.[11] However, this is only a general rule and many species differ.
A spiracle is a small hole behind each eye. These can be tiny and circular, such as found on the nurse shark (Ginglymostoma cirratum), to extended and slit-like, such as found on the wobbegongs (Orectolobidae). Many larger, pelagic species, such as the mackerel sharks (Lamnidae) and the thresher sharks (Alopiidae), no longer possess them.
Nervous system
In chondrichthyans, the nervous system is composed of a small brain, 8–10 pairs of cranial nerves, and a spinal cord with spinal nerves.[12] They have several sensory organs that provide information to be processed. Ampullae of Lorenzini are a network of small jelly-filled pores called electroreceptors which help the fish sense electric fields in water. This aids in finding prey, navigation, and sensing temperature. The lateral line system has modified epithelial cells located externally that sense motion, vibration, and pressure in the water around them. Most species have large, well-developed eyes. Also, they have very powerful nostrils and olfactory organs. Their inner ears consist of 3 large semicircular canals which aid in balance and orientation. Their sound-detecting apparatus has a limited range and is typically more powerful at lower frequencies. Some species have electric organs which can be used for defense and predation. They have relatively simple brains with the forebrain not greatly enlarged. The structure and formation of myelin in their nervous systems are nearly identical to that of tetrapods, which has led evolutionary biologists to believe that Chondrichthyes were a cornerstone group in the evolutionary timeline of myelin development.[13]
Immune system
Like all other jawed vertebrates, members of Chondrichthyes have an adaptive immune system.[14]
Reproduction
Fertilization is internal. Development is usually live birth (ovoviviparous species) but can be through eggs (oviparous). Some rare species are viviparous. There is no parental care after birth; however, some chondrichthyans do guard their eggs.
Capture-induced premature birth and abortion (collectively called capture-induced parturition) occurs frequently in sharks and rays when fished.[15] Capture-induced parturition is often mistaken for natural birth by recreational fishers and is rarely considered in commercial fisheries management despite being shown to occur in at least 12% of live bearing sharks and rays (88 species to date).[15]
Classification
The class Chondrichthyes has two subclasses: the subclass Elasmobranchii (sharks, rays, skates, and sawfish) and the subclass Holocephali (chimaeras). To see the full list of the species, click here.
| Subclasses of cartilaginous fishes | ||
|---|---|---|
| Elasmobranchii | File:White shark (Duane Raver).png
|
Elasmobranchii is a subclass that includes the sharks and the rays and skates. Members of the elasmobranchii have no swim bladders, five to seven pairs of gill clefts opening individually to the exterior, rigid dorsal fins, and small placoid scales. The teeth are in several series; the upper jaw is not fused to the cranium, and the lower jaw is articulated with the upper. The eyes have a tapetum lucidum. The inner margin of each pelvic fin in the male fish is grooved to constitute a clasper for the transmission of sperm. These fish are widely distributed in tropical and temperate waters.[16] |
| Holocephali | File:Chimaera monstrosa1.jpg | Holocephali (complete-heads) is a subclass of which the order Chimaeriformes is the only surviving group. This group includes the rat fishes (e.g., Chimaera), rabbit-fishes (e.g., Hydrolagus) and elephant-fishes (Callorhynchus). Today, they preserve some features of elasmobranch life in Paleaozoic times, though in other respects they are aberrant. They live close to the bottom and feed on molluscs and other invertebrates. The tail is long and thin and they move by sweeping movements of the large pectoral fins. There is an erectile spine in front of the dorsal fin, sometimes poisonous. There is no stomach (that is, the gut is simplified and the 'stomach' is merged with the intestine), and the mouth is a small aperture surrounded by lips, giving the head a parrot-like appearance.
