Fandom

Fossil Wiki

Mammal

7,217pages on
this wiki
Add New Page
Talk1 Share
Mammals
Fossil range: Early Jurassic - Recent
Gobiconodon
Gobiconodon, an early mammal.
Scientific classification

Phylum:

Chordata

Subphylum:

Vertebrata

Infraphylum:

Gnathostomata

Superclass:

Tetrapoda

(Unranked) :

Amniota

Class:

Mammalia
Linnaeus, 1758

Subdivisions:

Mammals (formally Mammalia) are a class of vertebrate animals whose name is derived from their distinctive feature, mammary glands, with which they feed their young. They are also characterized by the possession of sweat glands, hair, three middle ear bones used in hearing, and a neocortex region in the brain.

Phylogenetically, Mammalia is defined as all descendants of the most recent common ancestor of monotremes (e.g., echidnas and platypuses) and therian mammals (marsupials and placentals).[1] This means that some extinct groups of "mammals" are not members of the crown group Mammalia, even though most of them have all the characteristics that traditionally would have classified them as mammals.[2] These "mammals" are now usually placed in the unranked clade Mammaliaformes.

The mammalian line of descent diverged from the reptile line at the end of the Carboniferous period. The majority of reptiles would evolve into modern-day reptiles and birds, while the synapsid branch led to mammals. The first true mammals appeared in the Jurassic period. Modern mammalian orders appeared in the Palaeocene and Eocene epochs of the Paleogene period.

Distinguishing featuresEdit

Living mammal species can be identified by the presence of sweat glands, including those that are specialized to produce milk.

However, other features are required when classifying fossils, since soft tissue glands and some other features are not visible in fossils. Paleontologists use a distinguishing feature that is shared by all living mammals (including monotremes), but is not present in any of the early Triassic synapsids: mammals use two bones for hearing that were used for eating by their ancestors. The earliest synapsids had a jaw joint composed of the articular (a small bone at the back of the lower jaw) and the quadrate (a small bone at the back of the upper jaw). Most reptiles and non-mammalian synapsids use this system including lizards, crocodilians, dinosaurs (and their descendants the birds), and therapsids (mammal-like "reptiles"). Mammals have a different jaw joint, however, composed only of the dentary (the lower jaw bone which carries the teeth) and the squamosal (another small skull bone). In mammals the quadrate and articular bones have become the incus and malleus bones in the middle ear. Note: "non-mammalian synapsids" above implies that mammals are a sub-group of synapsids, and that is exactly what cladistics says they are.

Mammals also have a double occipital condyle: they have two knobs at the base of the skull which fit into the topmost neck vertebra, and other vertebrates have a single occipital condyle. Paleontologists use only the jaw joint and middle ear as criteria for identifying fossil mammals, since it would be confusing if they found a fossil that had one feature, but not the other.

Evolutionary historyEdit

Main article: Evolution of mammals
Mammaliaformes

Adelobasileus


void

Sinocodon


void

Morganucodon


void

Docodonta


void

––Hadrocodium



––Mammalia







Synapsida, the group which contains mammals and their extinct relatives, originated during the Pennsylvanian epoch, when they split from the lineage that led to reptiles and birds. Non-mammalian synapsids were once called "mammal-like reptiles", although they are usually no longer considered reptiles. Mammals evolved from non-mammalian synapsids during the Early Jurassic.

EvolutionEdit

Skull synapsida 1

The original synapsid skull structure has one hole behind each eye, in a fairly low position on the skull (lower right in this image).

The first fully terrestrial vertebrates were amniotes. Like the amphibians they evolved from, they had legs and lungs. Amniotes' eggs, however, had internal membranes which allowed the developing embryo to breathe but kept water in. This allowed amniotes to lay eggs on dry land, while amphibians generally need to lay their eggs in water.

