Animal

Animals
Temporal range: Cryogenian – present, 665–0 Ma
EchinodermCnidariaTardigradeCrustaceanArachnidSpongeInsectBryozoaAcanthocephalaFlatwormMolluscAnnelidVertebrateTunicatePhoronid
Scientific classification Edit this classification
Domain: Eukaryota
Clade: Amorphea
Clade: Obazoa
(unranked): Opisthokonta
(unranked): Holozoa
(unranked): Filozoa
Clade: Choanozoa
Kingdom: Animalia
Linnaeus, 1758
Subdivisions
Synonyms
  • Metazoa Haeckel 1874[1]
  • Choanoblastaea Nielsen 2008[2]
  • Gastrobionta Rothm. 1948[3]
  • Zooaea Barkley 1939[3]
  • Euanimalia Barkley 1939[3]

Animals are multicellular, eukaryotic organisms in the biological kingdom Animalia (/ˌænɪˈmliə/[4]). With few exceptions, animals consume organic material, breathe oxygen, have myocytes and are able to move, can reproduce sexually, and grow from a hollow sphere of cells, the blastula, during embryonic development. Animals form a clade, meaning that they arose from a single common ancestor.

Over 1.5 million living animal species have been described, of which around 1.05 million are insects, over 85,000 are molluscs, and around 65,000 are vertebrates. It has been estimated there are as many as 7.77 million animal species on Earth. Animal body lengths range from 8.5 μm (0.00033 in) to 33.6 m (110 ft). They have complex ecologies and interactions with each other and their environments, forming intricate food webs. The scientific study of animals is known as zoology, and the study of animal behaviour is known as ethology.

Most living animal species belong to the infrakingdom Bilateria, a highly proliferative clade whose members have a bilaterally symmetric body plan. The vast majority belong to two large superphyla: the protostomes, which includes organisms such as the arthropods, molluscs, flatworms, annelids and nematodes; and the deuterostomes, which include the echinoderms, hemichordates and chordates, the latter of which contains the vertebrates. The simple Xenacoelomorpha have an uncertain position within Bilateria.

Animals first appear in the fossil record in the late Cryogenian period and diversified in the subsequent Ediacaran. Earlier evidence of animals is still controversial; the sponge-like organism Otavia has been dated back to the Tonian period at the start of the Neoproterozoic, but its identity as an animal is heavily contested.[5] Nearly all modern animal phyla became clearly established in the fossil record as marine species during the Cambrian explosion, which began around 539 million years ago (Mya), and most classes during the Ordovician radiation 485.4 Mya. 6,331 groups of genes common to all living animals have been identified; these may have arisen from a single common ancestor that lived about 650 Mya during the Cryogenian period.

Historically, Aristotle divided animals into those with blood and those without. Carl Linnaeus created the first hierarchical biological classification for animals in 1758 with his Systema Naturae, which Jean-Baptiste Lamarck expanded into 14 phyla by 1809. In 1874, Ernst Haeckel divided the animal kingdom into the multicellular Metazoa (now synonymous with Animalia) and the Protozoa, single-celled organisms no longer considered animals. In modern times, the biological classification of animals relies on advanced techniques, such as molecular phylogenetics, which are effective at demonstrating the evolutionary relationships between taxa.

Humans make use of many other animal species for food (including meat, eggs, and dairy products), for materials (such as leather, fur, and wool), as pets and as working animals for transportation, and services. Dogs, the first domesticated animal, have been used in hunting, in security and in warfare, as have horses, pigeons and birds of prey; while other terrestrial and aquatic animals are hunted for sports, trophies or profits. Non-human animals are also an important cultural element of human evolution, having appeared in cave arts and totems since the earliest times, and are frequently featured in mythology, religion, arts, literature, heraldry, politics, and sports.

  1. ^ de Queiroz, Kevin; Cantino, Philip; Gauthier, Jacques, eds. (2020). "Metazoa E. Haeckel 1874 [J. R. Garey and K. M. Halanych], converted clade name". Phylonyms: A Companion to the PhyloCode (1st ed.). CRC Press. p. 1352. doi:10.1201/9780429446276. ISBN 9780429446276. S2CID 242704712.
  2. ^ Nielsen, Claus (2008). "Six major steps in animal evolution: are we derived sponge larvae?". Evolution & Development. 10 (2): 241–257. doi:10.1111/j.1525-142X.2008.00231.x. ISSN 1520-541X. PMID 18315817. S2CID 8531859.
  3. ^ a b c Rothmaler, Werner (1951). "Die Abteilungen und Klassen der Pflanzen". Feddes Repertorium, Journal of Botanical Taxonomy and Geobotany. 54 (2–3): 256–266. doi:10.1002/fedr.19510540208.
  4. ^ "animalia". Merriam-Webster.com Dictionary. Merriam-Webster.
  5. ^ Antcliffe, Jonathan B.; Callow, Richard H. T.; Brasier, Martin D. (November 2014). "Giving the early fossil record of sponges a squeeze". Biological Reviews. 89 (4): 972–1004. doi:10.1111/brv.12090. PMID 24779547. S2CID 22630754.