The fossil record of the Holocephali starts in the Devonian period. The record is extensive, but most fossils are teeth, and the body forms of numerous species are not known, or at best poorly understood. |
| Taxonomy according to Leonard Compagno, 2005[17] with additions from [18] |
|---|
* position uncertain |
Evolution
Cartilaginous fish are considered to have evolved from acanthodians. The discovery of Entelognathus and several examinations of acanthodian characteristics indicate that bony fish evolved directly from placoderm like ancestors, while acanthodians represent a paraphyletic assemblage leading to Chondrichthyes. Some characteristics previously thought to be exclusive to acanthodians are also present in basal cartilaginous fish.[19] In particular, new phylogenetic studies find cartilaginous fish to be well nested among acanthodians, with Doliodus and Tamiobatis being the closest relatives to Chondrichthyes.[20] Recent studies vindicate this, as Doliodus had a mosaic of chondrichthyan and acanthodian traits.[21] Dating back to the Middle and Late Ordovician Period, many isolated scales, made of dentine and bone, have a structure and growth form that is chondrichthyan-like. They may be the remains of stem-chondrichthyans, but their classification remains uncertain.[22][23][24]
The earliest unequivocal fossils of acanthodian-grade cartilaginous fishes are Qianodus and Fanjingshania from the early Silurian (Aeronian) of Guizhou, China around 439 million years ago, which are also the oldest unambiguous remains of any jawed vertebrates.[25][26] Shenacanthus vermiformis, which lived 436 million years ago, had thoracic armour plates resembling those of placoderms.[27]
By the start of the Early Devonian, 419 million years ago, jawed fishes had divided into three distinct groups: the now extinct placoderms (a paraphyletic assemblage of ancient armoured fishes), the bony fishes, and the clade that includes spiny sharks and early cartilaginous fish. The modern bony fishes, class Osteichthyes, appeared in the late Silurian or early Devonian, about 416 million years ago. The first abundant genus of shark, Cladoselache, appeared in the oceans during the Devonian Period. The first cartilaginous fishes evolved from Doliodus-like spiny shark ancestors.
| Extinct orders of cartilaginous fishes | |||||||||
|---|---|---|---|---|---|---|---|---|---|
| Group | Order | Image | Common name | Authority | Families | Genera | Species | Note | |
| Holocephali | †Orodontiformes | File:Orodus sp1DB.jpg | Orodonts | Zangerl, 1981[28] | 2[29] | Early members of Chondrichthyes based mostly on teeth. Includes many species that are unrelated to one another.[28] | |||
| †Petalodontiformes | File:Belantsea montana.png | Petalodonts | Patterson, 1965[30][31][32] (equiv. to Petalodontida Zangerl, 1981)[28][33][34] | 5 or 6[29][31] | Members of holocephali. Some resembled skates or rays,[35] while others were compressed and had beak-like jaws.[34] | ||||
| †Helodontiformes | File:Helodus simplex.png | Helodonts | Patterson, 1965[32][36] | 1[29] | 1[35] | 1?[36] | Members of Holocephali based mostly on teeth.[35] A single species is known from skeletal fossils.[36] | ||
| †Iniopterygiformes | File:Iniopteryx sp.png | Iniopterygians | Zangerl & Case, 1973 (as Iniopterygia)[37] | 2[29] | Early chondrichthyans that resembled flying fish.[37] May be members of Holocephali.[35] | ||||
| †Debeeriiformes | File:Debeerius ellefsen, with coloration based on preserved color patterns.png | Grogan & Lund, 2000[38] | 1[29] | 2[38] | 2[38] | Members of Holocephali with a primitive form of jaw suspension called autodiastyly.[38] | |||
| †Symmoriiformes | File:Symmorium1DB.jpg | Symmoriids | Zangerl, 1981 (sensu Maisey, 2007)[39] | 2 or 3[29][35] | Potential members of Holocephali that were heavily sexually dimorphic. Males had an organ called a "spine-brush complex" instead of a first dorsal fin.[40] | ||||
| †Eugeneodontiformes | File:Fadenia crenulata.png | Eugeneodonts | Zangerl, 1981 (as Eugeneodontida)[28] | 4 or 5[29][41] | Members of holocephali, they are characterized by large tooth whorls in their jaws.[42] | ||||
| †Psammodonti- formes |
Obruchev, 1953 | 1[29] | Members of Holocephali, almost exclusively known from teeth.[35] A single skull is known, which had armor plates.[43] | ||||||
