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{{Short description|Largest living land animal}}
{{sprotected2}}
{{About|a paraphyletic group|close extinct relatives|Elephantidae|other uses}}
{{otheruses|Elephant (disambiguation)}}
{{Featured article}}
{{Taxobox
{{Pp-vandalism|small=yes}}
| color = pink
{{Pp-move}}
| name = Elephant
{{Use dmy dates|date=January 2020}}
| image = Elephantreaching.jpg
{{Use British English|date=January 2013}}
| image_width = 300px
{{Paraphyletic group
| image_caption = African Bush (Savannah) Elephant in ].
| regnum = ]ia | name = Elephants
| image = African Bush Elephant.jpg
| phylum = ]
| image_caption = A female ] in ], Tanzania
| subphylum = ]
| classis = ]ia | auto = yes
| fossil_range = {{Fossil range|Late Miocene | Present}}
| ordo = ]
| familia = '''Elephantidae''' | parent = Elephantidae
| includes = * '']'' <small>Anonymous, 1827</small>
| familia_authority = ], 1821
* '']'' <small>], ]</small>
| subdivision_ranks = ] and ]
* {{extinct}}'']'' <small>Matsumoto, 1925</small>
| subdivision =
| excludes = * {{extinct}}'']'' <small>Brookes, 1828</small>
* '']''
** '']'' | range_map = Loxodonta Elephas distribution.png
| range_map_caption = Distribution of living elephant species
** '']''
* '']''
** '']''
**'']'' ]
**'']'' ]
**'']'' ]
**'']'' ]
**'']'' ]
**'']'' ]
**'']'' ]
**'']'' ]
**'']'' ]
**'']'' ]
* '']'' ]
* '']'' ]
}} }}
'''Elephantidae''' (the '''elephants''') is a ] of ], and the only remaining family in the ] ] in the ] ]. Elephantidae has three living ]: the ], the ] (until recently known collectively as the ]), and the ] (also known as the Indian Elephant). Other species have become ] since the last ], which ended about 10,000 years ago.


'''Elephants''' are the ] living land animals. Three living ] are currently recognised: the ] (''] africana''), the ] (''L. cyclotis''), and the ] (''] maximus''). They are the only surviving members of the ] ] and the ] ]; extinct relatives include ]s and ]s. Distinctive features of elephants include a long ] called a trunk, ]s, large ear flaps, pillar-like legs, and tough but sensitive grey skin. The trunk is ], bringing food and water to the mouth and grasping objects. Tusks, which are derived from the incisor teeth, serve both as weapons and as tools for moving objects and digging. The large ear flaps assist in maintaining a constant body temperature as well as in communication. ]s have larger ears and concave backs, whereas Asian elephants have smaller ears and convex or level backs.
Elephants are ]s, and the ] land animals alive today. The elephant's ] period is 22 months, the longest of any land animal. At birth it is common for an elephant calf to weigh 120 kg (265 lb). An elephant may live as long as 70 years, sometimes longer. The largest elephant ever recorded was shot in ] in 1956. It was male and weighed about 12,000 kg (26,400 lb),<ref></ref> with a shoulder height of 4.2m, a metre taller than the average male African elephant.<ref></ref> The smallest elephants, about the size of a calf or a large pig, were a prehistoric variant that lived on the island of ] until 5000 BC, possibly 3000 BC.


Elephants are scattered throughout ], South Asia, and Southeast Asia and are found in different habitats, including ]hs, forests, deserts, and ]es. They are ], and they stay near water when it is accessible. They are considered to be ], due to their impact on their environments. Elephants have a ], in which multiple family groups come together to socialise. Females (cows) tend to live in family groups, which can consist of one female with her calves or several related females with offspring. The leader of a female group, usually the oldest cow, is known as the ].
Elephants are increasingly threatened by human intrusion. Between 1970 and 1989, the African elephant population plunged from 1.3 million to about 600,000 in 1989; the current population is estimated to be between 400,000 and 660,000.<ref>; </ref> The elephant is now a protected species worldwide, placing restrictions on capture, domestic use, and trade in products such as ].


Males (bulls) leave their family groups when they reach puberty and may live alone or with other males. Adult bulls mostly interact with family groups when looking for a mate. They enter a state of increased ] and aggression known as ], which helps them gain ] over other males as well as reproductive success. Calves are the centre of attention in their family groups and rely on their mothers for as long as three years. Elephants can live up to 70 years in the wild. They ] by touch, sight, smell, and sound; elephants use ] and ] over long distances. ] has been compared with that of ]s and ]ns. They appear to have ], and possibly show concern for dying and dead individuals of their kind.
==Zoology==
]


African bush elephants and Asian elephants are listed as ] and African forest elephants as ] by the ] (IUCN). One of the biggest threats to elephant populations is the ], as the animals are ] for their ivory tusks. Other threats to wild elephants include ] and conflicts with local people. Elephants are used as ]s in Asia. In the past, they were used in war; today, they are often controversially put on display in zoos, or employed for entertainment in ]es. Elephants have an iconic status ] and have been widely featured in art, folklore, religion, literature, and popular culture.
===Varieties===
It has long been known that the ] and ] elephants are separate species. African elephants tend to be larger than the Asian species (up to 4 m high and 7500 kg) and have bigger ears. Male and female African elephants have long tusks, while male and female Asian Elephants have shorter tusks, with tusks in females being almost non-existent. African elephants have a dipped back, smooth forehead and two "fingers" at the tip of their trunks, as compared with the Asian species which have an arched back, two humps on the forehead and have only one "finger" at the tip of their trunks.


==Etymology==
There are two populations of African elephants, ] and ], and recent genetic studies have led to a reclassification of these as separate species, the forest population now being called ''Loxodonta cyclotis'', and the Savannah (or Bush) population termed ''Loxodonta africana''. This reclassification has important implications for conservation, because it means where there were thought to be two small populations of a single endangered species, there may in fact be two separate species, each of which is even more severely endangered. There is also a potential danger in that if the forest elephant is not explicitly listed as an endangered species, poachers and smugglers might thus be able to evade the law forbidding trade in endangered animals and their body parts.
The word ''elephant'' is derived from the ] word {{lang|la|elephas}} (] {{lang|la|elephantis}}) {{gloss|elephant}}, which is the ] form of the ] {{lang|grc|ἐλέφας}} ({{transliteration|grc|elephas}}) (genitive {{lang|grc|ἐλέφαντος}} ({{transliteration|grc|elephantos}}<ref name="LSJ">{{LSJ|e)le/fas|ἐλέφας|ref}}</ref>)), probably from a non-], likely ].<ref name=etymology>{{cite encyclopedia|author=Harper, D.|title=Elephant|dictionary=Online Etymology Dictionary|url=http://www.etymonline.com/index.php?term=elephant|access-date=25 October 2012|archive-date=24 December 2013|archive-url=https://web.archive.org/web/20131224141504/http://www.etymonline.com/index.php?term=elephant|url-status=live}}</ref> It is attested in ] as {{transliteration|gmy|e-re-pa}} (genitive {{transliteration|gmy|e-re-pa-to}}) in ] syllabic script.<ref>{{Cite journal |url=https://www.academia.edu/2229199 |title=Ivory and horn production in Mycenaean texts |journal=Kosmos. Jewellery, Adornment and Textiles in the Aegean Bronze Age |last1=Lujan |first1=E. R. |last2=Bernabe |first2=A |access-date=22 January 2013 |archive-date=20 October 2021 |archive-url=https://web.archive.org/web/20211020172849/https://www.academia.edu/2229199 |url-status=live }}</ref><ref>{{cite web|url=http://www.palaeolexicon.com/default.aspx?static=12&wid=189|title=elephant|publisher=Palaeolexicon, Word study tool of ancient languages|access-date=19 January 2013|archive-date=4 December 2012|archive-url=https://web.archive.org/web/20121204075314/http://www.palaeolexicon.com/default.aspx?static=12&wid=189|url-status=live}}</ref> As in Mycenaean Greek, ] used the Greek word to mean ], but after the time of ], it also referred to the animal.<ref name="LSJ" /> The word ''elephant'' appears in ] as {{lang|enm|olyfaunt}} ({{Circa|1300}}) and was borrowed from ] {{lang|fro|oliphant}} (12th century).<ref name=etymology />


==Taxonomy and evolution==
The Forest elephant and the Savannah elephant can hybridise successfully, though their preference for different terrains reduces the opportunities to hybridise. Many captive African elephants are probably generic African elephants as the recognition of separate species has occurred relatively recently.
{{cladogram|style=font-size:70%|align=right|caption=A cladogram of the elephants within ] based on molecular evidence<ref name=tabuce>{{cite journal|url=http://phylodiversity.net/azanne/csfar/images/d/d9/Afrotherian_mammals.pdf|first1=R.|last1=Tabuce|first2=R. J.|last2=Asher|first3=T.|last3=Lehmann|s2cid=46133294|year=2008|title=Afrotherian mammals: a review of current data|journal=Mammalia|volume=72|pages=2–14|doi=10.1515/MAMM.2008.004|access-date=19 June 2017|archive-date=24 February 2021|archive-url=https://web.archive.org/web/20210224122358/http://phylodiversity.net/azanne/csfar/images/d/d9/Afrotherian_mammals.pdf|url-status=usurped | issn=0025-1461}}</ref>
|{{clade
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|1=] ]
|2=] ]
}} }} }}
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Elephants belong to the family ], the sole remaining family within the order ]. Their closest ] relatives are the ]ns (]s and ]s) and the ]es, with which they share the ] ] within the superorder ].<ref name="Ozawa">{{cite journal|author1=Kellogg, M. |author2=Burkett, S. |author3=Dennis, T. R. |author4=Stone, G. |author5=Gray, B. A. |author6=McGuire, P. M. |author7=Zori, R. T. |author8=Stanyon, R. |year=2007|title=Chromosome painting in the manatee supports Afrotheria and Paenungulata|journal=Evolutionary Biology|volume=7|issue=1 |page=6|doi=10.1186/1471-2148-7-6 |pmid=17244368 |pmc=1784077 |doi-access=free |bibcode=2007BMCEE...7....6K }}</ref> Elephants and sirenians are further grouped in the clade ].<ref name=Ozawa2>{{cite journal|author1=Ozawa, T. |author2=Hayashi, S. |author3=Mikhelson, V. M. |s2cid=417046 |year=1997|title=Phylogenetic position of mammoth and Steller's sea cow within tethytheria demonstrated by mitochondrial DNA sequences|journal=Journal of Molecular Evolution|volume=44|issue=4|pages=406–13|doi=10.1007/PL00006160|pmid=9089080|bibcode=1997JMolE..44..406O}}</ref>


Three species of living elephants are recognised; the ] (''] africana''), ] (''Loxodonta cyclotis''), and ] (''] maximus'').<ref name=MSW3>{{cite book|author=Shoshani, J.|year=2005|contribution=Order Proboscidea|editor1=Wilson, D. E.|editor2=Reeder, D. M|url=https://books.google.com/books?id=JgAMbNSt8ikC&pg=PA91|title=Mammal Species of the World: A Taxonomic and Geographic Reference|volume=1|edition=3rd|publisher=Johns Hopkins University Press|pages=90–91|isbn=978-0-8018-8221-0|oclc=62265494|access-date=11 November 2016|archive-date=1 February 2015|archive-url=https://web.archive.org/web/20150201164505/http://www.google.com/books?id=JgAMbNSt8ikC&pg=PA91|url-status=live}}</ref> ]s were traditionally considered a single species, ''Loxodonta africana'', but molecular studies have affirmed their status as separate species.<ref name=DNA>{{cite journal|author1=Rohland, N. |author2=Reich, D. |author3=Mallick, S. |author4=Meyer, M. |author5=Green, R. E. |author6=Georgiadis, N. J. |author7=Roca, A. L. |author8=Hofreiter, M. | title =Genomic DNA Sequences from Mastodon and Woolly Mammoth Reveal Deep Speciation of Forest and Savanna Elephants| journal = PLOS Biology | volume =8| issue =12| year =2010| doi=10.1371/journal.pbio.1000564| page =e1000564 | pmid =21203580 | pmc =3006346| editor1-last =Penny| editor1-first =David |doi-access=free }}</ref><ref name="Ishida">{{cite journal|author1=Ishida, Y. |author2=Oleksyk, T. K. |author3=Georgiadis, N. J. |author4=David, V. A. |author5=Zhao, K. |author6=Stephens, R. M. |author7=Kolokotronis, S.-O. |author8=Roca, A. L. |year=2011|title=Reconciling apparent conflicts between mitochondrial and nuclear phylogenies in African elephants|journal=PLOS ONE|volume=6|issue=6|page=e20642|doi=10.1371/journal.pone.0020642|editor1-last=Murphy|editor1-first=William J|pmid=21701575|pmc=3110795|bibcode=2011PLoSO...620642I|doi-access=free }}</ref><ref name="genomic">{{Cite journal|title = Elephant Natural History: A Genomic Perspective|journal = Annual Review of Animal Biosciences|date = 2015|pmid = 25493538|pages = 139–167|volume = 3|issue = 1|doi = 10.1146/annurev-animal-022114-110838|first1 = Alfred L.|last1 = Roca|first2 = Yasuko|last2 = Ishida|first3 = Adam L.|last3 = Brandt|first4 = Neal R.|last4 = Benjamin|first5 = Kai|last5 = Zhao|first6 = Nicholas J.|last6 = Georgiadis}}</ref> ]s (''Mammuthus'') are nested within living elephants as they are more closely related to Asian elephants than to African elephants.<ref>{{Cite journal |last1=Roca |first1=Alfred L. |last2=Ishida |first2=Yasuko |last3=Brandt |first3=Adam L. |last4=Benjamin |first4=Neal R. |last5=Zhao |first5=Kai |last6=Georgiadis |first6=Nicholas J. |date=2015 |title=Elephant Natural History: A Genomic Perspective |journal=Annual Review of Animal Biosciences |volume=3 |issue=1 |pages=139–167 |doi=10.1146/annurev-animal-022114-110838 |pmid=25493538}}</ref> Another extinct genus of elephant, '']'', is also recognised, which appears to have close affinities with African elephants and to have hybridised with African forest elephants.<ref name="Palkopoulou">{{Cite journal |last1=Palkopoulou |first1=Eleftheria |last2=Lipson |first2=Mark |last3=Mallick |first3=Swapan |last4=Nielsen |first4=Svend |last5=Rohland |first5=Nadin |last6=Baleka |first6=Sina |last7=Karpinski |first7=Emil |last8=Ivancevic |first8=Atma M. |last9=To |first9=Thu-Hien |last10=Kortschak |first10=R. Daniel |last11=Raison |first11=Joy M. |date=2018-03-13 |title=A comprehensive genomic history of extinct and living elephants |journal=Proceedings of the National Academy of Sciences |language=en |volume=115 |issue=11 |pages=E2566–E2574 |doi=10.1073/pnas.1720554115 |issn=0027-8424 |pmc=5856550 |pmid=29483247 |bibcode=2018PNAS..115E2566P |doi-access=free}}</ref>
Although hybrids between different animal genera are usually impossible, in 1978 at ], an Asian elephant cow gave birth to a hybrid calf sired by an African elephant bull (the old terms are used here as this pre-dates current classifications). The pair had mated several times, but pregnancy was believed to be impossible. "]", the resulting hybrid male calf, had an African elephant's cheek, ears (large with pointed lobes) and legs (longer and slimmer), but the toenail numbers, (5 front, 4 hind) and the single trunk finger of an Asian elephant. The wrinkled trunk was like an African elephant. The forehead was sloping with one dome and two smaller domes behind it. The body was African in type, but had an Asian-type centre hump and an African-type rear hump. The calf died of infection 12 days later. It is preserved as a mounted specimen at the British Natural History Museum, London. There are unconfirmed rumours of three other hybrid elephants born in zoos or circuses; all are said to have been deformed and did not survive.


====African Elephant==== ===Evolution===
Over 180 extinct members of order Proboscidea have been described.<ref>{{cite book|last1=Kingdon|first1=J. |title=Mammals of Africa |date=2013|publisher=Bloomsbury|page=173 |url=https://books.google.com/books?id=B_07noCPc4kC |isbn=9781408189962 |access-date=6 June 2020|archive-date=21 March 2023|archive-url=https://web.archive.org/web/20230321084755/https://books.google.com/books?id=B_07noCPc4kC|url-status=live}}</ref> The earliest proboscideans, the African '']'' and '']'' are known from the late ].<ref name="Gheerbrant">{{cite journal |author=Gheerbrant, E. |year=2009 |title=Paleocene emergence of elephant relatives and the rapid radiation of African ungulates |journal=Proceedings of the National Academy of Sciences of the United States of America |volume=106 |issue=26 |pages=10717–10721 |doi=10.1073/pnas.0900251106 |pmid=19549873 |pmc=2705600|bibcode=2009PNAS..10610717G |doi-access=free}}</ref> The ] included '']'', ''],'' and '']'' from Africa. These animals were relatively small and, some, like ''Moeritherium'' and ''Barytherium'' were probably amphibious.<ref name=Sukumar13 /><ref>{{Cite journal |last1=Liu |first1=A. G. S. C. |last2=Seiffert |first2=E. R. |last3=Simons |first3=E. L. |date=2008 |title=Stable isotope evidence for an amphibious phase in early proboscidean evolution |journal=Proceedings of the National Academy of Sciences |volume=105 |issue=15 |pages=5786–5791 |doi=10.1073/pnas.0800884105 |pmc=2311368 |pmid=18413605 |bibcode=2008PNAS..105.5786L |doi-access=free}}</ref> Later on, genera such as '']'' and '']'' arose; the latter likely inhabited more forested areas. Proboscidean diversification changed little during the Oligocene.<ref name="Sukumar13">Sukumar, pp. 13–16.</ref> One notable species of this epoch was '']'' of the ], which may have been an ancestor to several later species.<ref name=link>{{cite journal|author1=Shoshani, J. |author2=Walter, R. C. |author3=Abraha, M. |author4=Berhe, S. |author5=Tassy, P. |author6=Sanders, W. J. |author7=Marchant, G. H. |author8=Libsekal, Y. |author9=Ghirmai, T. |author10=Zinner, D. |year=2006|title=A proboscidean from the late Oligocene of Eritrea, a "missing link" between early Elephantiformes and Elephantimorpha, and biogeographic implications|journal=Proceedings of the National Academy of Sciences |volume=103|issue=46|pages=17296–17301|doi=10.1073/pnas.0603689103 |bibcode=2006PNAS..10317296S |pmid=17085582 |pmc=1859925|doi-access=free}}</ref>
{{main|African Bush Elephant|African Forest Elephant}}
] Elephant with calf, in ].]]
The mammals of the genus '']'', often known collectively as African elephants, are currently found in 37 countries in sub-Saharan Africa.


{{cladogram|style=font-size:70%|caption=Proboscidea phylogeny based on morphological and DNA evidence<ref>{{cite journal|last1=Baleka|first1=S. |last2=Varela |first2=L. |last3=Tambusso|first3=P. S.|last4=Paijmans|first4=J. L. A.|last5=Mothé|first5=D. |last6=Stafford Jr.|first6=T. W. |last7=Fariña|first7=R. A. |last8=Hofreiter |first8=M. |year=2022|title=Revisiting proboscidean phylogeny and evolution through total evidence and palaeogenetic analyses including ''Notiomastodon'' ancient DNA |journal=iScience |volume=25|issue=1 |page=103559 |doi=10.1016/j.isci.2021.103559 |pmid=34988402 |pmc=8693454 |bibcode=2022iSci...25j3559B}}</ref><ref>{{Cite book |last1=Benoit |first1=J. |chapter=Paleoneurology of the Proboscidea (Mammalia, Afrotheria): Insights from Their Brain Endocast and Labyrinth |date=2023 |title=Paleoneurology of Amniotes |pages=579–644 |editor-last=Dozo |editor-first=M. T. |place=Cham |publisher=Springer International Publishing |doi=10.1007/978-3-031-13983-3_15 |isbn=978-3-031-13982-6 |last2=Lyras |first2=G. A. |last3=Schmitt |first3=A. |last4=Nxumalo |first4=M. |last5=Tabuce |first5=R. |last6=Obada |first6=T. |last7=Mararsecul |first7=V. |last8=Manger |first8=P. |editor2-last=Paulina-Carabajal |editor2-first=A. |editor3-last=Macrini |editor3-first=T. E. |editor4-last=Walsh |editor4-first=S.}}</ref><ref name=Palkopoulou/>
African elephants are distinguished from Asian elephants in several ways. The most noticeable difference is the ears. Africans' ears are much larger and are shaped like the continent of their origin. The African elephant is typically larger than the Asian and has a concave back. Both males and females have external tusks and are usually less hairy than their Asian cousins.
|align=right
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A major event in proboscidean evolution was the collision of Afro-Arabia with Eurasia, during the Early Miocene, around 18–19 million years ago, allowing proboscideans to disperse from their African homeland across Eurasia and later, around 16–15 million years ago into North America across the ]. Proboscidean groups prominent during the Miocene include the ]s, along with the more advanced ], including ] (mastodons), ]s, ] (which includes the "shovel tuskers" like '']''), ] and ].<ref name=Cantalapiedra-2021>{{Cite journal |last1=Cantalapiedra |first1=J. L. |last2=Sanisidro |first2=Ó. |last3=Zhang |first3=H. |last4=Alberdi |first4=M. T. |last5=Prado |first5=J. L. |last6=Blanco |first6=F. |last7=Saarinen |first7=J. |date=2021 |title=The rise and fall of proboscidean ecological diversity |url=https://www.nature.com/articles/s41559-021-01498-w |journal=Nature Ecology & Evolution |volume=5 |issue=9 |pages=1266–1272 |doi=10.1038/s41559-021-01498-w |pmid=34211141 |bibcode=2021NatEE...5.1266C |s2cid=235712060}}</ref> Around 10 million years ago, the earliest members of the family ] emerged in Africa, having originated from gomphotheres.<ref>{{cite book |author1=Saegusa, H. |author2=Nakaya, H. |name-list-style=amp |author3=Kunimatsu, Y. |author4=Nakatsukasa, M. |author5=Tsujikawa, H. |author6=Sawada, Y. |author7=Saneyoshi, M. |author8=Sakai, T. |year=2014 |chapter=Earliest elephantid remains from the late Miocene locality, Nakali, Kenya |page=175 |chapter-url=https://apo.ansto.gov.au/dspace/bitstream/10238/9340/2/icmr_volume_low.pdf#page=188 |editor1=Kostopoulos, D. S. |editor2=Vlachos, E. |editor3=Tsoukala, E. |title=VIth International Conference on Mammoths and Their Relatives |volume=102 |location=Thessaloniki |publisher=School of Geology, Aristotle University of Thessaloniki |isbn=978-960-9502-14-6}}</ref>