The first amniotes apparently arose in the Late Carboniferous. They descended from earlier tetrapods, which lived on land already inhabited by insects, other invertebrates, ferns, mosses, and other plants. Within a few million years two important amniote lineages became distinct: the synapsids, which include mammals; and the sauropsids, which include lizards, snakes, crocodilians, dinosaurs and birds.[3] Synapsids have a single hole (temporal fenestra) low on each side of the skull.

One synapsid group, the pelycosaurs, were the most common land vertebrates of the early Permian and included the largest land animals of the time.[4]

Therapsids descended from pelycosaurs in the Middle Permian, about 260 Mya, and took over their position as the dominant land vertebrates. They differ from pelycosaurs in several features of the skull and jaws, including: larger temporal fenestrae; incisors which are equal in size.[5] The therapsids went through a series of stages, beginning with animals which were very like their pelycosaur ancestors and ending with the Triassic cynodonts, some of which could easily be mistaken for mammals. Those stages were characterized by:

  • gradual development of a bony secondary palate.[6]
  • the dentary gradually becomes the main bone of the lower jaw.
  • progress towards an erect limb posture, which would increase the animals' stamina by avoiding Carrier's constraint. But this process was slow and erratic - for example: all herbivorous therapsids retained sprawling limbs (some late forms may have had semi-erect hind limbs); Permian carnivorous therapsids had sprawling forelimbs, and some late Permian ones also had semi-sprawling hindlimbs. In fact modern monotremes still have semi-sprawling limbs.
  • in the Triassic, progress towards the mammalian jaw and middle ear.
  • there is possible evidence of hair in Triassic therapsids, but none for Permian therapsids.
  • some scientists have argued that some Triassic therapTrilophosaurussids show signs of lactation.

The Permian–Triassic extinction event ended the dominance of the therapsids, and in the Early Triassic all the medium to large land animal niches were taken over by early archosaurs, which were the ancestors of crocodilians, pterosaurs, dinosaurs and birds. After this "Triassic Takeover" the cynodonts and their descendants could only survive as small, mainly nocturnal insectivores.[7] This may actually have accelerated the evolution of mammals - for example the surviving cynodonts and their descendants had to evolve towards warm-bloodedness because their small bodies would otherwise have lost heat quickly, especially as they were active mainly at night.

The first true mammals appeared in the Early Jurassic, over 70 million years after the first therapsids and approximately 30 million years after the first mammaliaformes. Hadrocodium appears to be in the middle of the transition to true mammal status — it had a mammalian jaw joint (formed by the dentary and squamosal bones), but there is some debate about whether its middle ear was fully mammalian.[8]

The earliest known monotreme is Teinolophos, which lived about 123 Mya in Australia. Monotremes have some features which may be inherited from the original amniotes:

  • they use the same orifice to urinate, defecate and reproduce ("monotreme" means "one hole") - as lizards and birds also do.
  • they lay eggs which are leathery and uncalcified, like those of lizards, turtles and crocodilians.

Unlike other mammals, female monotremes do not have nipples and feed their young by "sweating" milk from patches on their bellies.

The oldest known marsupial is Sinodelphys, found in 125 Mya Early Cretaceous shale in China's northeastern Liaoning Province. The fossil is nearly complete and includes tufts of fur and imprints of soft tissues.[9]

Giant ground sloth Iowa

Reconstruction based on Megalonyx jeffersonii, Iowa Museum of Natural History, University of Iowa.

The living Eutheria ("true beasts") are all placentals. But the earliest known eutherian, Eomaia, found in China and dated to 125M years ago, has some features which are more like those of marsupials (the surviving metatherians):[10]

  • Epipubic bones extending forwards from the pelvis, which are not found in any modern placental, but are found in marsupials, monotremes and mammaliformes such as multituberculates. In other words, they appear to be an ancestral feature which subsequently disappeared in the placental lineage.
  • A narrow pelvic outlet, which indicates that the young were very small at birth and therefore pregnancy was short, as in modern marsupials. This suggests that the placenta was a later development.