| †Copodontiformes | Obruchev, 1953 | 1[29] | Members of Holocephali. Relationships and appearance are uncertain as this order is only known from teeth.[35] | ||||||
| †Squalorajiformes | File:Squaloraja polyspondyla.png | 1[29] | 2?[44] | 2?[44] | Members of Holocephali, sometimes included in Chimaeriformes.[35][44] | ||||
| †Chondrenchelyi- formes |
File:Chondrenchelys male and female.png | Patterson, 1965[32] | 2[29] | Members of Holocephali with eel-like bodies and teeth similar to modern chimaeras. Members are sexually dimorphic.[45] | |||||
| †Menaspiformes | File:MenaspidDB17.jpg | Obruchev, 1953 (equiv. to Menaspoidei Patterson, 1965)[32] | 3[29] | Members of Holocephali with heavy armor plating. Historically misinterpreted as placoderms or ostracoderms.[32] | |||||
| †Cochliodontiformes | Cochliodonts | Obruchev, 1953 | 2[29] | Members of Holocephali known almost exclusively from teeth; some body fossils are known but have not been described.[46] | |||||
| Squalomorph sharks |
†Protospinaci- formes |
1[29] | |||||||
| Other | †Squatinactiformes | File:Squatinactis NT small.jpg | Cappetta et al., 1993 | 1[29] | 1 | 1 | Early chondrichthyans with ray-like bodies.[35] | ||
| †Protacrodonti- formes |
Zangerl, 1981 | 1[29] | Early members of Elasmobranchii. | ||||||
| †Cladoselachi- formes |
File:Cladoselache.png | Dean, 1894 | 1[29] | 2[47] | Potentially members of Holocephali and of the Symmoriiformes.[47] | ||||
| †Xenacanthiformes | File:Xenacanth.png | Xenacanths | Glikman, 1964 | 2 or 3[29][35] | Eel-like chondrichthyans that typically lived in freshwater. May be members of Elasmobranchii. | ||||
| †Ctenacanthi- formes |
File:Dracopristis hoffmanorum.png | Ctenacanths | Glikman, 1964 | 1 or 2[29][35] | Shark-like chondrichthyans characterized by their robust heads and large dorsal fin spines. May be members of Elasmobranchii | ||||
| †Hybodontiformes | File:Hybodus hauffianus.png | Hybodonts | Patterson, 1966 | 10 or 11[29][35] | Shark-like elasmobranchs distinguished by their conical tooth shape, and the presence of a spine on each of their two dorsal fins. | ||||
Taxonomy
| Vertebrata |
| ||||||||||||||||||||||||||||||
See also
- List of cartilaginous fish
- Cartilaginous versus bony fishes
- Largest cartilaginous fishes
- Important Shark and Ray Areas (ISRA)
- Threatened rays
- Threatened sharks
- Placodermi
- Acanthodii
References
- ↑ "Mazon Monday #19: Species Spotlight: Bandringa rayi #MazonCreek #fossils #MazonMonday #shark". Earth Science Club of Northern Illinois - ESCONI. 3 August 2020. Retrieved 4 October 2020.
- ↑ "Bear Gulch - Delphyodontos dacriformes". Fossil Fishes of Bear Gulch. Archived from the original on 25 February 2015. Retrieved 15 May 2019.
- ↑ Mutter, R.J.; Neuman, A.G. "An enigmatic chondrichthyan with Paleozoic affinities from the Lower Triassic of western Canada". Acta Palaeontologica Polonica. 51 (2): 271–282.
- ↑ "Fossilworks: Acanthorhachis". fossilworks.org. Retrieved 17 December 2021.
- ↑ Long, John; Thomson, Victoria; Burrow, Carole; Turner, Susan (28 October 2021), Pradel, Alan; Denton, John S.S.; Janvier, Philippe (eds.), "Fossil chondrichthyan remains from the Middle Devonian Kevington Creek Formation, South Blue Range, Victoria" (PDF), Ancient Fishes and their Living Relatives, Munich, Germany: Verlag, Dr Friedrich Pfeil, pp. 239–245, ISBN 978-3-89937-269-4, retrieved 30 November 2023
- ↑ Charlie J. Underwood and Jan Schlogl (2012). "Deep water chondrichthyans from the Early Miocene of the Vienna Basin (Central Paratethys, Slovakia)". Acta Palaeontologica Polonica. 58 (3): 487–509. doi:10.4202/app.2011.0101.
- ↑ Anderson, M. Eric; Long, John A.; Gess, Robert W.; Hiller, Norton (1999). "An unusual new fossil shark (Pisces: Chondrichthyes) from the Late Devonian of South Africa". Records of the Western Australian Museum. 57: 151–156.
- ↑ "Chondrichthyan | Definition, Species, & Facts | Britannica". www.britannica.com. Retrieved 4 October 2025.
- ↑ Compagno, Leonard J. V.; Nations, Food and Agriculture Organization of the United (20 November 2001). Sharks of the World: An Annotated and Illustrated Catalogue of Shark Species Known to Date. Food & Agriculture Org. ISBN 978-92-5-104543-5 – via Google Books.