Elephantids are distinguished from earlier proboscideans by a major shift in the molar morphology to parallel lophs rather than the cusps of earlier proboscideans, allowing them to become higher-crowned (hypsodont) and more efficient in consuming grass.<ref>{{Cite journal |last=Lister |first=A. M. |date=2013 |title=The role of behaviour in adaptive morphological evolution of African proboscideans |doi=10.1038/nature12275 |journal=Nature |volume=500 |issue=7462 |pages=331–334 |pmid=23803767 |bibcode=2013Natur.500..331L |s2cid=883007}}</ref> The Late Miocene saw major climactic changes, which resulted in the decline and extinction of many proboscidean groups.<ref name="Cantalapiedra-2021" /> The earliest members of the modern genera of Elephantidae appeared during the latest Miocene–early Pliocene around 5 million years ago. The elephantid genera ''Elephas'' (which includes the living Asian elephant) and ''Mammuthus'' (mammoths) migrated out of Africa during the late Pliocene, around 3.6 to 3.2 million years ago.<ref>{{Cite journal |last1=Iannucci |first1=Alessio |last2=Sardella |first2=Raffaele |date=2023-02-28 |title=What Does the "Elephant-''Equus''" Event Mean Today? Reflections on Mammal Dispersal Events around the Pliocene-Pleistocene Boundary and the Flexible Ambiguity of Biochronology |journal=Quaternary |volume=6 |issue=1 |page=16 |doi=10.3390/quat6010016 |doi-access=free |hdl=11573/1680082 |hdl-access=free}}</ref>
African elephants have traditionally been classified as a single species composed of two distinct subspecies, namely the savanna elephant (''Loxodonta africana africana'') and the forest elephant (''Loxodonta africana cyclotis''), but recent ] suggests that these may actually constitute distinct species.<ref>{{cite journal
| last =Roca
| first =Alfred L.
| coauthors = Nicholas Georgiadis, Jill Pecon-Slattery, and Stephen J. O'Brien
| title =Genetic evidence for two species of elephant in Africa.
| journal =Science
| volume =293
| issue =5534
| pages =1473
| publisher =
| date =24 August 2001
| url =http://dx.doi.org/10.1126/science.1059936
| doi =10.1126/science.1059936
| accessdate =2006-12-08}}
</ref> While this split is not universally accepted by experts<ref>{{cite web
| last =IUCN/SSC African Elephant Specialist Group
| title =Statement on the taxonomy of extant Loxodonta
| publisher =IUCN
| date =December 2003
| url =http://iucn.org/themes/ssc/sgs/afesg/tools/pdfs/pos_genet_en.pdf
| format =pdf
| accessdate = 2006-12-08 }}</ref> a third species of African elephant has also been proposed.<ref>{{cite journal
| last =Eggert
| first =Lori S.
| coauthors = Caylor A. Rasner, David S. Woodruff
| title =The evolution and phylogeography of the African elephant inferred from mitochondrial DNA sequence and nuclear microsatellite markers
| journal = Proceedings of the Royal Society B: Biological Sciences
| volume =269
| issue =1504
| pages =1993-2006
| publisher =
| date =2002-10-07
| url =http://dx.doi.org/10.1098/rspb.2002.2070
| doi =10.1098/rspb.2002.2070
| id = ISSN: 0962-8452 (Paper) 1471-2954 (Online)
| accessdate = }}
</ref>


Over the course of the ], all non-elephantid probobscidean genera outside of the Americas became extinct with the exception of '']'',<ref name="Cantalapiedra-2021" /> with gomphotheres dispersing into South America as part of the ],<ref name="Mothé et al 2016 (In Press)">{{cite journal |last1=Mothé |first1=Dimila |last2=dos Santos Avilla |first2=Leonardo |last3=Asevedo |first3=Lidiane |last4=Borges-Silva |first4=Leon |last5=Rosas |first5=Mariane |last6=Labarca-Encina |first6=Rafael |last7=Souberlich |first7=Ricardo |last8=Soibelzon |first8=Esteban |last9=Roman-Carrion |first9=José Luis |last10=Ríos |first10=Sergio D. |last11=Rincon |first11=Ascanio D. |last12=Cardoso de Oliveira |first12=Gina |last13=Pereira Lopes |first13=Renato |date=30 September 2016 |title=Sixty years after 'The mastodonts of Brazil': The state of the art of South American proboscideans (Proboscidea, Gomphotheriidae) |url=http://bibdigital.epn.edu.ec/bitstream/15000/17075/1/Moth%c3%a9%20et%20al.%2c%202016%20-%20Sixty%20years%20proboscideans.pdf |journal=Quaternary International |volume=443 |pages=52–64 |bibcode=2017QuInt.443...52M |doi=10.1016/j.quaint.2016.08.028}}</ref> and mammoths migrating into North America around 1.5 million years ago.<ref>{{Cite journal |last1=Lister |first1=A. M. |last2=Sher |first2=A. V. |date=2015 |title=Evolution and dispersal of mammoths across the Northern Hemisphere |journal=Science |volume=350 |issue=6262 |pages=805–809 |bibcode=2015Sci...350..805L |doi=10.1126/science.aac5660 |pmid=26564853 |s2cid=206639522}}</ref> At the end of the Early Pleistocene, around 800,000 years ago the elephantid genus '']'' dispersed outside of Africa, becoming widely distributed in Eurasia.<ref>{{Cite book |last=Lister |first=A. M. |chapter=Ecological Interactions of Elephantids in Pleistocene Eurasia |date=2004 |chapter-url=https://www.researchgate.net/publication/264788794 |title=Human Paleoecology in the Levantine Corridor |pages=53–60 |publisher=Oxbow Books |isbn=978-1-78570-965-4}}</ref> Proboscideans were represented by around 23 species at the beginning of the ]. Proboscideans underwent a dramatic decline during the Late Pleistocene as part of the ] of most large mammals globally, with all remaining non-elephantid proboscideans (including ''Stegodon'', ]s, and the American gomphotheres '']'' and '']'') and '']'' becoming extinct, with mammoths only surviving in ] populations on islands around the ] into the Holocene, with their latest survival being on ], where they persisted until around 4,000 years ago.<ref name=Cantalapiedra-2021/><ref>{{Cite journal |last1=Rogers |first1=R. L. |last2=Slatkin |first2=M. |date=2017 |title=Excess of genomic defects in a woolly mammoth on Wrangel island |journal=PLOS Genetics |volume=13 |issue=3 |page=e1006601 |doi=10.1371/journal.pgen.1006601 |issn=1553-7404 |pmc=5333797 |pmid=28253255 |doi-access=free}}</ref>
Under the two species classification, ''Loxodonta africana'' refers specifically to the Savanna Elephant, the largest of all the elephants. In fact, it is the largest land animal in the world, standing up to 13 ft (4 m) at the shoulder and weighing approximately 15,400 lb (7,000 kg). The average male stands about 3 m (10 ft) high at the shoulder and weighs about 5500–6000 kg, female being much smaller. Most often, Savanna Elephants are found in open ]s, ]es, and lakeshores. They range over much of the savanna zone ].


Over the course of their evolution, probobscideans grew in size. With that came longer limbs and wider feet with a more ] stance, along with a larger head and shorter neck. The trunk evolved and grew longer to provide reach. The number of premolars, incisors, and canines decreased, and the cheek teeth (molars and premolars) became longer and more specialised. The incisors developed into tusks of different shapes and sizes.<ref name=evolution/> Several species of proboscideans became isolated on islands and experienced ],<ref name=Sukumar31>Sukumar, pp. 31–33.</ref> some dramatically reducing in body size, such as the {{Cvt|1|m}} tall ] species '']''.<ref>{{Cite journal |last1=Romano |first1=M. |last2=Manucci |first2=F. |last3=Palombo |first3=M. R. |date=2021 |title=The smallest of the largest: new volumetric body mass estimate and in-vivo restoration of the dwarf elephant Palaeoloxodon ex gr. ''P. falconeri'' from Spinagallo Cave (Sicily) |journal=Historical Biology |volume=33 |issue=3 |pages=340–353 |doi=10.1080/08912963.2019.1617289 |bibcode=2021HBio...33..340R |s2cid=181855906}}</ref>
The other, less numerous species is the Forest Elephant (''Loxodonta cyclotis''). Compared with the Savanna Elephant, its ears are usually smaller and rounder, and its tusks are also thinner and straighter and are not directed outwards so much. The Forest Elephant can weigh up to 10,000 lb (4,500 kg) and stand about 10 ft (3 m) tall. Much less is known about these animals than their savanna cousins because environmental and political obstacles make them very difficult to study. Normally they inhabit the dense African rain forests of central and western Africa, though occasionally they do inhabit the edges of forests and overlap ] and hybridize with bush elephants.


===Living species===
In 1979, ] estimated the continental population of African elephants at around 1.3 million animals.<ref>{{cite book
{| class="wikitable"
| last =Douglas-Hamilton
|+ style="text-align: centre;" |
| first =Iain
! Name
| title =The African Elephant Action Plan
! Size
| publisher =IUCN/WWF/NYZS
! Appearance
| date =1979
! Distribution
| location =unpublished report}}</ref> Although the estimate was controversial due to the large dose of guesswork it contained,<ref>{{cite book
! Image
| last =Parker
|-
| first =Ian
| ] (''Loxodonta africana'')
| authorlink =
| '''Male''': {{cvt|304|-|336|cm|ftin|0|abbr=on}} (shoulder height), {{cvt|5.2|-|6.9|MT|ST|1|abbr=on}} (weight); '''Female''': {{cvt|247|-|273|cm|ftin|0|abbr=on}} (shoulder height), {{cvt|2.6|-|3.5|MT|ST|1|abbr=on}} (weight).<ref name="Larramendi, A. 2015">{{cite journal |author=Larramendi, A. |year=2015 |title=Shoulder height, body mass and shape of proboscideans |journal=Acta Palaeontologica Polonica |doi=10.4202/app.00136.2014 |doi-access=free}}</ref>
| coauthors =Amin, Mohammed
| Relatively large and triangular ears, concave back, diamond shaped molar ridges, wrinkled skin, sloping abdomen, and two finger-like extensions at the tip of the trunk.<ref name=Shoshani38>Shoshani, pp. 38–41.</ref>
| title =Ivory Crisis
| ]; forests, savannahs, deserts, wetlands, and near lakes.<ref name=Shoshani42>Shoshani, pp. 42–51.</ref>
| publisher = Chatto and Windus, London
|]
| date =1983
|-
| pages =184}}</ref> it is very widely cited and has become a ''de facto'' baseline. Through the 1980s, ''Loxodonta'' received worldwide attention due to the dwindling numbers of major populations, largely as a result of poaching. Today, according to ]’s African Elephant Status Report 2002<ref>{{cite book
| ] (''Loxodonta cyclotis'')
| last =Blanc
| {{cvt|209|-|231|cm|ftin|0|abbr=on}} (shoulder height), {{cvt|1.7|-|2.3|MT|ST|1|abbr=on}} (weight).<ref name="Larramendi, A. 2015"/>
| first =JJ
| Similar to the bush species, but with smaller and more rounded ears and thinner and straighter tusks.<ref name=Shoshani38/><ref name=Shoshani42 />
| coauthors =Thouless, CR, Hart, JA, Dublin, HT, Douglas-Hamilton, I, Craig, GC, Barnes, RFW
| ] and ]; ], but occasionally ]s and forest/grassland ]s.<ref name=Shoshani42 />
| title = African Elephant Status Report 2002: An update from the African Elephant Database
|]
| publisher = IUCN, Gland and Cambridge
|-
| date = 2003
| ] (''Elephas maximus'')
| pages =308
| '''Male''': {{cvt|261|-|289|cm|ftin|0|abbr=on}} (shoulder height), {{cvt|3.5|-|4.6|MT|ST|1|abbr=on}} (weight); '''Female''': {{cvt|228|-|252|cm|ftin|0|abbr=on}} (shoulder height), {{cvt|2.3|-|3.1|MT|ST|1|abbr=on}} (weight).<ref name="Larramendi, A. 2015"/>
| url = http://iucn.org/themes/ssc/sgs/afesg/aed/pdfs/aesr2002.pdf
| Relatively small ears, convex or level back, dish-shaped forehead with two large bumps, narrow molar ridges, smooth skin with some blotches of ], a straightened or saggy abdomen, and one extension at the tip of the trunk.<ref name=Shoshani38/>
| id = ISBN 2-8317-0707-2 }}</ref>
|] and ]; habitats with a mix of grasses, low woody plants, and trees, including dry ] in southern India and Sri Lanka and ]s in ].<ref name=Shoshani42/><ref name=Asian>{{cite journal|author1=Shoshani, J.|author2=Eisenberg, J. F.|year=1982|title=''Elephas maximus''|journal=Mammalian Species|issue=182|pages=1–8|url=http://www.science.smith.edu/msi/pdf/i0076-3519-182-01-0001.pdf|jstor=3504045|doi=10.2307/3504045|access-date=27 October 2012|archive-date=24 September 2015|archive-url=https://web.archive.org/web/20150924121940/http://www.science.smith.edu/msi/pdf/i0076-3519-182-01-0001.pdf|url-status=dead}}</ref>
there are approximately between 400,000 and 650,000 African elephants in the wild. Although this estimate only covers approximately half of the total elephant range, experts do not believe the true figure to be much higher, as it is unlikely that large populations remain to be discovered.<ref>{{cite journal
|]
| last =Blanc
|}
| first =JJ
| coauthors = Barnes, RFW, Craig, GC, Douglas-Hamilton, I, Dublin, HT, Hart, JA, Thouless, CR
| title = Changes in elephant numbers in major savanna populations in eastern and southern Africa
| journal =Pachyderm
| volume =38
| issue =38
| pages =19-28
| publisher =IUCN/SSC African Elephant Specialist Group
| date =January-June 2005
| url = http://iucn.org/afesg/pachy/pdfs/pachy38.pdf#page=22
| accessdate = 2006-12-08 }}</ref> By far the largest populations are now found in Southern and Eastern Africa, which together account for the majority of the continental population. According to a recent analysis by IUCN experts, most major populations in Eastern and Southern Africa are stable or have been steadily increasing since the mid-1990s, at an average rate of 4.5% ''per annum''.<ref>{{cite journal
| last =Blanc
| first =JJ
| coauthors =Barnes, RFW, Craig, GC, Douglas-Hamilton, I, Dublin, HT, Hart, JA, Thouless, CR
| title = Changes in elephant numbers in major savanna populations in eastern and southern Africa
| journal =Pachyderm
| volume =38
| issue =38
| pages =19-28
| publisher =IUCN/SSC African Elephant Specialist Group
| date =January-June 2005
| url = http://iucn.org/afesg/pachy/pdfs/pachy38.pdf#page=22
| accessdate = 2006-12-08 }}</ref>


==Anatomy==
Elephant populations in West Africa, on the other hand, are generally small and fragmented, and only account for a small proportion of the continental total.<ref>{{cite book
]
| last =Blanc
Elephants are the largest living terrestrial animals. Some species of the extinct elephant genus '']'' considerably exceeded modern elephants in size making them among the largest land mammals ever.<ref name="Larramendi, A. 2015" /> The skeleton is made up of 326–351 bones.<ref name=Shoshani68 /> The vertebrae are connected by tight joints, which limit the backbone's flexibility. African elephants have 21 pairs of ribs, while Asian elephants have 19 or 20 pairs.<ref>{{cite web|author=Somgrid, C.|title=Elephant Anatomy and Biology: Skeletal system|publisher=Elephant Research and Education Center, Department of Companion Animal and Wildlife Clinics, Faculty of Veterinary Medicine, Chiang Mai University|url=http://www.asianelephantresearch.com/about-elephant-anatomy-and-biology-p1.php#skeleton|access-date=21 September 2012|archive-url=https://web.archive.org/web/20120613191055/http://www.asianelephantresearch.com/about-elephant-anatomy-and-biology-p1.php#skeleton|archive-date=13 June 2012|url-status=dead}}</ref> The skull contains air cavities (]) that reduce the weight of the skull while maintaining overall strength. These cavities give the inside of the skull a ]-like appearance. By contrast, the lower jaw is dense. The cranium is particularly large and provides enough room for the attachment of muscles to support the entire head.<ref name=Shoshani68>Shoshani, pp. 68–70.</ref> The skull is built to withstand great stress, particularly when fighting or using the tusks. The brain is surrounded by arches in the skull, which serve as protection.<ref>Kingdon, p. 11.</ref> Because of the size of the head, the neck is relatively short to provide better support.<ref name="evolution">{{cite journal |author=Shoshani, J. |year=1998 |title=Understanding proboscidean evolution: a formidable task |journal=Trends in Ecology and Evolution |volume=13 |issue=12 |pages=480–487 |doi=10.1016/S0169-5347(98)01491-8 |pmid=21238404|bibcode=1998TEcoE..13..480S }}</ref>
| first =JJ
Elephants are ] and maintain their average body temperature at ~ 36&nbsp;°C (97&nbsp;°F), with a minimum of 35.2&nbsp;°C (95.4&nbsp;°F) during the cool season, and a maximum of 38.0&nbsp;°C (100.4&nbsp;°F) during the hot dry season.<ref>{{Cite journal|date=2018|title=Savanna elephants maintain homeothermy under African heat|url=https://link.springer.com/article/10.1007%2Fs00360-018-1170-5|journal=Journal of Comparative Physiology B|doi=10.1007/s00360-018-1170-5|last1=Mole|first1=Michael A.|last2=Rodrigues Dáraujo|first2=Shaun|last3=Van Aarde|first3=Rudi J.|last4=Mitchell|first4=Duncan|last5=Fuller|first5=Andrea|volume=188|issue=5|pages=889–897|pmid=30008137|s2cid=51626564|access-date=14 May 2021|archive-date=15 May 2021|archive-url=https://web.archive.org/web/20210515162738/https://link.springer.com/article/10.1007/s00360-018-1170-5|url-status=live}}</ref>
| coauthors =Thouless, CR; Hart, JA; Dublin, HT; Douglas-Hamilton, I; Craig, GC; Barnes, RFW
| title = African Elephant Status Report 2002: An update from the African Elephant Database
| publisher = IUCN, Gland and Cambridge
| date = 2003
| pages =308
| url = http://iucn.org/themes/ssc/sgs/afesg/aed/pdfs/aesr2002.pdf
| id = ISBN 2-8317-0707-2 }}</ref>
Much uncertainty remains as to the size of the elephant population in Central Africa, where the prevalence of forest makes population surveys logistically difficult, but poaching for ivory and bushmeat is believed to be intense through much of the region<ref>{{cite web
| last = Blake
| first =Stephen
| title = Central African Forests: Final Report on Population Surveys (2003-2005)
| publisher = CITES MIKE Programme, Nairobi
| date = 2005
| url = http://www.cites.org/common/prog/mike/survey/central_africa_survey03-04.pdf
| format =pdf
| accessdate =2006-12-08 }}</ref>


====Asian Elephant==== ===Ears and eyes===
]
{{main|Asian Elephant}}
Elephant ear flaps, or ], are {{convert|1|–|2|mm|in|abbr=on}} thick in the middle with a thinner tip and supported by a thicker base. They contain numerous blood vessels called ]. Warm blood flows into the capillaries, releasing excess heat into the environment. This effect is increased by flapping the ears back and forth. Larger ear surfaces contain more capillaries, and more heat can be released. Of all the elephants, African bush elephants live in the hottest climates and have the largest ear flaps.<ref name=Shoshani68 /><ref>{{cite journal|author=Narasimhan, A.|s2cid=121443269|year=2008|title=Why do elephants have big ear flaps?|journal=Resonance|volume=13|issue=7|pages=638–647|doi=10.1007/s12045-008-0070-5}}</ref> The ] are adapted for hearing low frequencies, being most sensitive at 1 ].<ref>{{cite journal|author1=Reuter, T.|author2=Nummela, S.|author3=Hemilä, S.|year=1998|title=Elephant hearing|journal=Journal of the Acoustical Society of America|volume=104|issue=2|pages=1122–1123|url=http://roadecology.ucdavis.edu/%5C/pdflib/Winter2005/Rodwell_Reuter_ele_ear.pdf|doi=10.1121/1.423341|pmid=9714930|bibcode=1998ASAJ..104.1122R|url-status=dead|archive-url=https://web.archive.org/web/20121207065356/http://roadecology.ucdavis.edu/pdflib/Winter2005/Rodwell_Reuter_ele_ear.pdf|archive-date=7 December 2012|df=dmy-all}}</ref>
]
Today scientists estimate the world population of Asian elephants, also called Indian Elephants or ''Elephas maximus'', to be approximately 40,000, less than one-tenth the number of African elephants. Perhaps the Asian elephants' decline has been less noticeable because it has been more gradual. The causes of this decline are much the same as that of the African.


Lacking a ] (tear duct), the eye relies on the ] in the orbit to keep it moist. A durable ] shields the globe. The animal's ] is compromised by the location and limited mobility of the eyes.<ref name="sense">{{cite web|author=Somgrid, C.|title=Elephant Anatomy and Biology: Special sense organs|publisher=Elephant Research and Education Center, Department of Companion Animal and Wildlife Clinics, Faculty of Veterinary Medicine, Chiang Mai University|url=http://www.asianelephantresearch.com/about-elephant-anatomy-and-biology-p4.php#Special|access-date=21 September 2012|archive-url=https://web.archive.org/web/20130729045534/http://www.asianelephantresearch.com/about-elephant-anatomy-and-biology-p4.php#Special|archive-date=29 July 2013|url-status=dead}}</ref> Elephants are ]<ref>{{cite journal|author1=Yokoyama, S. |author2=Takenaka, N. |author3=Agnew, D. W. |author4=Shoshani, J. |year=2005|title=Elephants and human color-blind deuteranopes have identical sets of visual pigments|journal=Genetics|volume=170|issue=1|pages=335–344|doi=10.1534/genetics.104.039511|pmid=15781694|pmc=1449733}}</ref> and they can see well in dim light but not in bright light.<ref name=cognition />
]
As with the ''Loxodonta'', there are distinct subspecies of ''Elephas maximus''. In general, the Asian elephant is smaller than the African. It has smaller ears, shaped like the subcontinent of India, and typically, only the males have large external tusks. An Asian elephant can also be distinguished by the large bulges of depigmentation on the skin.