It is not certain when placental mammals evolved - the earliest undisputed fossils of placentals come from the early Paleocene, after the extinction of the dinosaurs.[11]

Mammals and near-mammals expanded out of their nocturnal insectivore niche from the mid Jurassic onwards - for example Castorocauda had adaptations for swimming, digging and catching fish.[12]

The traditional view is that: mammals only took over the medium- to large-sized ecological niches in the Cenozoic, after the extinction of the dinosaurs; but then they diversified very quickly; for example the earliest known bat dates from about 50M years ago, only 15M years after the extinction of the dinosaurs.[13]

On the other hand recent molecular phylogenetic studies suggest that most placental orders diverged about 100M to 85M years ago, but that modern families first appeared in the late Eocene and early Miocene[14] But paleontologists object that no placental fossils have been found from before the end of the Cretaceous[11]

During the Cenozoic several groups of mammals appeared which were much larger than their nearest modern equivalents - but none was even close to the size of the largest dinosaurs with similar feeding habits.

Earliest appearances of featuresEdit

Hadrocodium, whose fossils date from the early Jurassic, provides the first clear evidence of fully mammalian jaw joints.

It has been suggested that the original function of lactation (milk production) was to keep eggs moist. Much of the argument is based on monotremes (egg-laying mammals):[15][16][17]

The earliest clear evidence of hair or fur is in fossils of Castorocauda, from 164M years ago in the mid Jurassic. From 1955 onwards some scientists have interpreted the foramina (passages) in the maxillae (upper jaws) and premaxillae (small bones in front of the maxillae) of cynodonts as channels which supplied blood vessels and nerves to vibrissae (whiskers), and suggested that this was evidence of hair or fur.[18][19] But foramina do not necessarily show that an animal had vibrissae - for example the modern lizard Tupinambis has foramina which are almost identical to those found in the non-mammalian cynodont Thrinaxodon.[20][21]

PantheraLeoAtrox1

American Lion was one of the abundant Pleistocene megafauna, a wide variety of very large mammals who lived during the Pleistocene and went extinct about 10,000 years ago.[22]

The evolution of erect limbs in mammals is incomplete — living and fossil monotremes have sprawling limbs. In fact some scientists think that the parasagittal (non-sprawling) limb posture is a synapomorphy (distinguishing characteristic) of the Boreosphenida, a group which contains the Theria and therefore includes the last common ancestor of modern marsupial and placentals - and therefore that all earlier mammals had sprawling limbs.[23]Sinodelphys (the earliest known marsupial) and Eomaia (the earliest known eutherian) lived about 125M years ago, so erect limbs must have evolved before then.

It is currently very difficult to be confident when endothermy first appeared in the evolution of mammals. Modern monotremes have a lower body temperature and more variable metabolic rate than marsupials and placentals.[24] So the main question is when a monotreme-like metabolism evolved in mammals. The evidence found so far suggests Triassic cynodonts may have had fairly high metabolic rates, but is not conclusive. In particular it is difficult to see how small animals can maintain a high and stable body temperature without fur.