- ↑ Wilga, C. D.; Lauder, G. V. (2002). "Function of the heterocercal tail in sharks: quantitative wake dynamics during steady horizontal swimming and vertical maneuvering". Journal of Experimental Biology. 205 (16): 2365–2374. Bibcode:2002JExpB.205.2365W. doi:10.1242/jeb.205.16.2365. PMID 12124362.
- ↑ Long, Douglas (8 September 1998). "Chondrichthyan/Form and function". Britannica. Retrieved 29 March 2026.
- ↑ Collin, Shaun P. (2012). "The Neuroecology of Cartilaginous Fishes: Sensory Strategies for Survival". Brain, Behavior and Evolution. 80 (2): 80–96. doi:10.1159/000339870. PMID 22986825. S2CID 207717002.
- ↑ de Bellard, Maria Elena (15 June 2016). "Myelin in cartilaginous fish". Brain Research. 1641 (Pt A): 34–42. doi:10.1016/j.brainres.2016.01.013. PMC 4909530. PMID 26776480.
- ↑ Flajnik, M. F.; Kasahara, M. (2009). "Origin and evolution of the adaptive immune system: genetic events and selective pressures". Nature Reviews Genetics. 11 (1): 47–59. doi:10.1038/nrg2703. PMC 3805090. PMID 19997068.
- ↑ 15.0 15.1 Adams, Kye R.; Fetterplace, Lachlan C.; Davis, Andrew R.; Taylor, Matthew D.; Knott, Nathan A. (January 2018). "Sharks, rays and abortion: The prevalence of capture-induced parturition in elasmobranchs". Biological Conservation. 217: 11–27. Bibcode:2018BCons.217...11A. doi:10.1016/j.biocon.2017.10.010. S2CID 90834034. Archived from the original on 23 February 2019. Retrieved 18 January 2019.
- ↑ Bigelow, Henry B.; Schroeder, William C. (1948). Fishes of the Western North Atlantic. Sears Foundation for Marine Research, Yale University. pp. 64–65. ASIN B000J0D9X6.
- ↑ Compagno, Leonard; Dando, Marc; Fowler, Sarah L. (2005). Sharks of the World. Princeton University Press. ISBN 978-0-691-12072-0.
- ↑ Haaramo, Mikko. Chondrichthyes – Sharks, Rays and Chimaeras. Retrieved 22 October 2013.
- ↑ Min Zhu; Xiaobo Yu; Per Erik Ahlberg; Brian Choo; Jing Lu; Tuo Qiao; Qingming Qu; Wenjin Zhao; Liantao Jia; Henning Blom; You'an Zhu (2013). "A Silurian placoderm with osteichthyan-like marginal jaw bones". Nature. 502 (7470): 188–193. Bibcode:2013Natur.502..188Z. doi:10.1038/nature12617. PMID 24067611. S2CID 4462506.
- ↑ Burrow, CJ; Den Blaauwen, J.; Newman, MJ; Davidson, RG (2016). "The diplacanthid fishes (Acanthodii, Diplacanthiformes, Diplacanthidae) from the Middle Devonian of Scotland". Palaeontologia Electronica. doi:10.26879/601.
- ↑ Maisey, John G.; Miller, Randall; Pradel, Alan; Denton, John S.S.; Bronson, Allison; Janvier, Philippe (2017). "Pectoral Morphology in Doliodus: Bridging the 'Acanthodian'-Chondrichthyan Divide" (PDF). American Museum Novitates (3875): 1–15. doi:10.1206/3875.1. S2CID 44127090. Archived (PDF) from the original on 9 October 2022.
- ↑ Andreev, Plamen S.; Coates, Michael I.; Shelton, Richard M.; Cooper, Paul R.; Smith, M. Paul; Sansom, Ivan J. (2015). "Ordovician chondrichthyan-like scales from North America". Palaeontology. 58 (4): 691–704. doi:10.1111/pala.12167. S2CID 140675923.
- ↑ Sansom, Ivan J.; Davies, Neil S.; Coates, Michael I.; Nicoll, Robert S.; Ritchie, Alex (2012). "Chondrichthyan-like scales from the Middle Ordovician of Australia". Palaeontology. 55 (2): 243–247. Bibcode:2012Palgy..55..243S. doi:10.1111/j.1475-4983.2012.01127.x.
- ↑ Lua error in package.lua at line 80: module 'Module:Citation/CS1/Suggestions' not found.