===Trunk===
The first subspecies is the ] (''Elephas maximus maximus''). Found only on the island of Sri Lanka, a small country off the southeast coast of India, it is the largest of the Asians. There are only an estimated 3,000-4,500 members of this subspecies left today in the wild, although no accurate census has been carried out in the recent past. Large males can weigh upward to 12,000 lb and stand over 11 feet tall. Sri Lankan males have very large cranial bulges, and both sexes have more areas of depigmentation than are found in the other Asians. Typically, their ears, face, trunk, and belly have large concentrations of pink-speckled skin. There is an ] for elephants in ] ], which gives shelter to disabled, injured elephants. This program plays a large role in protecting the Sri Lankan Elephant from ].
{{Redirect|Elephant trunk}}
]
The elongated and ] trunk, or ], consists of both the nose and upper lip, which fuse in early ] development.<ref name=evolution /> This versatile appendage contains up to 150,000 separate ]s, with no bone and little fat. These paired muscles consist of two major types: superficial (surface) and internal. The former are divided into ], and ] muscles, while the latter are divided into ] and ] muscles. The muscles of the trunk connect to a bony opening in the skull. The ] consists of small elastic muscles between the nostrils, which are divided by ] at the base.<ref name=Shoshani74>Shoshani, pp. 74–77.</ref> A unique proboscis nerve – a combination of the ] and ]s – lines each side of the appendage.<ref name=trunk />


As a ], the trunk moves through finely controlled muscle contractions, working both with and against each other.<ref name="trunk" /> Using three basic movements: bending, twisting, and longitudinal stretching or retracting, the trunk has near unlimited flexibility. Objects grasped by the end of the trunk can be moved to the mouth by curving the appendage inward. The trunk can also bend at different points by creating stiffened "pseudo-joints". The tip can be moved in a way similar to the human hand.<ref>{{cite journal|last1=Dagenais|first1=P|last2=Hensman|first2=S|last3=Haechler|first3=V|last4=Milinkovitch|first4=M. C.|year=2021|title=Elephants evolved strategies reducing the biomechanical complexity of their trunk|journal=Current Biology|volume=31|issue=21|pages=4727–4737|doi=10.1016/j.cub.2021.08.029|pmid=34428468|s2cid=237273086|doi-access=free|bibcode=2021CBio...31E4727D}}</ref> The skin is more elastic on the dorsal side of the elephant trunk than underneath; allowing the animal to stretch and coil while maintaining a strong grasp.<ref>{{cite journal|last1=Schulz|first1=A. K.|last2=Boyle|first2=M|last3=Boyle|first3=C|last4=Sordilla|first4=S|last5=Rincon|first5=C|last6=Hooper|first6=K|last7=Aubuchon|first7=C|last8=Reidenberg|first8=J. S.|last9=Higgins|first9=C|last10=Hu|first10=D. L.|year=2022|title=Skin wrinkles and folds enable asymmetric stretch in the elephant trunk|journal=Proceedings of the National Academy of Sciences|volume=119|issue=31|page=e2122563119|doi=10.1073/pnas.2122563119|doi-access=free |pmid=35858384 |pmc=9351381 |bibcode=2022PNAS..11922563S }}</ref> The flexibility of the trunk is aided by the numerous wrinkles in the skin.<ref>{{cite journal|last1=Schulz|first1=A. K.|last2=Kaufmann|first2=L. V.|last3=Reveyaz|first3=N|last4=Ritter|first4=C|last5=Hildebrandt|first5=T|last6=Brecht|first6=M|year=2024|title=Elephants develop wrinkles through both form and function|journal= Royal Society Open Science|volume=11|issue=10 |page=240851|doi=10.1098/rsos.240851|pmid=39386989 |pmc=11461087 |bibcode=2024RSOS...1140851S }}</ref> The African elephants have two finger-like extensions at the tip of the trunk that allow them to pluck small food. The Asian elephant has only one and relies more on wrapping around a food item.<ref name="Shoshani38" /> Asian elephant trunks have better ].<ref name="Shoshani74" />
Another subspecies, the ] (''Elephas maximus indicus'') makes up the bulk of the Asian elephant population. Numbering approximately 36,000, these elephants are lighter gray in colour, with depigmentation only on the ears and trunk. Large males will ordinarily weigh only about 11,000 lb but are as tall as the Sri Lankan. The mainland Asian can be found in 11 Asian countries, from India to Indonesia. They prefer forested areas and transitional zones, between forests and grasslands, where greater food variety is available.
]
The trunk's extreme flexibility allows it to forage and wrestle other elephants with it. It is powerful enough to lift up to {{convert|350|kg|lb|abbr=on}}, but it also has the precision to crack a peanut shell without breaking the seed. With its trunk, an elephant can reach items up to {{convert|7|m|ft|abbr=on}} high and dig for water in the mud or sand below. It also uses it to clean itself.<ref name=Kingdon9>Kingdon, p. 9.</ref> Individuals may show lateral preference when grasping with their trunks: some prefer to twist them to the left, others to the right.<ref name="trunk">{{cite journal|author1=Martin, F.|author2=Niemitz C. |year=2003|title="Right-trunkers" and "left-trunkers": side preferences of trunk movements in wild Asian elephants (''Elephas maximus'')|journal=Journal of Comparative Psychology|volume=117|issue=4|pages=371–379|doi=10.1037/0735-7036.117.4.371|pmid=14717638}}</ref> Elephant trunks are capable of powerful siphoning. They can expand their nostrils by 30%, leading to a 64% greater nasal volume, and can breathe in almost 30 times faster than a human sneeze, at over {{convert|150|m/s|abbr=on}}.<ref name="Schulz">{{cite journal|author=Schulz, A. K.|author2= Ning Wu, Jia|author3= Sara Ha, S. Y.|author4= Kim, G.|year=2021|title=Suction feeding by elephants|journal= Journal of the Royal Society Interface|volume=18|issue=179|doi=10.1098/rsif.2021.0215|pmid=34062103|pmc=8169210|doi-access=free}}</ref> They suck up water, which is squirted into the mouth or over the body.<ref name=evolution /><ref name="Schulz"/> The trunk of an adult Asian elephant is capable of retaining {{convert|8.5|L|gal|abbr=on}} of water.<ref name=Shoshani74 /> They will also sprinkle dust or grass on themselves.<ref name=evolution /> When underwater, the elephant uses its trunk as a ].<ref name=snorkel />


The trunk also acts as a sense organ. Its sense of smell may be four times greater than a ]'s nose.<ref name=Sukumar149 /> The ], which makes the trunk sensitive to touch, is thicker than both the ] and ] nerves. ] grow all along the trunk, and are particularly packed at the tip, where they contribute to its tactile sensitivity. Unlike those of many mammals, such as cats and rats, elephant whiskers do not move independently ("whisk") to sense the environment; the trunk itself must move to bring the whiskers into contact with nearby objects. Whiskers grow in rows along each side on the ventral surface of the trunk, which is thought to be essential in helping elephants balance objects there, whereas they are more evenly arranged on the dorsal surface. The number and patterns of whiskers are distinctly different between species.<ref>{{Cite journal |last1=Deiringer |first1=Nora |last2=Schneeweiß |first2=Undine |last3=Kaufmann |first3=Lena V. |last4=Eigen |first4=Lennart |last5=Speissegger |first5=Celina |last6=Gerhardt |first6=Ben |last7=Holtze |first7=Susanne |last8=Fritsch |first8=Guido |last9=Göritz |first9=Frank |last10=Becker |first10=Rolf |last11=Ochs |first11=Andreas |last12=Hildebrandt |first12=Thomas |last13=Brecht |first13=Michael |date=2023-06-08 |title=The functional anatomy of elephant trunk whiskers |journal=Communications Biology |language=en |volume=6 |issue=1 |page=591 |doi=10.1038/s42003-023-04945-5 |pmid=37291455 |pmc=10250425 |issn=2399-3642}}</ref>
The smallest of all the elephants is the ] (''Elephas maximus sumatranus''). Population estimates for this group range from 2,100 to 3,000 individuals. It is very light gray and has less depigmentation than the other Asians, with pink spots only on the ears. Mature Sumatrans will usually only measure 1.7-2.6m at the shoulder and weigh less than 3,000 kg (6,600 lb). An enormous animal nonetheless, it is considerably smaller than its other Asian (and African) cousins and exists only on the island of Sumatra, usually in forested regions and partially wooded habitats.


Damaging the trunk would be detrimental to an elephant's survival,<ref name=evolution /> although in rare cases, individuals have survived with shortened ones. One trunkless elephant has been observed to graze using its lips with its hind legs in the air and balancing on its front knees.<ref name=Shoshani74 /> ] is a condition of trunk ] recorded in African bush elephants and involves the degeneration of the ] and muscles. The disorder has been linked to lead poisoning.<ref name="NS">{{cite magazine|url=https://www.newscientist.com/article/mg13618470.700-lead-in-lake-blamed-for-floppy-trunks-.html|title=Lead in lake blamed for floppy trunks|author=Cole, M.|date=14 November 1992|magazine=New Scientist|access-date=25 June 2009|archive-date=17 May 2008|archive-url=https://web.archive.org/web/20080517112426/http://www.newscientist.com/article/mg13618470.700-lead-in-lake-blamed-for-floppy-trunks-.html|url-status=live}}</ref>
In 2003 a further subspecies was identified on ]. Named the Borneo pygmy elephant, it is smaller and tamer than other Asian elephants. It also has relatively larger ears, longer tail and straighter tusks.


===Body characteristics=== ===Teeth===
{{multiple image
====Trunk====
|align=right
]
|direction=vertical
The proboscis, or trunk, is a fusion of the nose and upper lip, elongated and specialized to become the elephant's most important and versatile appendage. African elephants are equipped with two fingerlike projections at the tip of their trunk, while Asians have only one. According to biologists, the elephant's trunk is said to have over forty thousand individual muscles in it, making it sensitive enough to pick up a single blade of grass, yet strong enough to rip the branches off a tree. Some sources indicate that the correct number of muscles in an elephant's trunk is nearer to one hundred thousand.
|width=220
|image1=Loxodonta africana - Molar of an adult.JPG|caption1=Molar of an adult African bush elephant
|image2=2010-kabini-tusker-bark.jpg|caption2=Asian elephant eating tree bark, using its tusks to peel it off
}}
Elephants usually have 26 teeth: the ]s, known as the ]s; 12 ] ]s; and 12 ]. Unlike most mammals, teeth are not replaced by new ones emerging from the jaws vertically. Instead, new teeth start at the back of the mouth and push out the old ones. The first chewing tooth on each side of the jaw falls out when the elephant is two to three years old. This is followed by four more tooth replacements at the ages of four to six, 9–15, 18–28, and finally in their early 40s. The final (usually sixth) set must last the elephant the rest of its life. Elephant teeth have loop-shaped dental ridges, which are more diamond-shaped in African elephants.<ref name=Shoshani70>Shoshani, pp. 70–71.</ref>


====Tusks====
Most ] (plant eaters, like the elephant) are adapted with teeth for cutting and tearing off plant materials. However, except for the very young or infirm, elephants always use their trunks to tear up their food and then place it in their mouth. They will graze on grass or reach up into trees to grasp leaves, fruit, or entire branches. If the desired food item is too high up, the elephant will wrap its trunk around the tree or branch and shake its food loose or sometimes simply knock the tree down altogether.
The tusks of an elephant are modified second incisors in the upper jaw. They replace deciduous ] at 6–12 months of age and keep growing at about {{convert|17|cm|in|0|abbr=on}} a year. As the tusk develops, it is topped with smooth, cone-shaped ] that eventually wanes. The ]e is known as ] and has a ] of intersecting lines, known as "engine turning", which create diamond-shaped patterns. Being living tissue, tusks are fairly soft and about as dense as the mineral ]. The tusk protrudes from a socket in the skull, and most of it is external. At least one-third of the tusk contains the ], and some have nerves that stretch even further. Thus, it would be difficult to remove it without harming the animal. When removed, ivory will dry up and crack if not kept cool and wet. Tusks function in digging, debarking, marking, moving objects, and fighting.<ref name=Shoshani71 />
The trunk is also used for drinking. Elephants suck water up into the trunk (up to fifteen quarts at a time) and then blow it into their mouth. Elephants also inhale water to spray on their body during bathing. On top of this watery coating, the animal will then spray dirt and mud, which act as a protective sunscreen.


Elephants are usually right- or left-tusked, similar to humans, who are typically ]. The dominant, or "master" tusk, is typically more worn down, as it is shorter and blunter. For African elephants, tusks are present in both males and females and are around the same length in both sexes, reaching up to {{convert|300|cm|ftin|0|abbr=on}},<ref name=Shoshani71 /> but those of males tend to be more massive.<ref>Sukumar, p. 120</ref> In the Asian species, only the males have large tusks. Female Asians have very small tusks, or none at all.<ref name=Shoshani71>Shoshani, pp. 71–74.</ref> Tuskless males exist and are particularly common among ]s.<ref>{{cite book|author=Clutton-Brock, J.|year=1986|title=A Natural History of Domesticated Mammals|publisher=British Museum (Natural History)|page=208|isbn=978-0-521-34697-9}}</ref> Asian males can have tusks as long as Africans', but they are usually slimmer and lighter; the largest recorded was {{convert|302|cm|ftin|0|abbr=on}} long and weighed {{convert|39|kg|lb|0|abbr=on}}. Hunting for elephant ivory in Africa<ref>{{cite web|title=Elephants Evolve Smaller Tusks Due to Poaching|date=20 January 2008|publisher=Environmental News Network|url=http://www.enn.com/wildlife/article/29620|access-date=25 September 2012|archive-date=21 November 2015|archive-url=https://web.archive.org/web/20151121185117/http://www.enn.com/wildlife/article/29620|url-status=live}}</ref> and Asia<ref>{{Cite web|date=2018-11-09|title=Under poaching pressure, elephants are evolving to lose their tusks|url=https://www.nationalgeographic.com/animals/article/wildlife-watch-news-tuskless-elephants-behavior-change|url-status=dead|access-date=2021-10-28|website=]|language=en|archive-url=https://web.archive.org/web/20210303222242/https://www.nationalgeographic.com/animals/article/wildlife-watch-news-tuskless-elephants-behavior-change/ |archive-date=3 March 2021 }}</ref> has resulted in an effective ] for shorter tusks<ref>{{cite news|url=https://www.telegraph.co.uk/science/science-news/3322455/Why-elephants-are-not-so-long-in-the-tusk.html|archive-url=https://web.archive.org/web/20091018192954/http://www.telegraph.co.uk/science/science-news/3322455/Why-elephants-are-not-so-long-in-the-tusk.html|url-status=dead|archive-date=18 October 2009|title=Why elephants are not so long in the tusk|last=Gray|first=R.|date=20 January 2008|work=]|access-date=27 January 2013}}</ref><ref>{{cite journal|author1=Chiyo, P. I. |author2=Obanda, V. |author3=Korir, D. K. |title=Illegal tusk harvest and the decline of tusk size in the African elephant|journal=Ecology and Evolution|year=2015|volume=5|issue=22|pages=5216–5229|doi=10.1002/ece3.1769|pmid=30151125|pmc=6102531|bibcode=2015EcoEv...5.5216C }}</ref> and tusklessness.<ref>{{cite journal|author1=Jachmann, H. |author2=Berry, P. S. M. |author3=Imae, H. |year=1995|title=Tusklessness in African elephants: a future trend|journal=African Journal of Ecology|volume=33|issue=3|pages=230–235|doi=10.1111/j.1365-2028.1995.tb00800.x|bibcode=1995AfJEc..33..230J }}</ref><ref>{{cite journal|author1=Kurt, F. |author2=Hartl, G. |author3=Tiedemann, R. |year=1995|title=Tuskless bulls in Asian elephant ''Elephas maximus''. History and population genetics of a man-made phenomenon.|journal=Acta Theriol.|volume=40|pages=125–144|doi=10.4098/at.arch.95-51|doi-access=free}}</ref>
This appendage also plays a key role in many social interactions. Familiar elephants will greet each other by entwining their trunks, much like a handshake. They also use them while play-wrestling, caressing during courtship, and for dominance displays - a raised trunk can be a warning or threat, while a lowered trunk can be a sign of submission. Elephants can defend themselves very well by flailing their trunk at unwanted intruders or by grasping and flinging them.


=== Skin ===
An elephant also relies on its trunk for its highly developed sense of smell. Raising the trunk up in the air and swivelling it from side to side, like a periscope, it can determine the location of friends, enemies, and food sources.
]
An elephant's skin is generally very tough, at {{convert|2.5|cm|in|0|abbr=on}} thick on the back and parts of the head. The skin around the mouth, ], and inside of the ear is considerably thinner. Elephants are typically grey, but African elephants look brown or reddish after rolling in coloured mud. Asian elephants have some patches of depigmentation, particularly on the head. Calves have brownish or reddish hair, with the head and back being particularly hairy. As elephants mature, their hair darkens and becomes sparser, but dense concentrations of hair and bristles remain on the tip of the tail and parts of the head and genitals. Normally, the skin of an Asian elephant is covered with more hair than its African counterpart.<ref name=Shoshani66>Shoshani, pp. 66–67.</ref> Their hair is thought to help them lose heat in their hot environments.<ref name="Elephanthair">{{cite journal |last1=Myhrvold |first1=C. L. |last2=Stone |first2=H. A. |last3=Bou-Zeid |first3=E. |title=What Is the Use of Elephant Hair? |journal=PLOS ONE |date=10 October 2012 |volume=7 |issue=10 |page=e47018 |doi=10.1371/journal.pone.0047018|pmid=23071700 |pmc=3468452 |bibcode=2012PLoSO...747018M |doi-access=free }}</ref>


Although tough, an elephant's skin is very sensitive and requires ] to maintain moisture and protection from burning and insect bites. After bathing, the elephant will usually use its trunk to blow dust onto its body, which dries into a protective crust. Elephants have difficulty releasing heat through the skin because of their low ], which is many times smaller than that of a human. They have even been observed lifting up their legs to expose their soles to the air.<ref name=Shoshani66 /> Elephants only have ]s between the toes,<ref>{{cite journal|last1=Lamps|first1=L. W.|last2=Smoller|first2=B. R.|last3=Rasmussen|first3=L. E. L.|last4=Slade|first4=B. E.|last5=Fritsch|first5=G|last6=Godwin|first6=T. E.|year=2001|title=Characterization of interdigital glands in the Asian elephant (Elephas maximus)|journal=Research in Veterinary Science|volume=71|issue=3|pages=197–200|doi=10.1053/rvsc.2001.0508|pmid=11798294 }}</ref> but the skin allows water to disperse and evaporate, cooling the animal.<ref>{{Cite journal|date=1984|title=Do elephants need to sweat?|journal=Journal of Zoology|doi=10.1080/02541858.1984.11447892|last1=Wright|first1=P. G.|last2=Luck|first2=C. P.|volume=19|issue=4|pages=270–274|doi-access=free}}</ref><ref>{{Cite journal|date=1970|title=The epidermis and its keratinisation in the African Elephant (Loxodonta Africana)|journal=Zoologica Africana|doi=10.1080/00445096.1970.11447400|doi-access=free|last1=Spearman|first1=R. I. C.|volume=5|issue=2|pages=327–338}}</ref> In addition, cracks in the skin may reduce dehydration and allow for increased thermal regulation in the long term.<ref>{{Cite journal|date=2018|title=Locally-curved geometry generates bending cracks in the African elephant skin|journal=Nature Communications|doi=10.1038/s41467-018-06257-3|doi-access=free|last1=Martins|first1=António F.|last2=Bennett|first2=Nigel C.|last3=Clavel|first3=Sylvie|last4=Groenewald|first4=Herman|last5=Hensman|first5=Sean|last6=Hoby|first6=Stefan|last7=Joris|first7=Antoine|last8=Manger|first8=Paul R.|last9=Milinkovitch|first9=Michel C.|volume=9|issue=1|page=3865|pmid=30279508|pmc=6168576|bibcode=2018NatCo...9.3865M}}</ref>
====Tusks====
The ]s of an elephant are its second upper ]s. Tusks grow continuously; an adult male's tusks will grow about seven inches a year. Tusks are used to dig for water, salt, and roots; to debark trees, to eat the bark; to dig into ] trees to get at the pulp inside; and to move trees and branches when clearing a path. In addition, they are used for marking trees to establish territory and occasionally as weapons.


=== Legs, locomotion, and posture ===
Like humans who are typically right- or left-handed, elephants are usually right- or left-tusked. The dominant tusk, called the master tusk, is generally shorter and more rounded at the tip from wear. Both male and female African elephants have large tusks that can reach over 10 ft (3 m) in length and weigh over 200 lb (90 kg). In the Asian species, only the males have large tusks. Female Asians have tusks which are very small or absent altogether. Asian males can have tusks as long as the much larger Africans, but they are usually much slimmer and lighter; the heaviest recorded is 86 lb (39 kg). The tusk of both species is mostly made of ] in the form of ]. As a piece of living tissue, it is relatively soft (compared with other minerals such as rock), and the tusk, also known as ], is strongly favoured by artisans for its carvability. The desire for elephant ivory has been one of the major factors in the dramatic decline of the world's elephant population.
{{multiple image
|align=right
|direction=vertical
|width=220
|image1=Desert elephant (Loxodonta africana) feet.jpg|caption1=Front feet of bush elephant
|image2=Elephant Walking animated.gif|caption2=An Asian elephant walking}}
To support the animal's weight, an elephant's limbs are positioned more vertically under the body than in most other mammals. The long bones of the limbs have ]s in place of ]. This strengthens the bones while still allowing ] (blood cell creation).<ref name=Shoshani69>Shoshani, pp. 69–70.</ref> Both the front and hind limbs can support an elephant's weight, although 60% is borne by the front.<ref name="cushion">{{cite journal|author1=Weissengruber, G. E. |author2=Egger, G. F. |author3=Hutchinson, J. R. |author4=Groenewald, H. B. |author5=Elsässer, L. |author6=Famini, D. |author7=Forstenpointner, G. |year=2006|title=The structure of the cushions in the feet of African elephants (''Loxodonta africana'')|journal=Journal of Anatomy|volume=209|issue=6|pages=781–792|doi=10.1111/j.1469-7580.2006.00648.x|pmid=17118065|pmc=2048995}}</ref> The position of the limbs and leg bones allows an elephant to stand still for extended periods of time without tiring. Elephants are incapable of turning their ] as the ] and ] of the front legs are secured in ].<ref name=Shoshani69 /> Elephants may also lack the ] and ] muscles or have very small ones.<ref>Shoshani, p. 74.</ref> The circular feet of an elephant have soft tissues, or "cushion pads" beneath the manus or ], which allow them to bear the animal's great mass.<ref name=cushion /> They appear to have a ], an extra "toe" similar in placement to a ]'s extra "thumb", that also helps in weight distribution.<ref>{{cite journal|last1=Hutchinson|first1=J. R.|last2=Delmer|first2=C|last3=Miller|first3=C. E.|last4=Hildebrandt|first4=T|last5=Pitsillides|first5=A. A.|last6=Boyde|first6=A|year=2011|title=From flat foot to fat foot: structure, ontogeny, function, and evolution of elephant "sixth toes"|journal=Science|volume=334|issue=6063|pages=1699–1703|doi=10.1126/science.1211437|pmid=22194576 |bibcode=2011Sci...334R1699H |s2cid=206536505 |url=https://researchonline.rvc.ac.uk/id/eprint/5612/1/5612.pdf }}</ref> As many as five toenails can be found on both the front and hind feet.<ref name=Shoshani38 />


Elephants can move both forward and backward, but are incapable of ], ], or ]. They can move on land only by walking or ]: a faster gait similar to running.<ref name=Shoshani69 /><ref name="kinetics"/> In walking, the legs act as pendulums, with the hips and shoulders moving up and down while the foot is planted on the ground. The fast gait does not meet all the criteria of running, since there is no point where all the feet are off the ground, although the elephant uses its legs much like other running animals, and can move faster by quickening its stride. Fast-moving elephants appear to 'run' with their front legs, but 'walk' with their hind legs and can reach a top speed of {{convert|25|km/h|abbr=on}}. At this speed, most other ] are well into a gallop, even accounting for leg length. Spring-like kinetics could explain the difference between the motion of elephants and other animals.<ref name="kinetics">{{cite journal |author1 = Hutchinson, J. R.| author2 = Schwerda, D.| author3 = Famini, D. J.| author4 = Dale, R. H.| author5 = Fischer, M. S.| author6 = Kram, R.|year=2006|title=The locomotor kinematics of Asian and African elephants: changes with speed and size|journal=Journal of Experimental Biology|volume=209|issue=19|pages=3812–3827|pmid=16985198 |doi = 10.1242/jeb.02443|doi-access=free}}</ref><ref name="ReferenceA">{{cite journal |author1=Hutchinson, J. R. |author2=Famini, D. |author3=Lair, R. |author4=Kram, R. |s2cid=4403723 |year=2003 |title=Biomechanics: Are fast-moving elephants really running? |journal=Nature |volume=422 |pages=493–494 |doi=10.1038/422493a |pmid=12673241 |issue=6931 |bibcode=2003Natur.422..493H |url=http://researchonline.rvc.ac.uk/id/eprint/124/ |access-date=3 January 2023 |archive-date=9 August 2022 |archive-url=https://web.archive.org/web/20220809231054/https://researchonline.rvc.ac.uk/id/eprint/124/ |url-status=live }}</ref> The cushion pads expand and contract, and reduce both the pain and noise that would come from a very heavy animal moving.<ref name=cushion /> Elephants are capable swimmers: they can swim for up to six hours while completely waterborne, moving at {{convert|2.1|km/h|0|abbr=on}} and traversing up to {{convert|48|km|mi|abbr=on}} continuously.<ref>Shoshani, p. 60.</ref>
Some extinct relatives of elephants had tusks in their lower jaws also (e.g. '']''), or instead (e.g. '']'').