See alsoEdit

ReferencesEdit

  1. ^ Rose, Kenneth D. (2006). The beginning of the age of mammals. Baltimore: Johns Hopkins University Press. p. 43. ISBN 0-8018-8472-1. 
  2. ^ McKenna, Malcolm C.; Bell, Susan Groag. Classification of Mammals. Columbia University Press. p. 32. ISBN 0-231-11013-8. 
  3. ^ "Amniota - Palaeos". http://www.palaeos.org/Amniota. 
  4. ^ "Synapsida overview - Palaeos". http://www.palaeos.com/Vertebrates/Units/Unit390/000.html. 
  5. ^ "Therapsida - Palaeos". http://www.palaeos.com/Vertebrates/Units/400Therapsida/100.html. 
  6. ^ Kermack; Kermack (1984). The evolution of mammalian characters. Croom Helm. ISBN 079915349. 
  7. ^ "Cynodontia: Overview - Palaeos". http://www.palaeos.com/Vertebrates/Units/410Cynodontia/410.000.html. 
  8. ^ "Symmetrodonta - Palaeos". http://www.palaeos.com/Vertebrates/Units/Unit420/420.300.html. 
  9. ^ "Oldest Marsupial Fossil Found in China". National Geographic News. December 15, 2003. http://news.nationalgeographic.com/news/2003/12/1215_031215_oldestmarsupial.html. 
  10. ^ "Eomaia scansoria: discovery of oldest known placental mammal". http://www.evolutionpages.com/Eomaia%20scansoria.htm. 
  11. ^ a b "Dinosaur Extinction Spurred Rise of Modern Mammals". News.nationalgeographic.com. http://news.nationalgeographic.com/news/2007/06/070620-mammals-dinos.html. Retrieved on 2009-03-08. 
  12. ^ "Jurassic "Beaver" Found; Rewrites History of Mammals". http://news.nationalgeographic.com/news/2006/02/0223_060223_beaver.html. 
  13. ^ "Rogue finger gene got bats airborne". Newscientist.com. http://www.newscientist.com/news/news.jsp?id=ns99996647. Retrieved on 2009-03-08. 
  14. ^ Bininda-Emonds, O.R.P.; Cardillo, M.; Jones, K.E.; 'et al' (2007). "The delayed rise of present-day mammals". Nature (446): 507–511. http://scienceblogs.com/pharyngula/2007/03/dont_blame_the_dinosaurs.php. 
  15. ^ Oftedal, O.T. (2002). "The mammary gland and its origin during synapsid evolution". Journal of Mammary Gland Biology and Neoplasia 7 (3): 225–252. doi:10.1023/A:1022896515287. 
  16. ^ Oftedal, O.T. (2002). The origin of lactation as a water source for parchment-shelled eggs=Journal of Mammary Gland Biology and Neoplasia. 7. pp. 253–266. 
  17. ^ "Lactating on Eggs". Nationalzoo.si.edu. 2003-07-14. http://nationalzoo.si.edu/ConservationAndScience/SpotlightOnScience/oftedalolav20030714.cfm. Retrieved on 2009-03-08. 
  18. ^ Brink, A.S. (1955). "A study on the skeleton of Diademodon". Palaeontologia Africana 3: 3–39. 
  19. ^ Kemp, T.S. (1982). Mammal-like reptiles and the origin of mammals. London: Academic Press. p. 363. 
  20. ^ Bennett, A. F. and Ruben, J. A. (1986) "The metabolic and thermoregulatory status of therapsids"; pp. 207–218 in N. Hotton III, P. D. MacLean, J. J. Roth and E. C. Roth (eds), "The ecology and biology of mammal-like reptiles", Smithsonian Institution Press, Washington.
  21. ^ Estes, R. (1961). "Cranial anatomy of the cynodont reptile Thrinaxodon liorhinus". Bulletin of the Museum of Comparative Zoology: 165–180. 
  22. ^ Ice Age Animals, Illinois State Museum
  23. ^ Kielan−Jaworowska, Z.; Hurum, J.H.. (2006). "Limb posture in early mammals: Sprawling or parasagittal" (Template:Dead linkScholar search). Acta Palaeontologica Polonica 51 (3): 10237–10239. Archived from the original on 2007-02-21. http://web.archive.org/web/20070221173228/http://www.app.pan.pl/acta51/app51-393.pdf. 
  24. ^ Paul, G.S. (1988). Predatory Dinosaurs of the World. New York: Simon and Schuster. p. 464. 


Further ReadingEdit

    • David MacDonald, Sasha Norris. 2006. The Encyclopedia of Mammals, 3rd edition. Printed in China, 930 pp. ISBN 0-681-45659-0.

External linksEdit

Ad blocker interference detected!


Wikia is a free-to-use site that makes money from advertising. We have a modified experience for viewers using ad blockers

Wikia is not accessible if you’ve made further modifications. Remove the custom ad blocker rule(s) and the page will load as expected.