- ↑ Andreev, Plamen S.; Sansom, Ivan J.; Li, Qiang; Zhao, Wenjin; Wang, Jianhua; Wang, Chun-Chieh; Peng, Lijian; Jia, Liantao; Qiao, Tuo; Zhu, Min (September 2022). "Spiny chondrichthyan from the lower Silurian of South China". Nature. 609 (7929): 969–974. Bibcode:2022Natur.609..969A. doi:10.1038/s41586-022-05233-8. PMID 36171377 Check
|pmid=value (help). S2CID 252570103 Check|s2cid=value (help). - ↑ Andreev, Plamen S.; Sansom, Ivan J.; Li, Qiang; Zhao, Wenjin; Wang, Jianhua; et al. (28 September 2022). "The oldest gnathostome teeth". Nature. 609 (7929): 964–968. Bibcode:2022Natur.609..964A. doi:10.1038/s41586-022-05166-2. PMID 36171375 Check
|pmid=value (help). S2CID 252569771 Check|s2cid=value (help). - ↑ Zhu, Y. A.; Li, Q.; Lu, J.; Chen, Y.; Wang, J.; Gai, Z.; Zhao, W.; Wei, G.; Yu, Y.; Ahlberg, P. E.; Zhu, M. (2022). "The oldest complete jawed vertebrates from the early Silurian of China". Nature. 609 (7929): 954–958. Bibcode:2022Natur.609..954Z. doi:10.1038/s41586-022-05136-8. PMID 36171378 Check
|pmid=value (help). S2CID 252569910 Check|s2cid=value (help). - ↑ 28.0 28.1 28.2 28.3 Ginter, Michał; Hampe, Oliver; Duffin, Christopher J. (2010). Handbook of paleoichthyology: teeth. München: F. Pfeil. ISBN 978-3-89937-116-1.
- ↑ 29.00 29.01 29.02 29.03 29.04 29.05 29.06 29.07 29.08 29.09 29.10 29.11 29.12 29.13 29.14 29.15 29.16 29.17 29.18 29.19 Van der Laan, Richard (11 October 2018). "Family-group names of fossil fishes". European Journal of Taxonomy (466). doi:10.5852/ejt.2018.466. ISSN 2118-9773.
- ↑ Egli, H. Chase; Hodnett, John-Paul M.; Hodge, Cody M.; Ward, Gabriel V. (2 December 2025). "Obruchevodid petalodonts (Chondrichthyes, Holocephali) from the Upper Mississippian (Serpukhovian) Bangor Limestone of northern Alabama, U.S.A.". Historical Biology. 37 (12): 2642–2651. doi:10.1080/08912963.2024.2412139.
- ↑ 31.0 31.1 Hodnett, John-Paul M.; Toomey, Rickard; Olson, Rickard; Tweet, Justin S.; Santucci, Vincent L. (2024). "Janassid petalodonts (Chondrichthyes, Petalodontiformes, Janassidae) from the middle Mississippian (Viséan) Ste. Genevieve Formation, Mammoth Cave National Park, Kentucky, USA". Historical Biology. 36 (9): 1783–1792. doi:10.1080/08912963.2023.2231955.
- ↑ 32.0 32.1 32.2 32.3 32.4 Patterson, Colin (10 June 1965). "The phylogeny of the chimaeroids". Philosophical Transactions of the Royal Society of London. Series B, Biological Sciences. 249 (757): 101–219. doi:10.1098/rstb.1965.0010.
- ↑ Gai, Zhikun; Bai, Zhijun; Lin, Xianghong; Meng, Xinyuan; Zhang, Junwen (2021). "First Record of Petalodus Owen, 1840 (Chondrichthyes, Petalodontidae) in the Lower Permian (Cisuralian) of China". Acta Geologica Sinica - English Edition. 95 (4): 1057–1064. doi:10.1111/1755-6724.14784.
- ↑ 34.0 34.1 Robb, Albert J. (2003). "Notes on the occurrence of some petalodont shark fossils from the Upper Pennsylvanian rocks of northeastern Kansas". Transactions of the Kansas Academy of Science. 106 (1 &, 2): 71–80. doi:10.1660/0022-8443(2003)106[0071:NOTOOS]2.0.CO;2.
- ↑ 35.00 35.01 35.02 35.03 35.04 35.05 35.06 35.07 35.08 35.09 35.10 35.11 Nelson, Joseph S.; Grande, Terry C.; Wilson, Mark V. H. (22 February 2016). Fishes of the World (1 ed.). Wiley. doi:10.1002/9781119174844. ISBN 978-1-118-34233-6.