====Teeth==== === Internal systems ===
The brain of an elephant weighs {{convert|4.5|–|5.5|kg|lb|0|abbr=on}} compared to {{convert|1.6|kg|lb|0|abbr=on}} for a human brain.<ref name=Shoshani78 /> It is the largest of all terrestrial mammals.<ref name="posse">{{cite book|author=O'Connell, Caitlin|title="Elephant Don: The Politics of a Pachyderm Posse"|date=20 July 2016|publisher=University of Chicago Press |isbn=9780226380056|url=https://books.google.com/books?id=2ZElEAAAQBAJ&q=Elephants+have+the+largest+temporal+lobe+relative+to+the+size+of+its+body+among+any+land+mammals&pg=PA102|access-date=16 September 2022|archive-date=21 March 2023|archive-url=https://web.archive.org/web/20230321084756/https://books.google.com/books?id=2ZElEAAAQBAJ&q=Elephants+have+the+largest+temporal+lobe+relative+to+the+size+of+its+body+among+any+land+mammals&pg=PA102|url-status=live}}</ref> While the elephant brain is larger overall, it is ]. At birth, an elephant's brain already weighs 30–40% of its adult weight. The ] and ] are well developed, and the ]s are so large that they bulge out laterally.<ref name=Shoshani78 /> Their temporal lobes are proportionally larger than those of other animals, including humans.<ref name=posse /> The throat of an elephant appears to contain a pouch where it can store water for later use.<ref name=evolution /> The ] of the elephant is the largest known among mammals. The ]s are anchored close to the ] base. When comparing an elephant's vocal folds to those of a human, an elephant's are proportionally longer, thicker, with a greater cross-sectional area. In addition, they are located further up the vocal tract with an acute slope.<ref name="vibratorypatterns">{{cite journal|author1= Herbest, C. T.| author2 = Švec, J. G.| author3 = Lohscheller, J.| author4 = Frey, R.| author5 = Gumpenberger, M.| author6 = Stoeger, A.| author7 = Fitch, W. T.|year=2013|title= Complex Vibratory Patterns in an Elephant Larynx|journal= Journal of Experimental Biology|volume=216|issue=21|pages=4054–4064|doi=10.1242/jeb.091009
Elephants' ] are very different from those of most other mammals. Over their lives they usually have 28 teeth. These are:
|pmid=24133151|doi-access=free}}</ref>
*The two upper second incisors: these are the ]s.
]
*The ] of the tusks.
The heart of an elephant weighs {{convert|12|–|21|kg|lb|abbr=on}}. Its ] has two pointed ends, an unusual trait among mammals.<ref name=Shoshani78 /> In addition, the ] of the heart split towards the top, a trait also found in sirenians.<ref name="Marshall Cavendish">{{cite book| author=Anon|title=Mammal Anatomy: An Illustrated Guide |year=2010 |publisher=Marshall Cavendish |isbn=978-0-7614-7882-9 |page=59}}</ref> When upright, the elephant's heart beats around 28 beats per minute and actually speeds up to 35 beats when it lies down.<ref name=Shoshani78/> The blood vessels are thick and wide and can hold up under high blood pressure.<ref name="Marshall Cavendish"/> The lungs are attached to the ], and breathing relies less on the expanding of the ribcage.<ref name=Shoshani78>Shoshani, pp. 78–79.</ref> ] exists in place of the ]. This may allow the animal to deal with the pressure differences when its body is underwater and its trunk is breaking the surface for air.<ref name="snorkel">{{cite journal|author=West, J. B.|s2cid=27321751|year=2002|title=Why doesn't the elephant have a pleural space?|journal=Physiology|volume=17|issue=2|pages=47–50|pmid=11909991|doi=10.1152/nips.01374.2001|doi-access=free}}</ref> Elephants breathe mostly with the trunk but also with the mouth. They have a ] system, and their large and small intestines together reach {{convert|35|m|ft|0|abbr=on}} in length. Less than half of an elephant's food intake gets digested, despite the process lasting a day.<ref name=Shoshani78 /> An elephant's bladder can store up to 18 litres of urine<ref>{{Cite journal |last1=Yang |first1=Patricia J. |last2=Pham |first2=Jonathan |last3=Choo |first3=Jerome |last4=Hu |first4=David L. |date=2014-08-19 |title=Duration of urination does not change with body size |journal=Proceedings of the National Academy of Sciences |language=en |volume=111 |issue=33 |pages=11932–11937 |doi=10.1073/pnas.1402289111 |doi-access=free |issn=0027-8424 |pmc=4143032 |pmid=24969420|bibcode=2014PNAS..11111932Y }}</ref> and its ] can produce more than 50 ]s of urine per day.<ref name="FowlerMikota2006" />
*12 ]s, 3 in each side of each jaw.
*12 ]s, 3 in each side of each jaw.
Unlike most mammals, which ] baby teeth and then replace them with a permanent set of adult teeth, elephants have cycles of tooth rotation throughout their entire life. After one year the tusks are permanent, but the other teeth are replaced five times in an elephant's life. The teeth do not emerge from the jaws vertically like with human teeth. Instead, they have a horizontal progression, like a conveyor belt. New teeth grow in at the back of the mouth, pushing older teeth toward the front, where they wear down with use and the remains fall out. When an elephant becomes very old, the last set of teeth is worn to stumps, and it must rely on softer foods to chew. Very elderly elephants often spend their last years exclusively in marshy areas where they can feed on soft wet grasses. Eventually, when the last teeth fall out, the elephant will be unable to eat and will die of starvation. Were it not for tooth wearout, their metabolism would allow them to live much longer. ] has proposed this as an explanation for the ]s. However, as more habitat is destroyed, the elephants' living space becomes smaller and smaller; the elderly no longer have the opportunity to roam in search of more appropriate food and will, consequently, die of starvation at an earlier age.


===Sex characteristics===
Tusks in the lower jaw are also second incisors. These grew out large in ] and some ]s, but in modern elephants they disappear early without ].
{{anchor|Sex organs}}{{multiple image|image1=Penis asiatischer Elefant.JPG|image2=Vulve d'éléphante.jpg|perrow=2|total_width=220px|footer=Asian elephant penis and vulva}}A male elephant's testes, like other ],<ref name="Sharma Lehmann Stuckas Funke ">{{cite journal | last1=Sharma | first1=Virag | last2=Lehmann | first2=Thomas | last3=Stuckas | first3=Heiko | last4=Funke | first4=Liane | last5=Hiller | first5=Michael | title=Loss of RXFP2 and INSL3 genes in Afrotheria shows that testicular descent is the ancestral condition in placental mammals | journal=PLOS Biology | volume=16 | issue=6 | date=2018 | issn=1545-7885 | doi=10.1371/journal.pbio.2005293 | page=e2005293 | pmid=29953435 | pmc=6023123 | doi-access=free }}</ref> are internally located near the kidneys.<ref>{{cite journal | author1 = Short, R. V. | author2 = Mann, T. | author3 = Hay, Mary F. | year = 1967 | title = Male reproductive organs of the African elephant, Loxodonta africana | url = http://www.reproduction-online.org/content/13/3/517.full.pdf | journal = Journal of Reproduction and Fertility | volume = 13 | issue = 3 | pages = 517–536 | doi = 10.1530/jrf.0.0130517 | pmid = 6029179 | doi-access = free | access-date = 10 July 2017 | archive-date = 20 July 2018 | archive-url = https://web.archive.org/web/20180720144623/http://www.reproduction-online.org/content/13/3/517.full.pdf | url-status = live }}</ref> The ] can be as long as {{convert|100|cm|in|0|abbr=on}} with a {{convert|16|cm|in|0|abbr=on}} wide base. It curves to an 'S' when fully erect and has an ] shaped like a Y. The ] is found lower than in other herbivores, between the hind legs instead of under the tail and its ] may be {{convert|40|cm|in|0|abbr=on}}. Determining pregnancy status can be difficult due to the animal's large belly. The female's ]s occupy the space between the front legs, which puts the suckling calf within reach of the female's trunk.<ref name=Shoshani78 /> Elephants have a unique organ, the ], located on both sides of the head. This organ is associated with sexual behaviour, and males secrete a fluid from it when in ].<ref>Shoshani, p. 80.</ref> Females have also been observed with these secretions.<ref name=Sukumar149>Sukumar, p. 149.</ref>


==Behaviour and ecology==
====Skin====
{{multiple image
]
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Elephants are called ''pachyderms'', which means thick-skinned animals. An elephant's skin is extremely tough around most parts of its body and measures about 2.5 cm (1 in) thick. However, the skin around the mouth and inside of the ear is paper thin. Normally, the skin of an Asian is covered with more hair than its African counterpart. This is most noticeable in the young. Asian calves are usually covered with a thick coat of brownish red fuzz. As they get older, this hair darkens and becomes more sparse, but it will always remain on their heads and tails.
| direction =vertical
| image1 = Elephant eating Yala Sri Lanka.ogv
| caption1 = An Asian elephant feeding on grass in Sri Lanka
| image2 = African elephant (Loxodonta africana) reaching up 1.jpg
| caption2 = An African bush elephant using its prehensile trunk for foraging
}}
Elephants are ] and will eat leaves, twigs, fruit, bark, grass, and roots. African elephants mostly ], while Asian elephants mainly ].<ref name=Shoshani42 /> They can eat as much as {{convert|300|kg|lb|abbr=on}} of food and drink {{convert|40|L|gal|abbr=on}} of water in a day. Elephants tend to stay near water sources.<ref name=Shoshani42 /><ref name=Shoshani124 /> They have morning, afternoon, and nighttime feeding sessions. At midday, elephants rest under trees and may doze off while standing. Sleeping occurs at night while the animal is lying down.<ref name=Shoshani124 /> Elephants average three to four hours of sleep per day.<ref name="Siegel">{{cite journal|author=Siegel, J. M.|s2cid=234089|year=2005|title=Clues to the functions of mammalian sleep|journal=Nature|volume=437|issue=7063|pages=1264–1271|doi=10.1038/nature04285|pmid=16251951|pmc=8760626|bibcode=2005Natur.437.1264S}}</ref> Both males and family groups typically move no more than {{convert|20|km|mi|0|abbr=on}} a day, but distances as far as {{convert|180|km|mi|0|abbr=on}} have been recorded in the ] region of Namibia.<ref>Sukumar, p. 159.</ref> Elephants go on seasonal migrations in response to changes in environmental conditions.<ref>Sukumar, p. 174.</ref> In northern Botswana, they travel {{convert|325|km|mi|0|abbr=on}} to the ] after the local waterholes dry up in late August.<ref>{{cite book|author=Hoare, B. |year=2009 |title=Animal Migration: Remarkable Journeys in the Wild|publisher=University of California Press|pages=58–59|isbn=978-0-520-25823-5}}</ref>


Because of their large size, elephants have a huge impact on their environments and are considered ]. Their habit of uprooting trees and undergrowth can transform savannah into grasslands;<ref name=Shoshani226 /> smaller herbivores can access trees mowed down by elephants.<ref name=Shoshani124 /> When they dig for water during droughts, they create waterholes that can be used by other animals. When they use waterholes, they end up making them bigger.<ref name=Shoshani226 /> At ], elephants dig through caves and pave the way for ]s, hyraxes, bats, birds, and insects.<ref name=Shoshani226 /> Elephants are important ]; African forest elephants consume and deposit many seeds over great distances, with either no effect or a positive effect on ].<ref>{{cite journal|author1=Campos-Arceiz, A.|author2=Blake, S.|year=2011|title=Mega-gardeners of the forest – the role of elephants in seed dispersal|journal=Acta Oecologica|volume=37|issue=6|pages=542–553|doi=10.1016/j.actao.2011.01.014|url=http://faculty.washington.edu/timbillo/Readings%20and%20documents/CO2%20and%20Forests%20readings/Campos%20Arceiz%202011%20Elephant%20seed%20dispersal.pdf|bibcode=2011AcO....37..542C|access-date=22 November 2012|archive-date=18 June 2013|archive-url=https://web.archive.org/web/20130618142027/http://faculty.washington.edu/timbillo/Readings%20and%20documents/CO2%20and%20Forests%20readings/Campos%20Arceiz%202011%20Elephant%20seed%20dispersal.pdf|url-status=live}}</ref> In Asian forests, large seeds require giant herbivores like elephants and ] for transport and dispersal. This ecological niche cannot be filled by the smaller ].<ref>{{cite journal|author1=Campos-Arceiz, A. |author2=Traeholt, C. |author3=Jaffar, R. |author4=Santamaria, L. |author5=Corlett, R. T. |year=2012|title=Asian tapirs are no elephants when it comes to seed dispersal|journal=Biotropica|volume=44|issue=2|pages=220–227|doi=10.1111/j.1744-7429.2011.00784.x|bibcode=2012Biotr..44..220C |hdl=10261/56573 |s2cid=83604698 }}</ref> Because most of the food elephants eat goes undigested, their dung can provide food for other animals, such as ]s and monkeys.<ref name=Shoshani226>Shoshani, pp. 226–29.</ref> Elephants can have a negative impact on ecosystems. At ] in Uganda, elephant numbers have threatened several species of small birds that depend on woodlands. Their weight causes the soil to compress, leading to ] and ].<ref name=Shoshani124>Eltringham, pp. 124–27.</ref>
The species of elephants are typically grayish in colour, but the Africans very often appear brown or reddish from wallowing in mud holes of coloured soil. Wallowing is actually a very important behaviour in elephant society. Not only is it important for socialization, but the mud acts as a sunscreen, protecting their skin from harsh ultraviolet radiation. Though tough, an elephant's skin is very sensitive. Without regular mud baths to protect it from burning, as well as from insect bites and moisture loss, an elephant's skin would suffer serious damage. After bathing, the elephant will usually use its trunk to blow dirt on its body to help dry and bake on its new protective coat. As elephants are limited to smaller and smaller areas, there is less water available, and local herds will often come too close over the right to use these limited resources.


Elephants typically coexist peacefully with other herbivores, which will usually stay out of their way. Some aggressive interactions between elephants and rhinoceros have been recorded.<ref name=Shoshani124 /> The size of adult elephants makes them nearly invulnerable to ]s.<ref name=Asian /> Calves may be preyed on by ]s, ]s, and ] in Africa<ref name=African>{{cite journal|author1=Laursen, L.|author2=Bekoff, M.|year=1978|title=''Loxodonta africana''|journal=Mammalian Species|pages=1–8|url=http://www.science.smith.edu/msi/pdf/i0076-3519-092-01-0001.pdf|jstor=3503889|doi=10.2307/3503889|issue=92|s2cid=253949585 |url-status=dead|archive-url=https://web.archive.org/web/20130430140501/http://www.science.smith.edu/msi/pdf/i0076-3519-092-01-0001.pdf|archive-date=30 April 2013|df=dmy-all}}</ref> and ]s in Asia.<ref name=Asian /> The lions of ], Botswana, have adapted to hunting elephants, targeting calves, juveniles or even sub-adults.<ref>{{cite journal |author1=Power, R. J. |author2=Shem Compion, R. X. |s2cid=86371484 |year=2009 |title=Lion predation on elephants in the Savuti, Chobe National Park, Botswana |journal=] |volume=44 |issue=1 |pages=36–44 |doi=10.3377/004.044.0104}}</ref><ref>{{cite journal |last=Joubert |first=D. |year=2006 |title=Hunting behaviour of lions (''Panthera leo'') on elephants (''Loxodonta africana'') in the Chobe National Park, Botswana |journal= African Journal of Ecology |volume=44 |issue=2 |pages=279–281 |doi=10.1111/j.1365-2028.2006.00626.x|bibcode=2006AfJEc..44..279J }}</ref> There are rare reports of adult Asian elephants falling prey to tigers.<ref>{{cite news |year=2009 |url=http://www.newindianexpress.com/cities/kochi/article103095.ece |title=Tiger kills elephant at Eravikulam park |newspaper=] |access-date=21 June 2014 |archive-date=11 May 2016 |archive-url=https://web.archive.org/web/20160511041022/http://www.newindianexpress.com/cities/kochi/article103095.ece |url-status=dead }}</ref> Elephants tend to have high numbers of parasites, particularly ]s, compared to many other mammals. This may be due to elephants being less vulnerable to predation; in other mammal species, individuals weakened by significant ]s are easily killed off by predators, removing them from the population.<ref>Sukumar, p. 121.</ref>
Wallowing also aids the skin in regulating body temperatures. Elephants spend every day fighting an uphill battle to stay cool. They have a very difficult time releasing heat through the skin because, in proportion to their body size, they have very little of it. The ratio of an elephant's mass to the surface area of its skin is many times that of a human. Elephants have even been observed lifting up their legs to expose the soles of their feet, presumably in an effort to expose more skin to the air. Since wild elephants live in very hot climates, they must have other means of getting rid of excess heat.


====Legs and Feet==== ===Social organisation===
]
]
Elephants are generally ] animals. African bush elephants in particular have a complex, stratified social structure.<ref name="deSilva1"/> Female elephants spend their entire lives in tight-knit ] family groups.<ref name=Sukumar175/> {{Anchor|Matriarch}} They are led by the ], who is often the eldest female.<ref>Sukumar, p. 186.</ref> She remains leader of the group until death<ref name=African /> or if she no longer has the energy for the role;<ref name=Kingdon53>Kingdon, p. 53.</ref> a study on zoo elephants found that the death of the matriarch led to greater stress in the surviving elephants.<ref>{{cite web|author1=Harris, M.|author2=Sherwin, C.|author3=Harris, S.|url=http://randd.defra.gov.uk/Document.aspx?Document=WC05007_7719_FRP.pdf|title=Defra final report on elephant welfare|publisher=University of Bristol|year=2008|access-date=30 October 2012|archive-date=24 November 2014|archive-url=https://web.archive.org/web/20141124052942/http://randd.defra.gov.uk/Document.aspx?Document=WC05007_7719_FRP.pdf|url-status=live}}</ref> When her tenure is over, the matriarch's eldest daughter takes her place instead of her sister (if present).<ref name=African /> One study found that younger matriarchs take potential threats less seriously.<ref>{{cite journal |author1=McComb, K. |author2=Shannon, G. |author3=Durant, S. M. |author4=Sayialel, K. |author5=Slotow, R. |author6=Poole, J. |author7=Moss, C. |year=2011 |title=Leadership in elephants: the adaptive value of age |journal= Proceedings of the Royal Society B: Biological Sciences|volume=278 |issue=1722 |pages=3270–3276 |doi=10.1098/rspb.2011.0168 |url=http://www.lifesci.sussex.ac.uk/cmvcr/Publications_files/ElephantLeadersProofs.pdf |pmid=21411454 |pmc=3169024 |access-date=26 December 2012 |archive-date=29 April 2013 |archive-url=https://web.archive.org/web/20130429173959/http://www.lifesci.sussex.ac.uk/cmvcr/Publications_files/ElephantLeadersProofs.pdf |url-status=live }}</ref> Large family groups may split if they cannot be supported by local resources.<ref>{{cite book|author1=Vaughan, T. |author2=Ryan, J. |author3=Czaplewski, N. |year=2011|title=Mammalogy|publisher=Jones & Bartlett Learning|page=136|isbn=978-0763762995}}</ref>
An elephant's legs are great straight pillars, as they must be to support its bulk. The elephant needs less muscular power to stand because of its straight legs. For this reason an elephant can stand for very long periods of time without tiring. In fact, African elephants rarely lie down unless they are sick or wounded. However, Indian elephants lie down frequently. Elephants are the only mammals to have four knees, most others either have two knees and two elbows, though the knees are often found in the front legs, or they have four elbows, like cats or dogs.{{fact}}


At ], Kenya, female groups may consist of around ten members, including four adults and their dependent offspring. Here, a cow's life involves interaction with those outside her group. Two separate families may associate and bond with each other, forming what are known as bond groups. During the dry season, elephant families may aggregate into clans. These may number around nine groups, in which clans do not form strong bonds but defend their dry-season ranges against other clans. The Amboseli elephant population is further divided into the "central" and "peripheral" subpopulations.<ref name=Sukumar175>Sukumar, pp. 172, 175–79.</ref>
The feet of an elephant are nearly round. African elephants have three nails on each hind foot, and four on each front foot. Indian elephants have four nails on each hind foot and five on each front foot. Beneath the bones of the foot is a tough, gelatine-like material that acts as a cushion or shock absorber. Under the elephant's weight the foot swells, but it gets smaller when the weight is removed. An elephant can sink deep into mud, but can pull its legs out readily because its feet become smaller when they are lifted.


Female Asian elephants tend to have more fluid social associations.<ref name="deSilva1">{{cite journal |last1=de Silva |first1=S. |last2=Wittemyer |first2=G. |year=2012 |title=A comparison of social organization in Asian elephants and African savannah elephants |journal=International Journal of Primatology |volume= 33|issue= 5|pages= 1125–1141|doi=10.1007/s10764-011-9564-1 |s2cid=17209753 }}</ref> In Sri Lanka, there appear to be stable family units or "herds" and larger, looser "groups". They have been observed to have "nursing units" and "juvenile-care units". In southern India, elephant populations may contain family groups, bond groups, and possibly clans. Family groups tend to be small, with only one or two adult females and their offspring. A group containing more than two cows and their offspring is known as a "joint family". Malay elephant populations have even smaller family units and do not reach levels above a bond group. Groups of African forest elephants typically consist of one cow with one to three offspring. These groups appear to interact with each other, especially at forest clearings.<ref name=Sukumar175 />
An elephant is a good swimmer and climber, but it can neither trot, run, jump, nor gallop. It has only one gait, a sort of gliding shuffle, which it can step up to the speed of a human sprinter. There are few animals that can travel farther in a day than the elephant.


]
====Ears====
Adult males live separate lives. As he matures, a bull associates more with outside males or even other families. At Amboseli, young males may be away from their families 80% of the time by 14–15 years of age. When males permanently leave, they either live alone or with other males. The former is typical of bulls in dense forests. A ] exists among males, whether they are social or solitary. Dominance depends on age, size, and sexual condition.<ref name=Sukumar179 /> Male elephants can be quite sociable when not competing for mates and form vast and fluid social networks.<ref>{{cite journal|last1=Goldenberg|first1=S. Z.|last2=de Silva|first2=S.|last3=Rasmussen|first3=H. B.|last4=Douglas-Hamilton|first4=I.|last5=Wittemyer|first5=G.|year=2014|title=Controlling for behavioural state reveals social dynamics among male African elephants, ''Loxodonta africana''|journal=Animal Behaviour|volume=95|pages=111–119|doi=10.1016/j.anbehav.2014.07.002|s2cid=53152412 }}</ref><ref>{{cite journal|last1=LaDue|first1=C. A.|last2=Vandercone|first2=R. P. G.|last3=Kiso|first3=W. K.|last4=Freeman|first4=E. W.|year=2022|title=Social behavior and group formation in male Asian elephants (Elephas maximus): the effects of age and musth in wild and zoo-housed animals|journal=Animals|volume=12|issue=9|page=1215|doi=10.3390/ani12091215 |pmid=35565641 |pmc=9100748 |doi-access=free }}</ref> Older bulls act as the leaders of these groups.<ref>{{cite journal|last1=Allen|first1=C. R. B.|last2=Brent|first2=L. J. N.|last3=Motsentwa|first3=T|last4=Weiss|first4=M. N.|last5=Croft|first5=D. P.|year=2020|title=Importance of old bulls: leaders and followers in collective movements of all-male groups in African savannah elephants (''Loxodonta africana'')|journal=Scientific Reports|volume=10|issue=1|page=13996|doi=10.1038/s41598-020-70682-y|pmid=32883968 |pmc=7471917 |bibcode=2020NatSR..1013996A }}</ref> The presence of older males appears to subdue the aggression and "deviant" behaviour of younger ones.<ref>{{cite journal|author1=Slotow, R. |author2=van Dyk, G. |author3=Poole, J. |author4=Page, B. |author5=Klocke, A. |s2cid=136330 |year=2000|title=Older bull elephants control young males|journal=Nature|volume=408|issue=6811|pages=425–426|doi=10.1038/35044191|pmid=11100713|bibcode=2000Natur.408..425S}}</ref> The largest all-male groups can reach close to 150 individuals. Adult males and females come together to breed. Bulls will accompany family groups if a cow is in ].<ref name=Sukumar179>Sukumar, pp. 179–83.</ref>
] at ], ], ].]]
The large flapping ears of an elephant are also very important for temperature regulation. Elephant ears are made of a very thin layer of skin stretched over cartilage and a rich network of blood vessels. On hot days, elephants will flap their ears constantly, creating a slight breeze. This breeze cools the surface blood vessels, and then the cooler blood gets circulated to the rest of the animal's body. The hot blood entering the ears can be cooled as much as ten degrees Fahrenheit before returning to the body. Differences in the ear sizes of African and Asian elephants can be explained, in part, by their geographical distribution. Africans originated and stayed near the equator, where it is warmer. Therefore, they have bigger ears. Asians live farther north, in slightly cooler climates, and thus have smaller ears.


===Sexual behaviour===
The ears are also used in certain displays of aggression and during the males' mating period. If an elephant wants to intimidate a predator or rival, it will spread its ears out wide to make itself look more massive and imposing. During the breeding season, males give off an odor from a gland located behind their eyes. Joyce Poole, a well-known elephant researcher, has theorized that the males will fan their ears in an effort to help propel this "elephant cologne" great distances.
====Musth====
{{Main|Musth}}
]
Adult males enter a state of increased ] known as ]. In a population in southern India, males first enter musth at 15 years old, but it is not very intense until they are older than 25. At Amboseli, no bulls under 24 were found to be in musth, while half of those aged 25–35 and all those over 35 were. In some areas, there may be seasonal influences on the timing of musths. The main characteristic of a bull's musth is a fluid discharged from the ] that runs down the side of his face. Behaviours associated with musth include walking with a high and swinging head, nonsynchronous ear flapping, picking at the ground with the tusks, marking, rumbling, and urinating in the ]. The length of this varies between males of different ages and conditions, lasting from days to months.<ref name=Sukumar100 />


Males become extremely aggressive during musth. Size is the determining factor in ] encounters when the individuals have the same condition. In contests between musth and non-musth individuals, musth bulls win the majority of the time, even when the non-musth bull is larger. A male may stop showing signs of musth when he encounters a musth male of higher rank. Those of equal rank tend to avoid each other. Agonistic encounters typically consist of threat displays, chases, and minor sparring. Rarely do they full-on fight.<ref name=Sukumar100>Sukumar, pp. 100–08.</ref>
Walking at a normal pace an elephant covers about 2 to 4 miles an hour (3 to 6 km/h) but they can reach 24 miles an hour (40 km/h) at full speed.


There is at least one documented case of ] among Asian elephants at Dong Yai Wildlife Sanctuary, with the researchers describing it as most likely normal behaviour among aggressive musth elephants.<ref>{{cite journal |last1=Wanghongsa |first1=Sawai |last2=Boonkird |first2=Kalyanee |title=On the incident of infanticide in wild elephants |journal=Wildlife Yearbook |date=2006 |volume=7 |pages=111–119}}</ref>
===Evolution===
Although the fossil evidence is uncertain, some scientists believe there is genetic evidence that the elephant family shares distant ancestry with the ]ns (sea cows) and the ]es. In the distant past, members of the hyrax family grew to large sizes, and it seems likely that the common ancestor of all three modern families was some kind of amphibious hyracoid. One theory suggests that these animals spent most of their time under water, using their trunks like ]s for breathing. Modern elephants have retained this ability and are known to swim in that manner for up to 6 hours and 50 km.


====Mating====
In the past, there was a much wider variety of elephant genera, including the ]s, ]s and ]. There was also a much wider variety of species.<ref>Todd, N. E. 2001. African Elephas recki: Time, space and taxonomy. In: Cavarretta, G., P. Gioia, M. Mussi, and M. R. Palombo. The World of Elephants, Proceedings of the 1st International Congress. Consiglio Nazionale delle Ricerche. Rome, Italy. </ref><ref>Todd, N. E. 2005. Reanalysis of African Elephas recki: implications for time, space and taxonomy. Quaternary International 126-128:65-72.</ref>
]
Elephants are ] breeders,<ref>Sukumar, p. 89.</ref> and most ] occur during rainfall.<ref name="Sukumar, p. 262">Sukumar, p. 262.</ref> An oestrous cow uses ]s in her urine and vaginal secretions to signal her readiness to mate. A bull will follow a potential mate and assess her condition with the ], which requires him to collect a chemical sample with his trunk and taste it with the ] at the roof of the mouth.<ref>Sukumar, pp. 98–99.</ref> The oestrous cycle of a cow lasts 14–16 weeks, with the ] lasting four to six weeks and the ] lasting eight to ten weeks. While most mammals have one surge of ] during the follicular phase, elephants have two. The first (or anovulatory) surge, appears to change the female's scent, signaling to males that she is in heat, but ] does not occur until the second (or ovulatory) surge.<ref>{{cite web|title=Elephant Reproduction Project: The Estrous Cycle of Elephants|publisher=Smithsonian National Zoo|access-date=8 October 2012|url=http://nationalzoo.si.edu/scbi/ReproductiveScience/ElephantBreedRepro/EstrousCycle.cfm|url-status=dead|archive-url=https://web.archive.org/web/20120606110832/http://nationalzoo.si.edu/SCBI/ReproductiveScience/ElephantBreedRepro/EstrousCycle.cfm|archive-date=6 June 2012|df=dmy-all}}</ref> Cows over 45–50 years of age are less fertile.<ref name=Kingdon53 />


Bulls engage in a behaviour known as mate-guarding, where they follow oestrous females and defend them from other males.<ref>{{cite journal | author = Poole Joyce H | s2cid = 53150105 | year = 1989 | title = Mate guarding, reproductive success and female choice in African elephants | url = https://www.researchgate.net/publication/222028670 | format = PDF | journal = Animal Behaviour | volume = 37 | pages = 842–849 | doi = 10.1016/0003-3472(89)90068-7 | access-date = 24 October 2018 | archive-date = 24 October 2018 | archive-url = https://web.archive.org/web/20181024231940/https://www.researchgate.net/publication/222028670 | url-status = live }}</ref> Most mate-guarding is done by musth males, and females seek them out, particularly older ones.<ref>Sukumar, p. 113.</ref> Musth appears to signal to females the condition of the male, as weak or injured males do not have normal musths.<ref>Sukumar, p. 117.</ref> For young females, the approach of an older bull can be intimidating, so her relatives stay nearby for comfort.<ref name=Shoshani106 /> During copulation, the male rests his trunk on the female.<ref>Kingdon, p. 69.</ref> The penis is mobile enough to move without the pelvis.<ref name="FowlerMikota2006">{{cite book|author1=Murray E. Fowler|author2=Susan K. Mikota|title=Biology, Medicine, and Surgery of Elephants|url=https://books.google.com/books?id=oCpiZA61tyQC|year=2006|publisher=John Wiley & Sons|isbn=978-0-8138-0676-1|page=353|access-date=17 October 2020|archive-date=21 March 2023|archive-url=https://web.archive.org/web/20230321084756/https://books.google.com/books?id=oCpiZA61tyQC&q=elephant+penis+mating&pg=PA353|url-status=live}}</ref> Before mounting, it curves forward and upward. Copulation lasts about 45 seconds and does not involve ]ing or an ejaculatory pause.<ref name=Estes>{{cite book|author=Estes, R.|title=The behavior guide to African mammals: including hoofed mammals, carnivores, primates|url=https://archive.org/details/isbn_0520080858|url-access=registration|pages=|year=1991|publisher=University of California Press|isbn=978-0-520-08085-0}}</ref>
===Diet===
]
Elephants are ]s, spending 16 hours a day collecting plant food. Their diet is at least 50% grasses, supplemented with leaves, bamboo, twigs, bark, roots, and small amounts of fruits, seeds and flowers. Because elephants only digest 40% of what they eat, they have to make up for their digestive system's lack of efficiency in volume. An adult elephant can consume 300–600 lb (140–270 kg) of food a day. 60% of that food leaves the elephant's body undigested.


] has been observed in both sexes. As in heterosexual interactions, this involves mounting. Male elephants sometimes stimulate each other by playfighting, and "championships" may form between old bulls and younger males. Female same-sex behaviours have been documented only in captivity, where they engage in ] with their trunks.<ref>{{cite book|author=Bagemihl, B.|year=1999|title=Biological Exuberance: Animal Homosexuality and Natural Diversity|url=https://archive.org/details/biologicalexuber00bage|url-access=registration|publisher=St. Martin's Press|pages=|isbn=978-1-4668-0927-7}}</ref>
===Social behavior===
Elephants live in a very structured social order. The social lives of male and female elephants are very different. The females spend their entire lives in tightly knit family groups made up of mothers, daughters, sisters, and aunts. These groups are led by the eldest female, or matriarch. Adult males, on the other hand, live mostly solitary lives.


===Birth and development===
The social circle of the female elephant does not end with the small family unit. In addition to encountering the local males that live on the fringes of one or more groups, the female's life also involves interaction with other families, clans, and subpopulations. Most immediate family groups range from five to fifteen adults, as well as a number of immature males and females. When a group gets too big, a few of the elder daughters will break off and form their own small group. They remain very aware of which local herds are relatives and which are not.
{{multiple images
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|image1=African elephant, Dzanga Sangha, Central African Republic (18322370163).jpg|caption1=An African forest elephant mother with her calf
|image2=L'éléphanteau têtant sa mère.JPG|caption2=Asian elephant calf suckling}}
] in elephants typically lasts between one and a half and two years and the female will not give birth again for at least four years.<ref>Sukumar, pp. 259–60.</ref> The relatively long pregnancy is supported by several ]s and gives the foetus more time to develop, particularly the brain and trunk.<ref name="pregnancy">{{cite journal|author1=Lueders, I.|author2=Niemuller, C. |author3=Rich, P. |author4=Gray, C. |author5=Hermes, R. |author6=Goeritz, F. |author7=Hildebrandt, T. B. |year=2012|title=Gestating for 22 months: luteal development and pregnancy maintenance in elephants|journal= Proceedings of the Royal Society B: Biological Sciences|volume=279|issue=1743|pages=3687–3696|pmid=22719030|doi=10.1098/rspb.2012.1038|pmc= 3415912}}</ref> Births tend to take place during the wet season.<ref name="Sukumar, p. 262"/> Typically, only a single young is born, but twins sometimes occur.<ref name="pregnancy"/> Calves are born roughly {{convert|85|cm|in|abbr=on}} tall and with a weight of around {{convert|120|kg|lb|abbr=on}}.<ref name=Shoshani106>Moss, pp. 106–13.</ref> They are ] and quickly stand and walk to follow their mother and family herd.<ref name=Sukumar126 /> A newborn calf will attract the attention of all the herd members. Adults and most of the other young will gather around the newborn, touching and caressing it with their trunks. For the first few days, the mother limits access to her young. ] – where a calf is cared for by someone other than its mother – takes place in some family groups. Allomothers are typically aged two to twelve years.<ref name=Shoshani106 />


For the first few days, the newborn is unsteady on its feet and needs its mother's help. It relies on touch, smell, and hearing, as its eyesight is less developed. With little coordination in its trunk, it can only flop it around which may cause it to trip. When it reaches its second week, the calf can walk with more balance and has more control over its trunk. After its first month, the trunk can grab and hold objects but still lacks sucking abilities, and the calf must bend down to drink. It continues to stay near its mother as it is still reliant on her. For its first three months, a calf relies entirely on its mother's milk, after which it begins to forage for vegetation and can use its trunk to collect water. At the same time, there is progress in lip and leg movements. By nine months, mouth, trunk, and foot coordination are mastered. Suckling bouts tend to last 2–4 min/hr for a calf younger than a year. After a year, a calf is fully capable of grooming, drinking, and feeding itself. It still needs its mother's milk and protection until it is at least two years old. Suckling after two years may improve growth, health, and fertility.<ref name=Sukumar126>Sukumar, pp. 126–29.</ref>
The life of the adult male is very different. As he gets older, he begins to spend more time at the edge of the herd, gradually going off on his own for hours or days at a time. Eventually, days become weeks, and somewhere around the age of fourteen, the mature male, or bull, sets out from his natal group for good. While males do live primarily solitary lives, they will occasionally form loose associations with other males. These groups are called bachelor herds. The males spend much more time than the females fighting for dominance with each other. Only the most dominant males will be permitted to breed with cycling females. The less dominant ones must wait their turn. It is usually the older bulls, forty to fifty years old, that do most of the breeding. The dominance battles between males can look very fierce, but typically they inflict very little injury. Most of the bouts are in the form of aggressive displays and bluffs. Ordinarily, the smaller, younger, and less confident animal will back off before any real damage can be done. However, during the breeding season, the battles can get extremely aggressive, and the occasional elephant is injured. During this season, known as ], a bull will fight with almost any other male it encounters, and it will spend most of its time hovering around the female herds, trying to find a receptive mate.


Play behaviour in calves differs between the sexes; females run or chase each other while males play-fight. The former are ] by the age of nine years<ref name=Shoshani106 /> while the latter become mature around 14–15 years.<ref name=Sukumar179 /> Adulthood starts at about 18 years of age in both sexes.<ref>{{cite web|title=Elephant Life Cycle|publisher=ElephantsForever.co.za|url=http://www.elephantsforever.co.za/life-cycle.html|access-date=21 June 2014|archive-date=29 September 2014|archive-url=https://web.archive.org/web/20140929112616/http://www.elephantsforever.co.za/life-cycle.html|url-status=live}}</ref><ref>{{cite web|title=Elephant Life Cycle – Adolescence|publisher=ElephantsForever.co.za|url=http://www.elephantsforever.co.za/life-cycle-adolescence.html|access-date=21 June 2014|archive-date=30 May 2014|archive-url=https://web.archive.org/web/20140530064627/http://www.elephantsforever.co.za/life-cycle-adolescence.html|url-status=live}}</ref> Elephants have long lifespans, reaching 60–70 years of age.<ref name=Shoshani70 /> ], a captive male Asian elephant, lived for 86 years.<ref>{{cite news|title=War veteran elephant dies|work=BBC News|date=26 February 2003|url=http://news.bbc.co.uk/2/hi/asia-pacific/2800737.stm|access-date=8 January 2013|archive-date=12 November 2012|archive-url=https://web.archive.org/web/20121112161638/http://news.bbc.co.uk/2/hi/asia-pacific/2800737.stm|url-status=live}}</ref>
===Self-awareness===
From a study reported in Proceedings of the National Academy of Sciences, an Asian elephant housed at the Bronx Zoo in New York, repeatedly touched a white cross painted above its eye, when it saw this mark reflected in a large ]. Another mark made on the forehead in colourless paint, was ignored, showing that it was not the smell or feeling which caused the interest. Elephants are among the very small number of species such as the ]s and ]s capable of self-recognition.<ref>{{cite news | author = | title = Elephants' jumbo mirror ability | url = http://news.bbc.co.uk/2/hi/science/nature/6100430.stm | publisher = ] | date = ] | accessdate = 2006-10-31}}</ref><ref>J. M. Plotnik, F. B. M. de Waal & D. Reiss, Self-recognition in an Asian elephant, Proceedings of the National Academy of Sciences, November 7 2006, vol. 103, issue 45, page 17053–17057</ref>

===Homosexuality===
African, as well as Asiatic males will engage in same-sex bonding and mounting. Such encounters are often associated with affectionate interactions such as kissing, trunk intertwining or placing trunks in each other's mouth. The encounters are analogous to heterosexual bouts, one male often extending his trunk along the other's back and pushing forward with his tusks to signify his intention to mount. Unlike heterosexual relations, which are always of a fleeting nature, often males will form a "companionship" consisting of an older individual and one or two younger attendant males. Same sex relations are common and frequent in both sexes, with Asiatic elephants in captivity devoting roughly 45% of sexual encounters to same-sex activity.<ref>Bruce Bagemihl, Biological Exuberance: Animal Homosexuality and Natural Diversity, St. Martin's Press, 1999; pp.427-430</ref>


===Communication=== ===Communication===
<!-- Please do not add any more examples to this section. This subject already has its own article -->
It has been discovered that elephants can communicate over long distances by producing and receiving low frequency infrasound, a sub-sonic rumbling which can travel through the ground farther than sound travels in the air. This can be felt by the sensitive skin of an elephant's feet and trunk, which pick up the resonant vibrations in much the same way as the flat skin on the head of a drum. To listen attentively, the whole herd will lift one foreleg from the ground, and face the source of the sound, or often lay their trunks on the ground - the lifting presumably increases the ground contact and sensitivity of the remaining legs. This ability is thought to also aid their navigation by utilizing external sources of infrasound. Discovery of this new aspect of elephant social communication and perception is due to breakthroughs in audio technology, which can pick up frequencies outside the range of the human ear. Pioneering research in elephant infrasound communication was done by of the Elephant Listening Project,<ref></ref> and is detailed in her book ''Silent Thunder''. Though this research is still in its infancy, it is helping to solve many prior mysteries such as how elephants can find distant potential mates, and how social groups are able to coordinate their movements over an extensive territory range.
{{main article|Elephant communication}}
{{multiple images
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|image1=Three elephant's curly kisses.jpg|caption1=Asian elephants greeting each other by inter-twining their trunks
|image2=Loxodonta africana oral rumble visualized with acoustic camera (25fps) - pone.0048907.s003.ogv|caption2=Low frequency rumble visualised with acoustic camera}}
Elephants communicate in various ways. Individuals greet one another by touching each other on the mouth, temporal glands, and genitals. This allows them to pick up chemical cues. Older elephants use trunk-slaps, kicks, and shoves to control younger ones. Touching is especially important for mother–calf communication. When moving, elephant mothers will touch their calves with their trunks or feet when side-by-side or with their tails if the calf is behind them. A calf will press against its mother's front legs to signal it wants to rest and will touch her breast or leg when it wants to suckle.<ref>Payne and Langbauer, p. 116.</ref>


Visual displays mostly occur in agonistic situations. Elephants will try to appear more threatening by raising their heads and spreading their ears. They may add to the display by shaking their heads and snapping their ears, as well as tossing around dust and vegetation. They are usually bluffing when performing these actions. Excited elephants also raise their heads and spread their ears but additionally may raise their trunks. Submissive elephants will lower their heads and trunks, as well as flatten their ears against their necks, while those that are ready to fight will bend their ears in a V shape.<ref>Payne and Langbauer, pp. 119–20.</ref>
===Reproduction, calves, and calf rearing===
====Reproduction====
Females (cows) reach sexual maturity at around 9-12 years of age and become pregnant for the first time, on average, around age 13. They can reproduce until ages 55-60. Females give birth at intervals of about every 5 years. An elephant's ] (pregnancy) period lasts about 22 months (630-660 days), the longest gestation period of any mammal, after which one calf typically is born. Twins are rare. Labor ranges in length from 5 minutes to 60 hours. The average length of labor is 11 hours. At birth, calves weigh around 90–115 kg (200–250 lb), and they gain 1 kg (2–2.5 lb) a day. In the wild, the mother is accompanied by other adult females (aunts) that protect the young, and baby elephants are raised and nurtured by the whole family group, practically from the moment they are born.


Elephants produce several vocalisations—some of which pass though the trunk<ref name=Shoshani120>Payne and Langbauer, pp. 120–21.</ref>—for both short and long range communication. This includes trumpeting, ], ], ], ], snorting, and ].<ref name=Shoshani120/><ref>Sukumar, p. 141.</ref> Elephants can produce ] rumbles.<ref name="infrasonic">{{cite journal| author1= Herbest, C. T.| author2 = Stoeger, A.| author3 = Frey, R.| author4 = Lohscheller, J.| author5 = Titze, I. R.| author6 = Gumpenberger, M.| author7 = Fitch, W. T.|s2cid=32792564|year=2012|title=How Low Can You Go? Physical Production Mechanism of Elephant Infrasonic Vocalizations|journal= Science|volume=337|issue=6094|pages=595–599|doi=10.1126/science.1219712|pmid=22859490|bibcode=2012Sci...337..595H}}</ref> For Asian elephants, these calls have a frequency of 14–24&nbsp;], with ] levels of 85–90&nbsp;] and last 10–15 seconds.<ref name="Payne">{{cite journal|author1=Payne, K. B. |author2=Langbauer, W. R. |author3=Thomas, E. M. |s2cid=1480496 |year=1986|title=Infrasonic calls of the Asian elephant (''Elephas maximus'')|journal=Behavioral Ecology and Sociobiology|volume=18|issue=4|pages=297–301|doi=10.1007/BF00300007|bibcode=1986BEcoS..18..297P }}</ref> For African elephants, calls range from 15 to 35&nbsp;Hz with sound pressure levels as high as 117&nbsp;dB, allowing communication for many kilometres, possibly over {{convert|10|km|0|abbr=on}}.<ref name="Larom">{{cite journal|author1=Larom, D.|author2=Garstang, M. |author3=Payne, K. |author4=Raspet, R. |author5=Lindeque, M. |year=1997|title=The influence of surface atmospheric conditions on the range and area reached by animal vocalizations|journal=Journal of Experimental Biology|volume=200|pages=421–431|pmid=9057305|url=http://jeb.biologists.org/cgi/reprint/200/3/421.pdf|issue=Pt 3|doi=10.1242/jeb.200.3.421 }}</ref> Elephants are known to ], vibrations produced by impacts on the earth's surface or acoustical waves that travel through it. An individual foot stomping or mock charging can create seismic signals that can be heard at travel distances of up to {{convert|32|km|mi|abbr=on}}. Seismic waveforms produced by rumbles travel {{convert|16|km|mi|0|abbr=on}}.<ref>{{cite journal|author1=O'Connell-Rodwell, C. E.|author2=Wood, J. D. |author3=Rodwell, T. C. |author4=Puria, S. |author5=Partan, S. R. |author6=Keefe, R. |author7=Shriver, D. |author8=Arnason, B. T. |author9=Hart, L. A. |s2cid=33221888 |year=2006 |title=Wild elephant (''Loxodonta africana'') breeding herds respond to artificially transmitted seismic stimuli |journal=Behavioural and Ecological Sociobiology |volume=59 |pages=842–850 |doi=10.1007/s00265-005-0136-2 |url=http://www.sscnet.ucla.edu/anthro/bec/papers/OConnellRodwell_4.16.07.pdf |issue=6 |bibcode=2006BEcoS..59..842O |url-status=dead |archive-url=https://web.archive.org/web/20131203071054/http://www.sscnet.ucla.edu/anthro/bec/papers/OConnellRodwell_4.16.07.pdf |archive-date=3 December 2013 }}</ref><ref>{{cite journal|author1=O'Connell-Rodwell C. E. |author2=Arnason, B. |author3=Hart, L. A. |year=2000|title=Seismic properties of Asian elephant (''Elephas maximus'') vocalizations and locomotion|journal=Journal of the Acoustical Society of America|volume=108|issue=6|pages=3066–3072|pmid=11144599|doi=10.1121/1.1323460|bibcode=2000ASAJ..108.3066O}}</ref>
====Motherhood and calf rearing====
*The first sound a newborn calf usually makes is a sneezing or snorting sound to clear its ]s of ]s. (In the first few minutes after a captive birth, the keepers must monitor the calf closely for the first sound or movement. Whichever happens first, the mother typically responds to her new baby with surprise and excitement.)
*With the help of its mother, a newborn calf usually struggles to its feet within 30 minutes of birth. For support, it will often lean on its mother's legs.
*A newborn calf usually stands within one hour and is strong enough to follow its mother in a slow-moving herd within a few days.
*Unlike most mammals, female elephants have a single pair of ] located just behind the front legs. When born, a calf is about 3 ft (90 cm) high, just tall enough to reach its mother's nipples.
*A calf suckles with its mouth, not its trunk, which has no ]. To clear the way to its mouth so it can suckle, the calf will flop its trunk onto its forehead.
*A newborn calf suckles for only a few minutes at a time but will suckle many times per day, consuming up to 11 litres (3 gallons) of milk in a single day.
*A calf may nurse for up to 2 years of age or older. Complete ] depends on the disposition of the mother, the amount of available milk, and the arrival of another calf.
*Newborn calves learn primarily by observing adults, not from ]. For example, a calf learns how to use its trunk by watching older elephants using their trunks.
*It takes several months for a calf to control the use of its trunk. This can be observed as the calf trips over its trunk or as the trunk wiggles like a rubbery object when the calf shakes its head.