- ↑ 36.0 36.1 36.2 Coates, Michael; Tietjen, Kristen; Johanson, Zerina; Friedman, Matt; Sang, Stephanie (2021). Pradel, Alan; Denton, John S. S.; Janvier, Philippe; Maisey, John G. (eds.). The cranium of Helodus simplex (Agassiz, 1838) revised. Ancient fishes and their living relatives: a tribute to John G. Maisey. München: Verlag Dr. Friedrich Pfeil. pp. 193–204. ISBN 978-3-89937-269-4.
- ↑ 37.0 37.1 Zangerl, Rainer; Case, Gerard R. (1973). Iniopterygia : a new order of Chondrichthyan fishes from the Pennsylvanian of North America. Fieldiana. 6. Chicago: Field Museum of Natural History. doi:10.5962/bhl.title.5158.
- ↑ 38.0 38.1 38.2 38.3 Grogan, Eileen D.; Lund, Richard (2000). "Debeerius ellefseni (Fam. Nov., Gen. Nov., Spec. Nov.), an autodiastylic chondrichthyan from the Mississippian Bear Gulch Limestone of Montana (USA), the relationships of the chondrichthyes, and comments on gnathostome evolution". Journal of Morphology. 243 (3): 219–245. doi:10.1002/(SICI)1097-4687(200003)243:3<219::AID-JMOR1>3.0.CO;2-1.
- ↑ Maisey, John G. (2007). "THE BRAINCASE IN PALEOZOIC SYMMORIIFORM AND CLADOSELACHIAN SHARKS". Bulletin of the American Museum of Natural History. 307: 1–122. doi:10.1206/0003-0090(2007)307[1:TBIPSA]2.0.CO;2.
- ↑ Coates, M.; Gess, R.; Finarelli, J.; Criswell, K.; Tietjen, K. (2016). "A symmoriiform chondrichthyan braincase and the origin of chimaeroid fishes". Nature. 541 (7636): 208–211. Bibcode:2017Natur.541..208C. doi:10.1038/nature20806. PMID 28052054. S2CID 4455946.
- ↑ Lebedev, O. A.; Itano, W. M.; Johanson, Z.; Alekseev, A. S.; Smith, M. M.; Ivanov, A. V.; Novikov, I. V. (2022). "Tooth whorl structure, growth and function in a helicoprionid chondrichthyan Karpinskiprion (nom. nov.) (Eugeneodontiformes) with a revision of the family composition". Earth and Environmental Science Transactions of the Royal Society of Edinburgh. 113 (4): 337–360. Bibcode:2022EESTR.113..337L. doi:10.1017/S1755691022000251.
- ↑ Lua error in package.lua at line 80: module 'Module:Citation/CS1/Suggestions' not found.
- ↑ Ahlberg, Per Erik; Coates, Michael I. (1997). "There's a ratfish in our cellar!". Geology Today. 13 (1): 20–23. Bibcode:1997GeolT..13...20A. doi:10.1046/j.1365-2451.1997.00013.x.
- ↑ 44.0 44.1 44.2 Itano, Wayne M.; Duffin, Christopher J. (20 June 2023). "An enigmatic chondrichthyan spine from the Visean of Indiana, USA that resembles a median rostral cartilage of Squaloraja (Holocephali, Chimaeriformes)". Spanish Journal of Palaeontology. 38 (1): 57–68. doi:10.7203/sjp.26305. hdl:10550/118342.
- ↑ Finarelli, John A.; Coates, Michael I. (2014). "Chondrenchelys problematica (Traquair, 1888) redescribed: a Lower Carboniferous, eel-like holocephalan from Scotland". Earth and Environmental Science Transactions of the Royal Society of Edinburgh. 105 (1): 35–59. doi:10.1017/S1755691014000139.
- ↑ Lund, Richard (1977). New information on the evolution of the Bradyodont Chondrichthyes. Chicago: Field Museum of Natural History. doi:10.5962/bhl.title.5311.
- ↑ 47.0 47.1 Lua error in package.lua at line 80: module 'Module:Citation/CS1/Suggestions' not found.
Further reading
| File:Wikispecies-logo.svg | Wikispecies has information related to Chondrichthyes. |
| File:Wikibooks-logo-en-noslogan.svg | The Wikibook Dichotomous Key has a page on the topic of: Chondrichthyes |
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