====Elephant calves==== ===Intelligence and cognition===
<!-- Please do not add any more examples to this section. This subject already has its own article -->
Elephant social life, in many ways, revolves around breeding and raising of the calves. A female will usually be ready to breed around the age of thirteen, at which time she will seek out the most ''attractive'' male to mate with. Females are generally attracted to bigger, stronger, and, most importantly, older males. Such a reproductive strategy tends to increase their offsprings' chances of survival.
{{Main|Elephant cognition}}
]
Elephants are among the most intelligent animals. They exhibit ], an indication of ] and ] that has also been demonstrated in some ]s and ]s.<ref>{{cite journal|author1=Plotnik, J. M. |author2=de Waal, F. B. M. |author3=Reiss, D. |name-list-style=amp |year=2006|title=Self-recognition in an Asian elephant|journal=Proceedings of the National Academy of Sciences|volume=103|issue=45|pages=17053–17057|doi=10.1073/pnas.0608062103|pmid=17075063 |bibcode = 2006PNAS..10317053P |pmc=1636577|doi-access=free }}</ref> One study of a captive female Asian elephant suggested the animal was capable of learning and distinguishing between several visual and some acoustic discrimination pairs. This individual was even able to score a high accuracy rating when re-tested with the same visual pairs a year later.<ref>{{cite journal|author=Rensch, B.|year=1957|title=The intelligence of elephants|journal=Scientific American|volume=196|issue=2|pages=44–49|doi=10.1038/scientificamerican0257-44|bibcode=1957SciAm.196b..44R}}</ref> Elephants are among the ]. An Asian elephant has been observed fine-tuning branches for use as ].<ref>{{cite journal|author1=Hart, B. J. |author2=Hart, L. A. |author3=McCory, M. |author4=Sarath, C. R. |s2cid=53184282 |year=2001|title=Cognitive behaviour in Asian elephants: use and modification of branches for fly switching|journal=Animal Behaviour|volume=62|issue=5|pages=839–847|doi=10.1006/anbe.2001.1815}}</ref> Tool modification by these animals is not as advanced as that of ]s. Elephants are popularly thought of as having an excellent memory. This could have a factual basis; they possibly have ]s which give them long lasting memories of their environment on a wide scale. Individuals may be able to remember where their family members are located.<ref name="cognition">{{cite journal|author1=Byrne, R. W.|author2=Bates, L.|author3=Moss C. J.|year=2009|title=Elephant cognition in primate perspective|journal= Comparative Cognition & Behavior Reviews|volume=4|pages=65–79|doi=10.3819/ccbr.2009.40009|df=dmy-all|doi-access=free|hdl=10023/1612|hdl-access=free}}</ref>


Scientists debate the extent to which elephants feel ]. They are attracted to the bones of their own kind, regardless of whether they are related.<ref>{{cite journal|author1=McComb, K. |author2=Baker, L. |author3=Moss, C. |year=2006|title=African elephants show high levels of interest in the skulls and ivory of their own species|journal= Biology Letters|volume=2|issue=1|pages=26–28|doi=10.1098/rsbl.2005.0400|pmid=17148317|pmc=1617198}}</ref> As with chimpanzees and dolphins, a dying or dead elephant may elicit attention and aid from others, including those from other groups. This has been interpreted as expressing "concern";<ref>{{cite journal|author1=Douglas-Hamilton, I.|author2=Bhallaa, S.|author3=Wittemyera, G.|author4=Vollratha, F.|year=2006|title=Behavioural reactions of elephants towards a dying and deceased matriarch|journal=Applied Animal Behaviour Science|volume=100|issue=1|pages=87–102|doi=10.1016/j.applanim.2006.04.014|url=http://www.savetheelephants.org/files/pdf/publications/2006%20Douglas-Hamilton%20et%20al%20Behavioural%20reactions%20of%20elephants%20to%20a%20dying%20matriarch.pdf|url-status=dead|archive-url=https://web.archive.org/web/20120511045326/http://www.savetheelephants.org/files/pdf/publications/2006%20Douglas-Hamilton%20et%20al%20Behavioural%20reactions%20of%20elephants%20to%20a%20dying%20matriarch.pdf|archive-date=11 May 2012|df=dmy-all}}</ref> however, the ''Oxford Companion to Animal Behaviour'' (1987) said that "one is well advised to study the behaviour rather than attempting to get at any underlying emotion".<ref>{{cite book |title= When Elephants Weep: Emotional Lives of Animals|last= Masson|first= Jeffrey Moussaieff|author-link= Jeffrey Moussaieff Masson|author2=Susan McCarthy |year= 1996|publisher= Vintage|isbn= 978-0-09-947891-1 |page= 272}}</ref>
After a twenty-two-month pregnancy, the mother will give birth to a calf that will weigh about 250 lb and stand over 2½ feet tall. Elephants have a very long childhood. They are born with fewer survival instincts than many other animals. Instead, they must rely on their elders to teach them the things they need to know. The ability to pass on information and knowledge to their young has always been a major asset in the elephant's struggle to survive. Today, however, the pressures humans have put on the wild elephant populations, from poaching to habitat destruction, mean that the elderly often die at a younger age, leaving fewer teachers for the young.


==Conservation==
All members of the tightly knit female group participate in the care and protection of the young. Since everyone in the herd is related, there is never a shortage of baby-sitters. In fact, a new calf is usually the center of attention for all herd members. All the adults and most of the other young will gather around the newborn, touching and caressing it with their trunks. The baby is born nearly blind and at first relies, almost completely, on its trunk to discover the world around it.
===Status===
{{see also|List of elephant species by population}}
] wetlands. This species is considered to be critically endangered.]]
African bush elephants were listed as ] by the ] (IUCN) in 2021,<ref name="IUCN">{{cite iucn |title=''Loxodonta africana.'' |author1=Gobush, K. S. |author2=Edwards, C. T. T. |author3=Maisels, F. |author4=Wittemeyer, G. |author5=Balfour, D. |author6=Taylor, R. D. |date=2021 |page=e.T181008073A181022663 |access-date=25 March 2021 |url=https://www.iucnredlist.org/species/181008073/181022663}}</ref> and African forest elephants were listed as ] in the same year.<ref>{{cite iucn |title=''Loxodonta cyclotis'' |author1=Gobush, K. S. |author2=Edwards, C. T. T. |author3=Maisels, F. |author4=Wittemeyer, G. |author5=Balfour, D. |author6=Taylor, R. D. |name-list-style=amp |date=2021 |page=e.T181007989A181019888 |access-date=25 March 2021}}</ref> In 1979, Africa had an estimated population of at least 1.3&nbsp;million elephants, possibly as high as 3.0&nbsp;million. A decade later, the population was estimated to be 609,000; with 277,000 in Central Africa, 110,000 in Eastern Africa, 204,000 in Southern Africa, and 19,000 in Western Africa. The population of rainforest elephants was lower than anticipated, at around 214,000 individuals. Between 1977 and 1989, elephant populations declined by 74% in East Africa. After 1987, losses in elephant numbers hastened, and savannah populations from Cameroon to Somalia experienced a decline of 80%. African forest elephants had a total loss of 43%. Population trends in southern Africa were various, with unconfirmed losses in Zambia, Mozambique and Angola while populations grew in Botswana and Zimbabwe and were stable in South Africa.<ref>Douglas-Hamilton, pp. 178–82.</ref> The IUCN estimated that total population in Africa is estimated at to 415,000 individuals for both species combined as of 2016.<ref>{{cite web|author1=Thouless, C. R.|author2= Dublin, H. T.|author3= Blanc, J. J.|author4= Skinner, D. P.|author5= Daniel, T. E.|author6= Taylor, R. D.|author7= Maisels, F.|author8= Frederick, H. L.|author9= Bouché, P.|year=2016|title=African Elephant Status Report 2016|publisher=IUCN African Elephant Database|access-date=2021-06-05|url=https://portals.iucn.org/library/sites/library/files/documents/SSC-OP-060_A.pdf|archive-date=27 June 2021|archive-url=https://web.archive.org/web/20210627110047/https://portals.iucn.org/library/sites/library/files/documents/SSC-OP-060_A.pdf|url-status=live}}</ref>


African elephants receive at least some legal protection in every country where they are found. Successful conservation efforts in certain areas have led to high population densities while failures have led to declines as high as 70% or more of the course of ten years. As of 2008, local numbers were controlled by contraception or ]. Large-scale ]s stopped in the late 1980s and early 1990s. In 1989, the African elephant was listed under Appendix I by the ] (CITES), making trade illegal. Appendix II status (which allows restricted trade) was given to elephants in Botswana, Namibia, and Zimbabwe in 1997 and South Africa in 2000. In some countries, ] of the animals is legal; Botswana, Cameroon, Gabon, Mozambique, Namibia, South Africa, Tanzania, Zambia, and Zimbabwe have CITES export quotas for elephant trophies.<ref name=IUCN />
====Allomothers====
After the initial excitement dies down, the mother will usually select several full-time baby-sitters, or "allomothers", from her group. According to Cynthia Moss, a well-known researcher, these allomothers will help in all aspects of raising the calf.{{cn}} They walk with the young as the herd travels, helping the calves along if they fall or get stuck in the mud. The more allomothers a baby has, the more free time its mother has to feed herself. Providing a calf with nutritious milk means the mother has to eat more nutritious food herself. So, the more allomothers, the better the calf's chances of survival.


In 2020, the IUCN listed the Asian elephant as ] due to the population declining by half over "the last three generations".<ref name="IUCN2">{{cite iucn |author1=Williams, C. |display-authors=etal |year=2020 |url=https://www.iucnredlist.org/species/7140/45818198 |title=''Elephas maximus'' |access-date=2020-06-03}}</ref> Asian elephants once ranged from ] to ] and south to ].<ref name=Shoshani174>Daniel, p. 174.</ref> and Java. It is now extinct in these areas,<ref name=IUCN2 /> and the current range of Asian elephants is highly fragmented.<ref name=Shoshani174 /> The total population of Asian elephants is estimated to be around 40,000–50,000, although this may be a loose estimate. Around 60% of the population is in India. Although Asian elephants are declining in numbers overall, particularly in Southeast Asia, the population in the ] may have stabilised.<ref name=IUCN2 />
==Effect on the environment==
Elephants' foraging activities help to maintain the areas in which they live:
*By pulling down trees to eat leaves, breaking branches, and pulling out roots they create clearings in which new young trees and other vegetation grow to provide future nutrition for elephants and other organisms.
*Elephants make pathways through the environment that are used by other animals to access areas normally out of reach. The pathways have been used by several generations of elephants, and today people are converting many of them to paved roads.
*During the dry season elephants use their tusks to dig into ] to reach underground sources of water. These newly dug water holes may become the only source of ] in the area.
*Elephants are a species which many other organisms depend on. For example, ] eat elephant feces and often begin building termite mounds under piles of elephant feces.


===Threats===
==Threat of extinction==
{{See also|Elephant ivory|Elephant meat}}
===Hunting===
], Tanzania, {{Circa|1900}}]]
The threat to the African elephant presented by the ivory trade is unique to the species. Larger, long-lived, slow-breeding animals, like the elephant, are more susceptible to overhunting than other animals. They cannot hide, and it takes many years for an elephant to grow and reproduce. An elephant needs an average of 300 lb (140 kg) of vegetation a day to survive. As large predators are hunted, the local small grazer populations (the elephant's food competitors) find themselves on the rise. The increased number of herbivores ravage the local trees, shrubs, and grasses. Elephants themselves have few natural predators besides man and, occasionally, lions.
The ] of elephants for their ivory, meat and hides has been one of the major threats to their existence.<ref name=IUCN2 /> Historically, numerous cultures made ornaments and other works of art from elephant ivory, and its use was comparable to that of gold.<ref name=Shoshani202>Martin, pp. 202–07</ref> The ivory trade contributed to the fall of the African elephant population in the late 20th century.<ref name=IUCN /> This prompted international bans on ivory imports, starting with the United States in June 1989, and followed by bans in other North American countries, western European countries, and Japan.<ref name=Shoshani202 /> Around the same time, Kenya destroyed all its ivory stocks.<ref name="ivory">{{cite magazine|author=Christy, B.|date=October 2012|title=Ivory Worship|magazine=National Geographic|url=http://ngm.nationalgeographic.com/2012/10/ivory/christy-text|access-date=17 October 2012|archive-date=26 September 2015|archive-url=https://web.archive.org/web/20150926142015/http://ngm.nationalgeographic.com/2012/10/ivory/christy-text|url-status=dead}}</ref> Ivory was banned internationally by CITES in 1990. Following the bans, unemployment rose in India and China, where the ivory industry was important economically. By contrast, Japan and Hong Kong, which were also part of the industry, were able to adapt and were not as badly affected.<ref name=Shoshani202 /> Zimbabwe, Botswana, Namibia, Zambia, and Malawi wanted to continue the ivory trade and were allowed to, since their local populations were healthy, but only if their supplies were from culled individuals or those that died of natural causes.<ref name=ivory />


The ban allowed the elephant to recover in parts of Africa.<ref name=Shoshani202 /> In February 2012, 650 elephants in ], Cameroon, were slaughtered by Chadian raiders.<ref>{{Cite news|last1=Hicks|first1=Celeste|title=86 elephants killed in Chad poaching massacre|url=https://www.theguardian.com/environment/2013/mar/19/86-elephants-chad-poaching-massacre|newspaper=The Guardian|access-date=23 September 2015|date=19 March 2013|archive-date=25 September 2015|archive-url=https://web.archive.org/web/20150925125357/http://www.theguardian.com/environment/2013/mar/19/86-elephants-chad-poaching-massacre|url-status=live}}</ref> This has been called "one of the worst concentrated killings" since the ivory ban.<ref name="ivory" /> Asian elephants are potentially less vulnerable to the ivory trade, as females usually lack tusks. Still, members of the species have been killed for their ivory in some areas, such as ] in India.<ref name=IUCN2 /> China was the biggest market for poached ivory but announced they would phase out the legal domestic manufacture and sale of ivory products in May 2015, and in September 2015, China and the United States said "they would enact a nearly complete ban on the import and export of ivory" due to causes of extinction.<ref>{{Cite news|author=Ryan, F.|url=https://www.theguardian.com/environment/2015/sep/26/china-and-us-agree-on-ivory-ban-in-bid-to-end-illegal-trade-globally|title=China and US agree on ivory ban in bid to end illegal trade globally|date=26 September 2015|access-date=12 October 2015|newspaper=The Guardian|archive-date=21 December 2019|archive-url=https://web.archive.org/web/20191221145628/https://www.theguardian.com/environment/2015/sep/26/china-and-us-agree-on-ivory-ban-in-bid-to-end-illegal-trade-globally|url-status=live}}</ref>
===Dehabitation===
Another threat to elephant's survival in general is the ongoing cultivation of their habitats with increasing risk of conflicts of interest with human cohabitants. These conflicts kill 150 elephants and up to 100 people per year in Sri Lanka.<ref></ref> Lacking the massive tusks of its African cousins, the Asian elephant's demise can be attributed mostly to loss of its habitat.


Other threats to elephants include ] and ]. The Asian elephant lives in areas with some of the highest human populations and may be confined to small islands of forest among human-dominated landscapes. Elephants commonly trample and consume crops, which contributes to conflicts with humans, and both elephants and humans have died by the hundreds as a result. Mitigating these conflicts is important for conservation. One proposed solution is the protection of ]s which give populations greater interconnectivity and space.<ref name=IUCN2 /> Chili pepper products as well as guarding with defense tools have been found to be effective in preventing crop-raiding by elephants. Less effective tactics include ] and ].<ref>{{cite journal|last1=Montgomery|first1=R. A.|last2=Raupp|first2=J|last3=Mukhwana|first3=M|last4=Greenleaf|first4=A|last5=Mudumba|first5=T|last6=Muruthi|first6=P|year=2022|title=The efficacy of interventions to protect crops from raiding elephants|journal=Ambio|volume=51|issue=3|pages=716–727|doi=10.1007/s13280-021-01587-x|pmid=34173175 |pmc=8800974 |bibcode=2022Ambio..51..716M }}</ref>
As larger patches of forest disappear, the ecosystem is affected in profound ways. The trees are responsible for anchoring soil and absorbing water runoff. Floods and massive erosion are common results of deforestation. Elephants need massive tracts of land because, much like the slash-and-burn farmers, they are used to crashing through the forest, tearing down trees and shrubs for food and then cycling back later on, when the area has regrown. As forests are reduced to small pockets, elephants become part of the problem, quickly destroying all the vegetation in an area, eliminating all their resources.


===Controversy=== ==Human relations==
===Working animal===
Despite all the fears of extinction, some scholars claim that the elephant population of Africa as a whole has actually increased over the past ten years, most notably in Botswana, which currently is experiencing elephant overpopulation.
{{further|Captive elephants}}
]
Elephants have been ]s since at least the ] over 4,000 years ago<ref>Sukumar, p. 57.</ref> and continue to be used in modern times. There were 13,000–16,500 working elephants employed in Asia in 2000. These animals are typically captured from the wild when they are 10–20 years old, the age range when they are both more trainable and can work for more years.<ref name=Shoshani149 /> They were ], but since 1950, ] have been used.<ref>Wylie, pp. 120–23.</ref> Individuals of the Asian species have been often trained as working animals. Asian elephants are used to carry and pull both objects and people in and out of areas as well as lead people in religious celebrations. They are valued over mechanised tools as they can perform the same tasks but in more difficult terrain, with strength, memory, and delicacy. Elephants can learn over 30 commands.<ref name="Shoshani149">McNeely, pp. 149–50.</ref> Musth bulls are difficult and dangerous to work with and so are chained up until their condition passes.<ref>Easa, p. 86.</ref>


In India, many working elephants are alleged to have been subject to abuse. They and other captive elephants are thus protected under ].<ref>{{cite web |author1=Bist, S. S. |author2=Cheeran, J. V. |author3=Choudhury, S. |author4=Barua, P. |author5=Misra, M. K. |title=The domesticated Asian elephant in India |publisher=Regional Office for Asia and the Pacific |access-date=25 December 2012 |url=http://www.fao.org/docrep/005/ad031e/ad031e0g.htm |archive-date=1 June 2015 |archive-url=https://web.archive.org/web/20150601060613/http://www.fao.org/docrep/005/ad031e/ad031e0g.htm |url-status=live }}</ref> In both Myanmar and Thailand, ] and other economic factors have resulted in sizable populations of unemployed elephants resulting in health problems for the elephants themselves as well as economic and safety problems for the people amongst whom they live.<ref>{{cite news |author=Fuller, Thomas |title=Unemployed, Myanmar's Elephants Grow Antsy, and Heavier |url=https://www.nytimes.com/2016/01/31/world/asia/myanmar-logging-elephants-unemployment.html |archive-url=https://ghostarchive.org/archive/20220101/https://www.nytimes.com/2016/01/31/world/asia/myanmar-logging-elephants-unemployment.html |archive-date=2022-01-01 |url-access=limited |work=] |date=30 January 2016 |access-date=31 January 2016 }}{{cbignore}}</ref><ref>{{cite web |url=http://www.fao.org/docrep/005/ad031e/ad031e0r.htm |title=The elephant situation in Thailand and a plea for co-operation |author=Lohanan, Roger |date=February 2001 |access-date=31 January 2016 |publisher=] |archive-date=4 April 2016 |archive-url=https://web.archive.org/web/20160404162525/http://www.fao.org/docrep/005/ad031e/ad031e0r.htm |url-status=live }}</ref>
===National parks===
], ].]]
Africa's first official reserve eventually became one of the world's most famous and successful national parks. ] in South Africa first became a reserve against great opposition in ] (then Sabi Reserve). It was deproclaimed and reproclaimed several times before it was renamed and granted national park status in 1926. It was to be the first of many.


The practice of working elephants has also been attempted in Africa. The taming of African elephants in the ] began by decree of ] during the 19th century and continues to the present with the ].<ref>Smith, pp. 152–54.</ref>
Of course, there were many problems in establishing these reserves. For example, elephants range through a wide tract of land with little regard for national borders. however, when most parks were created, the boundaries were drawn at the human-made borders of individual countries. Once a fence was erected, many animals found themselves cut off from their winter feeding grounds or spring breeding areas. Some animals died as a result, while some, like the elephants, just trampled through the fences. This did little to belie their image as a crop-raiding pest. The more often an elephant wandered off its reserve, the more trouble it got into, and the more chance it had of being shot by an angry farmer. When confined to small territories, elephants can inflict an enormous amount of damage to the local landscapes. Today there are still many problems associated with these parks and reserves, but there is now little question as to whether or not they are necessary. As scientists learn more about nature and the environment, it becomes very clear that these parks may be the elephant's last hope against the rapidly changing world around them.


===Warfare===
Additionally, Kruger National Park has suffered from elephant overcrowding, at the expense of other species of wildlife within the reserve. South Africa slaughtered 14,562 elephants in the reserve between 1967 and 1994; it stopped in 1995, mostly due to international and local pressure. Without action, it is predicted that the elephant population in Kruger National Park will triple to 34,000 by 2020.<ref>], "", '']'', 2005-11-28</ref>
<!-- Please do not add any more examples to this section. This subject already has its own article -->
{{Main|War elephant}}
{{See also|Execution by elephant}}
] by ], 1890]]
Historically, elephants were considered formidable instruments of war. They were described in ] texts as far back as 1500 BC. From South Asia, the use of elephants in warfare spread west to Persia<ref name=Shoshani146 /> and east to Southeast Asia.<ref name=SEA /> The Persians used them during the ] (between the 6th and 4th centuries BC)<ref name=Shoshani146 /> while Southeast Asian states first used war elephants possibly as early as the 5th century BC and continued to the 20th century.<ref name="SEA">{{cite book|author=Griffin, B.|year=2004|contribution=Elephants: From the Sacred to the Mundane|title=Southeast Asia: A Historical Encyclopedia, from Angkor Wat to East Timor|volume=1 |editor=Gin Ooi, K.|pages=487–489|publisher=Bloomsbury Academic |isbn=978-1-57607-770-2}}</ref> War elephants were also employed in the Mediterranean and North Africa throughout the ] since the reign of ] in Egypt. The ] general ] famously took African elephants across the ] during his war with the Romans and reached the ] in 218 BC with all of them alive, but died of disease and combat a year later.<ref name="Shoshani146">Wylie (2000), pp. 146–48.</ref>


An elephant's head and sides were equipped with armour, the trunk may have had a sword tied to it and tusks were sometimes covered with sharpened iron or brass. Trained elephants would attack both humans and horses with their tusks. They might have grasped an enemy soldier with the trunk and tossed him to their ], or pinned the soldier to the ground and speared him. Some shortcomings of war elephants included their great visibility, which made them easy to target, and limited maneuverability compared to horses. ] achieved victory over armies with war elephants by having his soldiers injure the trunks and legs of the animals which caused them to panic and become uncontrollable.<ref name=Shoshani146 />
==Humanity and elephants==
===Harvest from the wild===
<!-- Unsourced image removed: ].]] -->
The harvest of elephants, both legal and illegal, has had some unexpected consequences on elephant anatomy as well. African ivory hunters, by killing only tusked elephants, have given a much larger chance of mating to elephants with small tusks or no tusks at all. The propagation of the absent-tusk gene has resulted in the birth of large numbers of tuskless elephants, now approaching 30% in some populations (compare with a rate of about 1% in 1930). Tusklessness, once a very rare genetic abnormality, has become a widespread hereditary trait.


===Zoos and circuses===
It is possible, if unlikely, that continued selection pressure could bring about a complete absence of tusks in African elephants, a development normally requiring thousands of years of evolution. The effect of tuskless elephants on the environment, and on the elephants themselves, could be dramatic. Elephants use their tusks to root around in the ground for necessary minerals, tear apart vegetation, and spar with one another for mating rights. Without tusks, elephant behavior could change dramatically.<ref></ref>
{{further|Captive elephants}}
]
Elephants have traditionally been a major part of ]s and ]es around the world. In circuses, they are trained to perform tricks. The most famous circus elephant was probably ] (1861 – 15 September 1885), who was a major attraction in the ].<ref>Shoshani, pp. 168–69.</ref><ref name=Shoshani184/> These animals do not reproduce well in captivity due to the difficulty of handling musth bulls and limited understanding of female oestrous cycles. Asian elephants were always more common than their African counterparts in modern zoos and circuses. After CITES listed the Asian elephant under Appendix I in 1975, imports of the species almost stopped by the end of the 1980s. Subsequently, the US received many captive African elephants from Zimbabwe, which had an overabundance of the animals.<ref name=Shoshani184>Tuttle, pp. 184–88.</ref>


Keeping elephants in zoos has met with some controversy. Proponents of zoos argue that they allow easy access to the animals and provide fund and knowledge for preserving their natural habitats, as well as safekeeping for the species. Opponents claim that animals in zoos are under physical and mental stress.<ref>{{cite web|author=Sterm, A.|date=28 February 2005|title=Elephant deaths at zoos reignite animal debate: Zoo supporters cite conservation, activists cite confined spaces|publisher=MSNBC/Reuters|url=http://www.elephants.com/media/MSNBC_2_28_05.htm|access-date=24 October 2012|archive-date=23 September 2015|archive-url=https://web.archive.org/web/20150923235332/http://www.elephants.com/media/MSNBC_2_28_05.htm|url-status=live}}</ref> Elephants have been recorded displaying ] in the form of wobbling the body or head and pacing the same route both forwards and backwards. This has been observed in 54% of individuals in UK zoos.<ref>{{cite web|author1=Harris, M.|author2=Sherwin, C.|author3=Harris, S.|url=http://randd.defra.gov.uk/Document.aspx?Document=WC05007_7719_FRP.pdf|title=Defra Final Report on Elephant Welfare|publisher=University of Bristol|date=10 November 2008|access-date=16 November 2011|archive-date=24 November 2014|archive-url=https://web.archive.org/web/20141124052942/http://randd.defra.gov.uk/Document.aspx?Document=WC05007_7719_FRP.pdf|url-status=live}}</ref> Elephants in European zoos appear to have shorter lifespans than their wild counterparts at only 17 years, although other studies suggest that zoo elephants live just as long.<ref>{{cite web|author=Mott, M.|date=11 December 2008|title=Wild elephants live longer than their zoo counterparts|publisher=National Geographic News|url=http://news.nationalgeographic.com/news/2008/12/081211-zoo-elephants.html|access-date=24 October 2012|archive-date=4 May 2015|archive-url=https://web.archive.org/web/20150504050854/http://news.nationalgeographic.com/news/2008/12/081211-zoo-elephants.html|url-status=dead}}</ref>
===Domestication and use===
] Savannah Elephant ''Loxodonta africana'', born 1969, and ] Elephant ''Elephas maximus'', born 1970, at an ] ].]]
Elephants have been ] used in various capacities by humans. Seals found in the Indus Valley suggest that the elephant was first domesticated in ancient India. However, elephants have never been truly domesticated: the male elephant in his periodic condition of '']'' is dangerous and difficult to control. Therefore elephants used by humans have typically been female, war elephants being an exception, however: as female elephants in battle will run from a male, only males could be used in war. It is generally more economical to capture wild young elephants and tame them than breeding them in captivity (see also ]).


The use of elephants in circuses has also been controversial; the ] has accused circuses of mistreating and distressing their animals.<ref>{{cite web|title=Circus Myths: The true cruelty under the big top|publisher=Humane Society of the United States|url=http://www.humanesociety.org/issues/circuses_entertainment/facts/circus_myths.html|date=25 September 2009|access-date=24 October 2012|archive-date=5 September 2015|archive-url=https://web.archive.org/web/20150905065353/http://www.humanesociety.org/issues/circuses_entertainment/facts/circus_myths.html|url-status=dead}}</ref> In testimony to a US federal court in 2009, Barnum & Bailey Circus CEO ] acknowledged that circus elephants are struck behind their ears, under their chins, and on their legs with metal-tipped prods, called ] or ankus. Feld stated that these practices are necessary to protect circus workers and acknowledged that an elephant trainer was rebuked for using an electric prod on an elephant. Despite this, he denied that any of these practices hurt the animals.<ref>{{cite news|author=Pickler, N.|url=http://www.dailyrecord.com/article/20090304/UPDATES01/903040429/Circus-CEO-says-elephants-struck-not-hurt|title=Circus CEO says elephants are struck, but not hurt|agency=Associated Press|date=4 March 2009|access-date=25 October 2012|url-status=dead|archive-url=https://archive.today/20130120082119/http://www.dailyrecord.com/article/20090304/UPDATES01/903040429/Circus-CEO-says-elephants-struck-not-hurt|archive-date=20 January 2013|df=dmy-all}}</ref> Some trainers have tried to train elephants without the use of physical punishment. ] is known to have relied on positive reinforcement when training his animals.<ref>Wylie, p. 142.</ref> Barnum and Bailey circus retired its touring elephants in May 2016.<ref>{{cite news|last1=Karimi|first1=Faith|title=Ringling Bros. elephants perform last show|url=http://www.cnn.com/2016/05/01/us/ringling-bros-elephants-last-show/index.html|access-date=21 September 2017|publisher=CNN|date=2 May 2016|location=St. Petersburg, Florida|archive-date=22 September 2017|archive-url=https://web.archive.org/web/20170922050831/http://www.cnn.com/2016/05/01/us/ringling-bros-elephants-last-show/index.html|url-status=live}}</ref>
]s were used by armies in the Indian sub-continent, and later by the ]. This use was adopted by ] armies after ] experienced their worth against king ], notably in the ] and ] diadoch empires. The ] general ] took elephants across the ] when he was fighting the ], but brought too few elephants to be of much military use, although his horse cavalry was quite successful; he probably used a now-extinct third African (sub)species, the North African (Forest) elephant, smaller than its two southern cousins, and presumably easier to domesticate. A large elephant in full charge could cause tremendous damage to infantry, and cavalry horses would be afraid of them (see ]).


===Attacks===
Throughout ], ], and most of South Asia elephants were used in the military for heavy labor, especially for uprooting trees and moving logs, and were also commonly used as executioners to ].
Elephants can exhibit bouts of aggressive behaviour and engage in destructive actions against humans.<ref name="huggler">{{cite news | url = https://www.independent.co.uk/environment/animal-behaviour-rogue-elephants-419678.html | archive-url = https://web.archive.org/web/20080514154342/http://www.independent.co.uk/environment/animal-behaviour-rogue-elephants-419678.html | url-status = dead | archive-date = 14 May 2008 | title = Animal Behaviour: Rogue Elephants | author = Huggler, J. | work= The Independent | date = 12 October 2006 | access-date = 16 June 2007 | location=London}}</ref> In Africa, groups of adolescent elephants damaged homes in villages after cullings in the 1970s and 1980s. Because of the timing, these attacks have been interpreted as vindictive.<ref name="teenage">{{cite news | url = http://www.smh.com.au/articles/2006/02/16/1140064206413.html | title = Elephant rage: they never forgive, either | author = Highfield, R. | work = ] | date = 17 February 2006 | access-date = 16 June 2007 | archive-date = 20 September 2013 | archive-url = https://web.archive.org/web/20130920190617/http://www.smh.com.au/articles/2006/02/16/1140064206413.html | url-status = live }}</ref><ref>{{cite news|author=Siebert, C.|date=8 October 2006|title=An Elephant Crackup?|work=]|url=https://www.nytimes.com/2006/10/08/magazine/08elephant.html|access-date=25 October 2012|archive-date=14 November 2012|archive-url=https://web.archive.org/web/20121114151839/http://www.nytimes.com/2006/10/08/magazine/08elephant.html|url-status=live}}</ref> In parts of India, male elephants have entered villages at night, destroying homes and killing people. From 2000 to 2004, 300 people died in ], and in ], 239 people were reportedly killed between 2001 and 2006.<ref name="huggler" />
Throughout the country, 1,500 people were killed by elephants between 2019 and 2022, which led to 300 elephants being killed in kind.<ref>{{Cite news |last=Krishnan |first=Murali |date=19 August 2022 |title=India sees uptick in deadly elephant attacks |work=] |url=https://www.dw.com/en/india-sees-more-deadly-elephant-attacks-as-habitats-shrink/a-62863404 |access-date=11 June 2023}}</ref> Local people have reported that some elephants were drunk during the attacks, though officials have disputed this.<ref>{{cite news | url = http://news.bbc.co.uk/1/hi/world/south_asia/241781.stm | title = India elephant rampage | work = BBC News | date = 24 December 1998 | access-date = 16 June 2007 | archive-date = 26 May 2007 | archive-url = https://web.archive.org/web/20070526151446/http://news.bbc.co.uk/1/hi/world/south_asia/241781.stm | url-status = live }}</ref><ref>{{cite news | url = http://news.bbc.co.uk/1/hi/world/south_asia/482001.stm | title = Drunken elephants trample village | work = BBC News | date = 21 October 1999 | access-date = 16 June 2007 | archive-date = 26 December 2007 | archive-url = https://web.archive.org/web/20071226035744/http://news.bbc.co.uk/1/hi/world/south_asia/482001.stm | url-status = live }}</ref> Purportedly drunk elephants attacked an Indian village in December 2002, killing six people, which led to the retaliatory slaughter of about 200 elephants by locals.<ref>{{cite news | url = http://news.bbc.co.uk/2/hi/south_asia/2583891.stm | title = Drunk elephants kill six people | work = BBC News | date = 17 December 2002 | access-date = 16 June 2007 | archive-date = 8 April 2013 | archive-url = https://web.archive.org/web/20130408031502/http://news.bbc.co.uk/2/hi/south_asia/2583891.stm | url-status = live }}</ref>


===Cultural significance===
]
<!-- Please do not add any more examples to this section. This subject already has its own article -->
Elephants have also been used as mounts for safari-type ], especially Indian ''shikar'' (mainly on tigers), and as ceremonial mounts for royal and religious occasions, whilst Asian elephants have been used for ] and ], and are common to ] around the world.
{{Main|Cultural depictions of elephants}}
{{See also|Elephants in Kerala culture|List of elephants in mythology and religion|List of fictional pachyderms}}
Elephants have a universal presence in global culture. They have been represented in art since ] times. Africa, in particular, contains many examples of elephant ], especially in the ] and southern Africa.<ref>Wylie, pp. 62–65.</ref> In Asia, the animals are depicted as ] in ] and ] shrines and temples.<ref name=Shoshani158 /> Elephants were often difficult to portray by people with no first-hand experience of them.<ref>Kingdon, p. 31.</ref> The ], who kept the animals in captivity, depicted elephants more accurately than ] Europeans who portrayed them more like fantasy creatures, with horse, bovine, and boar-like traits, and trumpet-like trunks. As Europeans gained more access to captive elephants during the 15th century, depictions of them became more accurate, including one made by ].<ref>Wylie, pp. 83–84.</ref>
] god ]]]
Elephants have been the subject of religious beliefs. The ] of central Africa believe that the souls of their dead ancestors resided in elephants.<ref name=Shoshani158>McNeely, pp. 158–65.</ref> Similar ideas existed among other African societies, who believed that their chiefs would be ] as elephants. During the 10th century AD, the people of ], in modern-day Nigeria, placed elephant tusks underneath their dead leader's feet in the grave.<ref>Wylie, p. 79.</ref> The animals' importance is only ] in Africa but is much more significant in Asia.<ref>Sukumar, p. 87.</ref> In Sumatra, elephants have been associated with lightning. Likewise, in Hinduism, they are linked with thunderstorms as ], the father of all elephants, represents both lightning and rainbows.<ref name=Shoshani158 /> One of the most important Hindu deities, the elephant-headed ], is ranked equal with the supreme gods ], ], and ] in some traditions.<ref>Sukumar, p. 64.</ref> Ganesha is associated with writers and merchants, and it is believed that he can give people success as well as grant them their desires, but could also take these things away.<ref name="Shoshani158" /> In Buddhism, ] is said to have taken the form of a ] when he entered his ] womb to be reincarnated as a human.<ref>Sukumar, p. 62.</ref>


In Western popular culture, elephants symbolise the exotic, especially since – as with the ], ], and ] – there are no similar animals familiar to Western audiences. As characters, elephants are most common in ], where they are portrayed positively. They are typically surrogates for humans with ideal human values. Many stories tell of isolated young elephants returning to or finding a family, such as "The Elephant's Child" from ]'s '']'', ]'s ''],'' and Kathryn and Byron Jackson's ''The Saggy Baggy Elephant''. Other elephant heroes ] include ]'s ], ]'s ], and ]'s ].<ref name="Van Riper 73">{{cite book|author1=Van Riper |author2=A. B. |title=Science in Popular Culture: A Reference Guide|publisher=Greenwood Press|year=2002|pages=73–75|isbn=978-0-313-31822-1}}</ref>
African elephants have long been reputed to not be domesticable, but some entrepreneurs have succeeded by bringing Asian ]s from ] to Africa. In Botswana, ] has been working with African elephants and has several young tame elephants near ]. African elephants are more temperamental than Asian elephants, but are easier to train. Because of their more sensitive temperaments, they require different training methods than Asian elephants and must be trained from infancy hence Corea worked with orphaned elephants. African elephants are now being used for (photo) safaris. Corea's elephants are also used to entertain tourists and haul logs.


Several cultural references emphasise the elephant's size and strangeness. For instance, a "]" is a byword for something that is weird, unwanted, and has no value.<ref name="Van Riper 73" /> The expression "]" refers to something that is being ignored but ultimately must be addressed.<ref>Wylie, p. 90.</ref> The story of the ] involves blind men touching different parts of an elephant and trying to figure out what it is.<ref>Wylie, pp. 27–28.</ref>
Elephants are also commonly exhibited in ] and ], the former of which has caused controversy. Animal rights advocates allege that elephants in zoos "suffer a life of chronic physical ailments, social deprivation, emotional starvation, and premature death". However, zoos argue that standards for treatment of elephants are extremely high and that minimum requirements for such things as minimum space requirements, enclosure design, nutrition, reproduction, enrichment and veterinary care are set to ensure the wellbeing of elephants in captivity.

===Elephant traps===
A method of confining elephants practiced in the Indian Subcontinent is far less physical and brutal, and more psychological, than earlier means. It is called the "elephant trap". The following is taken from a newsletter:
:From when an elephant is a baby they tie him for certain periods with a rope to a tree. The young elephant tries his hardest to escape, he pulls and wriggles and jumps and crawls yet the rope just tightens and to the tree it remains tied. Learning that, the elephant doesn’t try to escape and accepts his confinement. A couple of years pass and the elephant is now an adult weighing several tons. Yet the trainer continues to tie the elephant to the tree with the same rope he’s always used, for the simple reason that the elephant has the concept in his mind that the rope is stronger than him. Abiding to this conditioning the elephant is trapped for life. To break free all the elephant has to do is erase that limiting thought for in fact he is free to go.

===Elephants in culture===
*] wrote a famous essay entitled "]," chronicling a 1926 episode of being forced to shoot an elephant while he served as an Imperial Policeman in ].
====Pop culture====
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* ], a ] elephant, has entered the English language as a synonym for "large".
* ], the elephant who learns to fly in the ] movie of the same name.
*The French children's storybook character ] (an elephant king) created by ] and also an animated TV series.
* ] mascot is ], the Elephant.
* ] Crimson Tide mascot is an elephant called "Big Al." The name was chosen in the late 1970s in a campus-wide contest.
*The ] mascot is a white elephant. The story of picking the mascot was started when ]' manager ] told reporters that Philadelphia manufacturer ], who owned the controlling interest in the new team, had a “white elephant on his hands," ] defiantly adopted the white elephant as the team mascot, though over the years the elephant has appeared in several different colors (currently forest green). The A’s are sometimes, though infrequently, referred to as the Elephants or White Elephants. The team mascot is nicknamed ].
* '']'' is one of ]'s '']''.
* '']'' is a book by ] about a faithful elephant who sits on the nest of an irresponsible bird for months.
* The ], a musical instrument playing group of Elephants from the ] in ].
*], a British man in ], who suffered from substantial deformities, and was nicknamed "]" due to the nature and extent of his condition.
*The fictional planet in ]'s '']'' novels consists of a ] carried on the backs of four elephants who ride through space on a space turtle, ].
*In ] of '']'', ] wins a bad-tempered elephant in a ] ], which he names Stampy. The family eventually give up the elephant after it proves too expensive to feed.
* American band ]' fourth album was entitled ''Elephant'', possibly because of lead singer Jack White's fondness of the animals' extreme sensitivity toward each other. The album was #390 in '']'' magazine's "500 Best Albums of All Time."
* The Thai movie ] (US title: "]", UK title: "Warrior King") is about a man named Kham who travels from Thailand to Australia in pursuit of poachers who have stolen two elephants. Kham is a member of a family that protects the elephants of the King of Thailand. The movie was directed by ] and stars ].
* ] once instructed his viewers to ] to say that the number of elephants had tripled in the past six months.

] in ], ]]]

====Religion and philosophy====
] festival in ], ]]]
* The scattered skulls of prehistoric pygmy elephants on ], featuring a single large ] at the front, may have formed the basis of belief in existence of ], the one-eyed ] featured in ]'s ].
* A ] is considered holy in ].
* ], the ] god of wisdom, has an elephant's head.
* Elephants are used in festivals in ], such as the ].
* ]
* ] famous temple elephant in Kerala, India
* The story of the ] was written to show how reality may be viewed by different perspectives. Its source is unknown, but it appears to have originated in ]. It has been attributed to ], ], ], and ].
* In ] accounts, including ] on the sixth chapter of the ]l book of ], the youngest of the ] brothers, ] the ] stuck a spear under the foot of an elephant carrying an important Greek-Assyrian general, killing the elephant, the general, and Eleazar.

====Politics and secular symbolism====
] (Electronic Voting Machine) on an elephant. These officials are travelling to a remote ], inaccessible by other means of transport.]]

*After Alexander's victory over the Indian king Porus, the captured war elephants became a symbol of imperial power, used as an emblem of the ] diadoch empire, e.g. on coins.
*The elephant, and the white elephant (also a religious symbol of ]) in particular, has often been used as a symbol of royal power and prestige in Asia; occurring on the flag of the kingdom Laos (three visible, supporting an umbrella, another symbol of royal power) till it became a republic in 1975, and other Indochinese and Thai realms had also displayed one or more white elephants.
*The elephant is also the symbol for the ] of the United States, originating in an ] cartoon of an Asian elephant by ] of '']'' (Nast also originated the ] as the symbol of the ]).
* See also the Danish royal ].

===Elephant rage===
====Musth====
Adult male elephants naturally enter the periodic state called ''musth'' (Hindi for madness), sometimes spelt "must" in English. It is characterised by very excited and/or aggressive behavior and a thick, tar-like liquid secretion that discharges through the temporal ducts from the temporal glands on the sides of the head. Musth is linked to sexual arousal or establishing dominance but this relationship is far from clear. A musth elephant, wild or domesticated, is extremely dangerous to humans. Domesticated elephants in India are traditionally tied to a tree and denied food and water for several days, after which the musth passes. In ], musth is often the cause of fatal accidents to elephant keepers. Zoos keeping adult male elephants need extremely secure enclosures, which greatly complicates the attempts to breed elephants in zoos.

Musth is accompanied by a significant rise in ]s. ] levels in an elephant in musth can be as much as 60 times greater than in the same elephant at other times. However, whether this hormonal surge is the sole cause of musth, or merely a contributing factor is unknown: scientific investigation of musth is greatly hindered by the fact that even the most otherwise placid of elephants may actively try to kill any and all humans. Similarly, the tar-like secretion remains largely uncharacterised, due to the extreme difficulties of collecting a sample for analysis.

Although it has often been speculated that musth is linked to ], this is unlikely, because the female elephant's ] cycle is not seasonally-linked. Furthermore, bulls in musth have often been known to attack female elephants, regardless of whether or not the females are in heat.

The Hindi word "musth" is from the ] ''mast'', which in turn is from a ] root meaning 'intoxicated'.

The ] ] ] "The Dark Side of Elephants" (20 March 2006) stated that during musth:

* The swelling of the temporal glands presses on the elephant's ]s and causes the elephant severe pain like severe ] ]. One elephant behaviour that tries to counteract this is digging the tusks in the ground.
* The musth secretion, which naturally runs down into the elephant's mouth, is full of ]s and ]s and (to a person at least) tastes unbelievably foul.
* As a result, musth behaviour is at least partly due to the elephant being driven mad by pain and distress.

====Other causes====
] attempts to hold ] behind a fenced gate as the animal went on a rampage.]]
At least a few elephants have been suspected to be drunk during their attacks. In December 1998, a herd of elephants overran a village in India. Although locals reported that nearby elephants had recently been observed drinking beer which rendered them "unpredictable", officials considered it the least likely explanation for the attack.<ref></ref> An attack on another Indian village occurred in October 1999, and again locals believed the reason was drunkenness, but the theory was not widely accepted.<ref></ref> Purportedly drunk elephants raided yet another Indian village again on December 2002, killing six people, which lead to killing of about 200 elephants by locals.<ref></ref>

Charles Siebert reports in his New York Times article ''An Elephant Crackup?'' that:
:''Since the early 1990’s, for example, young male elephants in Pilanesberg National Park and the Hluhluwe-Umfolozi Game Reserve in South Africa have been raping and killing rhinoceroses; this abnormal behavior, according to a 2001 study in the journal Pachyderm, has been reported in ‘‘a number of reserves’’ in the region.''<ref></ref>

==Rogue elephant==
'''Rogue elephant''' is a term for a lone, violently aggressive wild elephant, separated from the rest of the herd. It is a ] of the ] term ''hora aliya''. Its introduction to ] has been attributed by the ] to Sir ], but this usage may have been pre-dated by ].


==See also== ==See also==
{{Portal|Mammals}}
* ]
* ] * ]
* ] * ]
* ] * ]
* ]
* ]
* ], captive hybrid of an Asian and African elephant
* ]
* ] * ]
* ] * ]
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==References== ==References==
{{reflist}} {{Reflist|30em}}
* ] by ]
* ] by ]
*{{MSW3 Shoshani|pages=90-91}}


==Footnotes== ==Bibliography==
{{Refbegin|60em}}
*{{Ref 1}}
* {{cite book|author= Kingdon, J.|title= East African Mammals: An Atlas of Evolution in Africa, Volume 3, Part B: Large Mammals|url= https://books.google.com/books?id=xdH_Gi92-fAC|date= 29 December 1988|publisher= University of Chicago Press|isbn= 978-0-226-43722-4|oclc= 468569394|access-date= 10 March 2017|archive-date= 21 March 2023|archive-url= https://web.archive.org/web/20230321084757/https://books.google.com/books?id=xdH_Gi92-fAC|url-status= live}}
* {{cite book |editor=Shoshani, J. |year=2000 |title=Elephants: Majestic Creatures of the Wild |publisher=Checkmark Books |isbn=978-0-87596-143-9 |oclc=475147472}}
** {{cite book |author1=Shoshani, J. |author2=Shoshani, S. L. |chapter=What Is an Elephant? |title=Elephants: Majestic Creatures of the Wild |pages=14–15}}
** {{cite book |author=Shoshani, J. |chapter=Comparing the Living Elephants |title=Elephants: Majestic Creatures of the Wild |pages=36–51}}
** {{cite book |author=Shoshani, J. |chapter=Anatomy and Physiology |title=Elephants: Majestic Creatures of the Wild |pages=66–80}}
** {{cite book |author=Easa, P. S. |chapter=Musth in Asian Elephants |title=Elephants: Majestic Creatures of the Wild |pages=85–86}}
** {{cite book |author=Moss, C. |chapter=Elephant Calves: The Story of Two Sexes |title=Elephants: Majestic Creatures of the Wild |pages=106–113}}
** {{cite book |author1=Payne, K. B. |author2=Langauer, W. B |chapter=Elephant Communication |title=Elephants: Majestic Creatures of the Wild |pages=116–123}}
** {{cite book |author=Eltringham, S. K. |chapter=Ecology and Behavior |title=Elephants: Majestic Creatures of the Wild |pages=124–127}}
** {{cite book |author=Wylie, K. C. |chapter=Elephants as War Machines |title=Elephants: Majestic Creatures of the Wild |pages=146–148}}
** {{cite book |author=McNeely, J. A. |chapter=Elephants as Beasts of Burden |title=Elephants: Majestic Creatures of the Wild |pages=149–150}}
** {{cite book |author=Smith, K. H. |chapter=The Elephant Domestication Centre of Africa |title=Elephants: Majestic Creatures of the Wild |pages=152–154}}
** {{cite book |author=McNeely, J. A. |chapter=Elephants in Folklore, Religion and Art |title=Elephants: Majestic Creatures of the Wild |pages=158–165}}
** {{cite book |author=Shoshani, S. L. |chapter=Famous Elephants |title=Elephants: Majestic Creatures of the Wild |pages=168–171}}
** {{cite book |author=Daniel, J. C. |chapter=The Asian Elephant Population Today |title=Elephants: Majestic Creatures of the Wild |pages=174–177}}
** {{cite book |author=Douglas-Hamilton, I. |chapter=The African Elephant Population Today |title=Elephants: Majestic Creatures of the Wild |pages=178–183}}
** {{cite book |author=Tuttle, C. D. |chapter=Elephants in Captivity |title=Elephants: Majestic Creatures of the Wild |pages=184–193}}
** {{cite book |author=Martin, E. B. |chapter=The Rise and Fall of the Ivory Market |title=Elephants: Majestic Creatures of the Wild |pages=202–207}}
** {{cite book |author=Shoshani, J. |chapter=Why Save Elephants? |title=Elephants: Majestic Creatures of the Wild |pages=226–229}}
* {{cite book|author= Sukumar, R.|title= The Living Elephants: Evolutionary Ecology, Behaviour, and Conservation|url= https://archive.org/details/livingelephantse00suku_0|url-access= registration|date= 11 September 2003|publisher= Oxford University Press, USA|isbn= 978-0-19-510778-4|oclc= 935260783}}
* {{cite book|author= Wylie, D.|title= Elephant|url= https://books.google.com/books?id=Aj75snWdfv8C|date= 15 January 2009|publisher= Reaktion Books|isbn= 978-1-86189-615-5|oclc= 740873839|access-date= 10 March 2017|archive-date= 21 March 2023|archive-url= https://web.archive.org/web/20230321084840/https://books.google.com/books?id=Aj75snWdfv8C|url-status= live}}
{{Refend}}


== Further reading ==
==External links==
* {{Cite book |last=Carrington |first=Richard |title=Elephants: A Short Account of their Natural History, Evolution and Influence on Mankind |publisher=Chatto & Windus|year=1958|oclc=911782153}}
{{sisterlinks|Elephant}}
* {{Cite book |last=Nance |first=Susan |year=2013 |title=Entertaining Elephants: Animal Agency and the Business of the American Circus |location=Baltimore, MD |publisher=Johns Hopkins University Press}}
{{Wikibookspar|Dichotomous Key|Proboscidea}}
* ] (1872). ] at ]. ''The Poems of John Godfrey Saxe''.
* {{cite book | last=Williams | first=Heathcote |author-link=Heathcote Williams | title=Sacred Elephant | location=New York | publisher=Harmony Books | year=1989 | isbn=978-0-517-57320-4}}

== External links ==
{{Sister project links |wikt=elephant |commons=Category:Elephants |n=Category:Elephants |q=Elephants |voy=Elephants }}
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* Tim Radford, , ''The Guardian'' 2001-08-24, 1. Describes the discovery of the third species of elephant.
* C. Johnson, , ''News in Science'' 1999-05-11,
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{{Mammals}} {{Elephants}}
{{Proboscidea}}
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Latest revision as of 05:30, 24 December 2024

Largest living land animal This article is about a paraphyletic group. For close extinct relatives, see Elephantidae. For other uses, see Elephant (disambiguation).

ElephantsTemporal range: Late Miocene – Present PreꞒ O S D C P T J K Pg N
A female African bush elephant in Mikumi National Park, Tanzania
A female African bush elephant in Mikumi National Park, Tanzania
Scientific classificationEdit this classification
Domain: Eukaryota
Kingdom: Animalia
Phylum: Chordata
Class: Mammalia
Order: Proboscidea
Superfamily: Elephantoidea
Family: Elephantidae
Groups included
Distribution of living elephant species
Distribution of living elephant species
Cladistically included but traditionally excluded taxa

Elephants are the largest living land animals. Three living species are currently recognised: the African bush elephant (Loxodonta africana), the African forest elephant (L. cyclotis), and the Asian elephant (Elephas maximus). They are the only surviving members of the family Elephantidae and the order Proboscidea; extinct relatives include mammoths and mastodons. Distinctive features of elephants include a long proboscis called a trunk, tusks, large ear flaps, pillar-like legs, and tough but sensitive grey skin. The trunk is prehensile, bringing food and water to the mouth and grasping objects. Tusks, which are derived from the incisor teeth, serve both as weapons and as tools for moving objects and digging. The large ear flaps assist in maintaining a constant body temperature as well as in communication. African elephants have larger ears and concave backs, whereas Asian elephants have smaller ears and convex or level backs.

Elephants are scattered throughout sub-Saharan Africa, South Asia, and Southeast Asia and are found in different habitats, including savannahs, forests, deserts, and marshes. They are herbivorous, and they stay near water when it is accessible. They are considered to be keystone species, due to their impact on their environments. Elephants have a fission–fusion society, in which multiple family groups come together to socialise. Females (cows) tend to live in family groups, which can consist of one female with her calves or several related females with offspring. The leader of a female group, usually the oldest cow, is known as the matriarch.

Males (bulls) leave their family groups when they reach puberty and may live alone or with other males. Adult bulls mostly interact with family groups when looking for a mate. They enter a state of increased testosterone and aggression known as musth, which helps them gain dominance over other males as well as reproductive success. Calves are the centre of attention in their family groups and rely on their mothers for as long as three years. Elephants can live up to 70 years in the wild. They communicate by touch, sight, smell, and sound; elephants use infrasound and seismic communication over long distances. Elephant intelligence has been compared with that of primates and cetaceans. They appear to have self-awareness, and possibly show concern for dying and dead individuals of their kind.

African bush elephants and Asian elephants are listed as endangered and African forest elephants as critically endangered by the International Union for Conservation of Nature (IUCN). One of the biggest threats to elephant populations is the ivory trade, as the animals are poached for their ivory tusks. Other threats to wild elephants include habitat destruction and conflicts with local people. Elephants are used as working animals in Asia. In the past, they were used in war; today, they are often controversially put on display in zoos, or employed for entertainment in circuses. Elephants have an iconic status in human culture and have been widely featured in art, folklore, religion, literature, and popular culture.

Etymology

The word elephant is derived from the Latin word elephas (genitive elephantis) 'elephant', which is the Latinised form of the ancient Greek ἐλέφας (elephas) (genitive ἐλέφαντος (elephantos)), probably from a non-Indo-European language, likely Phoenician. It is attested in Mycenaean Greek as e-re-pa (genitive e-re-pa-to) in Linear B syllabic script. As in Mycenaean Greek, Homer used the Greek word to mean ivory, but after the time of Herodotus, it also referred to the animal. The word elephant appears in Middle English as olyfaunt (c. 1300) and was borrowed from Old French oliphant (12th century).

Taxonomy and evolution

Afrotheria
Afroinsectiphilia
Tubulidentata

Orycteropodidae

Afroinsectivora
Macroscelidea

Macroscelididae

Afrosoricida

Chrysochloridae

Tenrecidae

Paenungulata
Hyracoidea

Procaviidae

Tethytheria
Proboscidea

Elephantidae

Sirenia

Dugongidae

Trichechidae

A cladogram of the elephants within Afrotheria based on molecular evidence

Elephants belong to the family Elephantidae, the sole remaining family within the order Proboscidea. Their closest extant relatives are the sirenians (dugongs and manatees) and the hyraxes, with which they share the clade Paenungulata within the superorder Afrotheria. Elephants and sirenians are further grouped in the clade Tethytheria.

Three species of living elephants are recognised; the African bush elephant (Loxodonta africana), forest elephant (Loxodonta cyclotis), and Asian elephant (Elephas maximus). African elephants were traditionally considered a single species, Loxodonta africana, but molecular studies have affirmed their status as separate species. Mammoths (Mammuthus) are nested within living elephants as they are more closely related to Asian elephants than to African elephants. Another extinct genus of elephant, Palaeoloxodon, is also recognised, which appears to have close affinities with African elephants and to have hybridised with African forest elephants.

Evolution

Over 180 extinct members of order Proboscidea have been described. The earliest proboscideans, the African Eritherium and Phosphatherium are known from the late Paleocene. The Eocene included Numidotherium, Moeritherium, and Barytherium from Africa. These animals were relatively small and, some, like Moeritherium and Barytherium were probably amphibious. Later on, genera such as Phiomia and Palaeomastodon arose; the latter likely inhabited more forested areas. Proboscidean diversification changed little during the Oligocene. One notable species of this epoch was Eritreum melakeghebrekristosi of the Horn of Africa, which may have been an ancestor to several later species.

Proboscidea

early proboscideans, e.g. Moeritherium

Deinotheriidae

Elephantiformes

Mammutidae

Gomphotheriidae

Stegodontidae

Elephantidae

Loxodonta

Palaeoloxodon

Mammuthus

Elephas

Proboscidea phylogeny based on morphological and DNA evidence

A major event in proboscidean evolution was the collision of Afro-Arabia with Eurasia, during the Early Miocene, around 18–19 million years ago, allowing proboscideans to disperse from their African homeland across Eurasia and later, around 16–15 million years ago into North America across the Bering Land Bridge. Proboscidean groups prominent during the Miocene include the deinotheres, along with the more advanced elephantimorphs, including mammutids (mastodons), gomphotheres, amebelodontids (which includes the "shovel tuskers" like Platybelodon), choerolophodontids and stegodontids. Around 10 million years ago, the earliest members of the family Elephantidae emerged in Africa, having originated from gomphotheres.

Elephantids are distinguished from earlier proboscideans by a major shift in the molar morphology to parallel lophs rather than the cusps of earlier proboscideans, allowing them to become higher-crowned (hypsodont) and more efficient in consuming grass. The Late Miocene saw major climactic changes, which resulted in the decline and extinction of many proboscidean groups. The earliest members of the modern genera of Elephantidae appeared during the latest Miocene–early Pliocene around 5 million years ago. The elephantid genera Elephas (which includes the living Asian elephant) and Mammuthus (mammoths) migrated out of Africa during the late Pliocene, around 3.6 to 3.2 million years ago.

Over the course of the Early Pleistocene, all non-elephantid probobscidean genera outside of the Americas became extinct with the exception of Stegodon, with gomphotheres dispersing into South America as part of the Great American interchange, and mammoths migrating into North America around 1.5 million years ago. At the end of the Early Pleistocene, around 800,000 years ago the elephantid genus Palaeoloxodon dispersed outside of Africa, becoming widely distributed in Eurasia. Proboscideans were represented by around 23 species at the beginning of the Late Pleistocene. Proboscideans underwent a dramatic decline during the Late Pleistocene as part of the Late Pleistocene extinctions of most large mammals globally, with all remaining non-elephantid proboscideans (including Stegodon, mastodons, and the American gomphotheres Cuvieronius and Notiomastodon) and Palaeoloxodon becoming extinct, with mammoths only surviving in relict populations on islands around the Bering Strait into the Holocene, with their latest survival being on Wrangel Island, where they persisted until around 4,000 years ago.

Over the course of their evolution, probobscideans grew in size. With that came longer limbs and wider feet with a more digitigrade stance, along with a larger head and shorter neck. The trunk evolved and grew longer to provide reach. The number of premolars, incisors, and canines decreased, and the cheek teeth (molars and premolars) became longer and more specialised. The incisors developed into tusks of different shapes and sizes. Several species of proboscideans became isolated on islands and experienced insular dwarfism, some dramatically reducing in body size, such as the 1 m (3 ft 3 in) tall dwarf elephant species Palaeoloxodon falconeri.

Living species

Name Size Appearance Distribution Image
African bush elephant (Loxodonta africana) Male: 304–336 cm (10 ft 0 in – 11 ft 0 in) (shoulder height), 5.2–6.9 t (5.7–7.6 short tons) (weight); Female: 247–273 cm (8 ft 1 in – 8 ft 11 in) (shoulder height), 2.6–3.5 t (2.9–3.9 short tons) (weight). Relatively large and triangular ears, concave back, diamond shaped molar ridges, wrinkled skin, sloping abdomen, and two finger-like extensions at the tip of the trunk. Sub-Saharan Africa; forests, savannahs, deserts, wetlands, and near lakes.
African forest elephant (Loxodonta cyclotis) 209–231 cm (6 ft 10 in – 7 ft 7 in) (shoulder height), 1.7–2.3 t (1.9–2.5 short tons) (weight). Similar to the bush species, but with smaller and more rounded ears and thinner and straighter tusks. West and Central Africa; equatorial forests, but occasionally gallery forests and forest/grassland ecotones.
Asian elephant (Elephas maximus) Male: 261–289 cm (8 ft 7 in – 9 ft 6 in) (shoulder height), 3.5–4.6 t (3.9–5.1 short tons) (weight); Female: 228–252 cm (7 ft 6 in – 8 ft 3 in) (shoulder height), 2.3–3.1 t (2.5–3.4 short tons) (weight). Relatively small ears, convex or level back, dish-shaped forehead with two large bumps, narrow molar ridges, smooth skin with some blotches of depigmentation, a straightened or saggy abdomen, and one extension at the tip of the trunk. South and Southeast Asia; habitats with a mix of grasses, low woody plants, and trees, including dry thorn-scrub forests in southern India and Sri Lanka and evergreen forests in Malaya.

Anatomy

African bush elephant skeleton

Elephants are the largest living terrestrial animals. Some species of the extinct elephant genus Palaeoloxodon considerably exceeded modern elephants in size making them among the largest land mammals ever. The skeleton is made up of 326–351 bones. The vertebrae are connected by tight joints, which limit the backbone's flexibility. African elephants have 21 pairs of ribs, while Asian elephants have 19 or 20 pairs. The skull contains air cavities (sinuses) that reduce the weight of the skull while maintaining overall strength. These cavities give the inside of the skull a honeycomb-like appearance. By contrast, the lower jaw is dense. The cranium is particularly large and provides enough room for the attachment of muscles to support the entire head. The skull is built to withstand great stress, particularly when fighting or using the tusks. The brain is surrounded by arches in the skull, which serve as protection. Because of the size of the head, the neck is relatively short to provide better support. Elephants are homeotherms and maintain their average body temperature at ~ 36 °C (97 °F), with a minimum of 35.2 °C (95.4 °F) during the cool season, and a maximum of 38.0 °C (100.4 °F) during the hot dry season.

Ears and eyes

African bush elephant with ears spread in a threat or attentive position and visible blood vessels

Elephant ear flaps, or pinnae, are 1–2 mm (0.039–0.079 in) thick in the middle with a thinner tip and supported by a thicker base. They contain numerous blood vessels called capillaries. Warm blood flows into the capillaries, releasing excess heat into the environment. This effect is increased by flapping the ears back and forth. Larger ear surfaces contain more capillaries, and more heat can be released. Of all the elephants, African bush elephants live in the hottest climates and have the largest ear flaps. The ossicles are adapted for hearing low frequencies, being most sensitive at 1 kHz.

Lacking a lacrimal apparatus (tear duct), the eye relies on the Harderian gland in the orbit to keep it moist. A durable nictitating membrane shields the globe. The animal's field of vision is compromised by the location and limited mobility of the eyes. Elephants are dichromats and they can see well in dim light but not in bright light.

Trunk

"Elephant trunk" redirects here. For other uses, see Elephant trunk (disambiguation).
African bush elephant with its trunk raised, a behaviour often adopted when trumpeting

The elongated and prehensile trunk, or proboscis, consists of both the nose and upper lip, which fuse in early fetal development. This versatile appendage contains up to 150,000 separate muscle fascicles, with no bone and little fat. These paired muscles consist of two major types: superficial (surface) and internal. The former are divided into dorsal, ventral, and lateral muscles, while the latter are divided into transverse and radiating muscles. The muscles of the trunk connect to a bony opening in the skull. The nasal septum consists of small elastic muscles between the nostrils, which are divided by cartilage at the base. A unique proboscis nerve – a combination of the maxillary and facial nerves – lines each side of the appendage.

As a muscular hydrostat, the trunk moves through finely controlled muscle contractions, working both with and against each other. Using three basic movements: bending, twisting, and longitudinal stretching or retracting, the trunk has near unlimited flexibility. Objects grasped by the end of the trunk can be moved to the mouth by curving the appendage inward. The trunk can also bend at different points by creating stiffened "pseudo-joints". The tip can be moved in a way similar to the human hand. The skin is more elastic on the dorsal side of the elephant trunk than underneath; allowing the animal to stretch and coil while maintaining a strong grasp. The flexibility of the trunk is aided by the numerous wrinkles in the skin. The African elephants have two finger-like extensions at the tip of the trunk that allow them to pluck small food. The Asian elephant has only one and relies more on wrapping around a food item. Asian elephant trunks have better motor coordination.

Asian elephant drinking water with trunk

The trunk's extreme flexibility allows it to forage and wrestle other elephants with it. It is powerful enough to lift up to 350 kg (770 lb), but it also has the precision to crack a peanut shell without breaking the seed. With its trunk, an elephant can reach items up to 7 m (23 ft) high and dig for water in the mud or sand below. It also uses it to clean itself. Individuals may show lateral preference when grasping with their trunks: some prefer to twist them to the left, others to the right. Elephant trunks are capable of powerful siphoning. They can expand their nostrils by 30%, leading to a 64% greater nasal volume, and can breathe in almost 30 times faster than a human sneeze, at over 150 m/s (490 ft/s). They suck up water, which is squirted into the mouth or over the body. The trunk of an adult Asian elephant is capable of retaining 8.5 L (2.2 US gal) of water. They will also sprinkle dust or grass on themselves. When underwater, the elephant uses its trunk as a snorkel.

The trunk also acts as a sense organ. Its sense of smell may be four times greater than a bloodhound's nose. The infraorbital nerve, which makes the trunk sensitive to touch, is thicker than both the optic and auditory nerves. Whiskers grow all along the trunk, and are particularly packed at the tip, where they contribute to its tactile sensitivity. Unlike those of many mammals, such as cats and rats, elephant whiskers do not move independently ("whisk") to sense the environment; the trunk itself must move to bring the whiskers into contact with nearby objects. Whiskers grow in rows along each side on the ventral surface of the trunk, which is thought to be essential in helping elephants balance objects there, whereas they are more evenly arranged on the dorsal surface. The number and patterns of whiskers are distinctly different between species.

Damaging the trunk would be detrimental to an elephant's survival, although in rare cases, individuals have survived with shortened ones. One trunkless elephant has been observed to graze using its lips with its hind legs in the air and balancing on its front knees. Floppy trunk syndrome is a condition of trunk paralysis recorded in African bush elephants and involves the degeneration of the peripheral nerves and muscles. The disorder has been linked to lead poisoning.

Teeth

Molar of an adult African bush elephantAsian elephant eating tree bark, using its tusks to peel it off

Elephants usually have 26 teeth: the incisors, known as the tusks; 12 deciduous premolars; and 12 molars. Unlike most mammals, teeth are not replaced by new ones emerging from the jaws vertically. Instead, new teeth start at the back of the mouth and push out the old ones. The first chewing tooth on each side of the jaw falls out when the elephant is two to three years old. This is followed by four more tooth replacements at the ages of four to six, 9–15, 18–28, and finally in their early 40s. The final (usually sixth) set must last the elephant the rest of its life. Elephant teeth have loop-shaped dental ridges, which are more diamond-shaped in African elephants.

Tusks

The tusks of an elephant are modified second incisors in the upper jaw. They replace deciduous milk teeth at 6–12 months of age and keep growing at about 17 cm (7 in) a year. As the tusk develops, it is topped with smooth, cone-shaped enamel that eventually wanes. The dentine is known as ivory and has a cross-section of intersecting lines, known as "engine turning", which create diamond-shaped patterns. Being living tissue, tusks are fairly soft and about as dense as the mineral calcite. The tusk protrudes from a socket in the skull, and most of it is external. At least one-third of the tusk contains the pulp, and some have nerves that stretch even further. Thus, it would be difficult to remove it without harming the animal. When removed, ivory will dry up and crack if not kept cool and wet. Tusks function in digging, debarking, marking, moving objects, and fighting.

Elephants are usually right- or left-tusked, similar to humans, who are typically right- or left-handed. The dominant, or "master" tusk, is typically more worn down, as it is shorter and blunter. For African elephants, tusks are present in both males and females and are around the same length in both sexes, reaching up to 300 cm (9 ft 10 in), but those of males tend to be more massive. In the Asian species, only the males have large tusks. Female Asians have very small tusks, or none at all. Tuskless males exist and are particularly common among Sri Lankan elephants. Asian males can have tusks as long as Africans', but they are usually slimmer and lighter; the largest recorded was 302 cm (9 ft 11 in) long and weighed 39 kg (86 lb). Hunting for elephant ivory in Africa and Asia has resulted in an effective selection pressure for shorter tusks and tusklessness.

Skin

Asian elephant skin

An elephant's skin is generally very tough, at 2.5 cm (1 in) thick on the back and parts of the head. The skin around the mouth, anus, and inside of the ear is considerably thinner. Elephants are typically grey, but African elephants look brown or reddish after rolling in coloured mud. Asian elephants have some patches of depigmentation, particularly on the head. Calves have brownish or reddish hair, with the head and back being particularly hairy. As elephants mature, their hair darkens and becomes sparser, but dense concentrations of hair and bristles remain on the tip of the tail and parts of the head and genitals. Normally, the skin of an Asian elephant is covered with more hair than its African counterpart. Their hair is thought to help them lose heat in their hot environments.

Although tough, an elephant's skin is very sensitive and requires mud baths to maintain moisture and protection from burning and insect bites. After bathing, the elephant will usually use its trunk to blow dust onto its body, which dries into a protective crust. Elephants have difficulty releasing heat through the skin because of their low surface-area-to-volume ratio, which is many times smaller than that of a human. They have even been observed lifting up their legs to expose their soles to the air. Elephants only have sweat glands between the toes, but the skin allows water to disperse and evaporate, cooling the animal. In addition, cracks in the skin may reduce dehydration and allow for increased thermal regulation in the long term.

Legs, locomotion, and posture

Front feet of bush elephantAn Asian elephant walking

To support the animal's weight, an elephant's limbs are positioned more vertically under the body than in most other mammals. The long bones of the limbs have cancellous bones in place of medullary cavities. This strengthens the bones while still allowing haematopoiesis (blood cell creation). Both the front and hind limbs can support an elephant's weight, although 60% is borne by the front. The position of the limbs and leg bones allows an elephant to stand still for extended periods of time without tiring. Elephants are incapable of turning their manus as the ulna and radius of the front legs are secured in pronation. Elephants may also lack the pronator quadratus and pronator teres muscles or have very small ones. The circular feet of an elephant have soft tissues, or "cushion pads" beneath the manus or pes, which allow them to bear the animal's great mass. They appear to have a sesamoid, an extra "toe" similar in placement to a giant panda's extra "thumb", that also helps in weight distribution. As many as five toenails can be found on both the front and hind feet.

Elephants can move both forward and backward, but are incapable of trotting, jumping, or galloping. They can move on land only by walking or ambling: a faster gait similar to running. In walking, the legs act as pendulums, with the hips and shoulders moving up and down while the foot is planted on the ground. The fast gait does not meet all the criteria of running, since there is no point where all the feet are off the ground, although the elephant uses its legs much like other running animals, and can move faster by quickening its stride. Fast-moving elephants appear to 'run' with their front legs, but 'walk' with their hind legs and can reach a top speed of 25 km/h (16 mph). At this speed, most other quadrupeds are well into a gallop, even accounting for leg length. Spring-like kinetics could explain the difference between the motion of elephants and other animals. The cushion pads expand and contract, and reduce both the pain and noise that would come from a very heavy animal moving. Elephants are capable swimmers: they can swim for up to six hours while completely waterborne, moving at 2.1 km/h (1 mph) and traversing up to 48 km (30 mi) continuously.

Internal systems

The brain of an elephant weighs 4.5–5.5 kg (10–12 lb) compared to 1.6 kg (4 lb) for a human brain. It is the largest of all terrestrial mammals. While the elephant brain is larger overall, it is proportionally smaller than the human brain. At birth, an elephant's brain already weighs 30–40% of its adult weight. The cerebrum and cerebellum are well developed, and the temporal lobes are so large that they bulge out laterally. Their temporal lobes are proportionally larger than those of other animals, including humans. The throat of an elephant appears to contain a pouch where it can store water for later use. The larynx of the elephant is the largest known among mammals. The vocal folds are anchored close to the epiglottis base. When comparing an elephant's vocal folds to those of a human, an elephant's are proportionally longer, thicker, with a greater cross-sectional area. In addition, they are located further up the vocal tract with an acute slope.

African elephant heart in a jar

The heart of an elephant weighs 12–21 kg (26–46 lb). Its apex has two pointed ends, an unusual trait among mammals. In addition, the ventricles of the heart split towards the top, a trait also found in sirenians. When upright, the elephant's heart beats around 28 beats per minute and actually speeds up to 35 beats when it lies down. The blood vessels are thick and wide and can hold up under high blood pressure. The lungs are attached to the diaphragm, and breathing relies less on the expanding of the ribcage. Connective tissue exists in place of the pleural cavity. This may allow the animal to deal with the pressure differences when its body is underwater and its trunk is breaking the surface for air. Elephants breathe mostly with the trunk but also with the mouth. They have a hindgut fermentation system, and their large and small intestines together reach 35 m (115 ft) in length. Less than half of an elephant's food intake gets digested, despite the process lasting a day. An elephant's bladder can store up to 18 litres of urine and its kidneys can produce more than 50 litres of urine per day.

Sex characteristics

Asian elephant penis and vulva

A male elephant's testes, like other Afrotheria, are internally located near the kidneys. The penis can be as long as 100 cm (39 in) with a 16 cm (6 in) wide base. It curves to an 'S' when fully erect and has an orifice shaped like a Y. The vulva is found lower than in other herbivores, between the hind legs instead of under the tail and its clitoris may be 40 cm (16 in). Determining pregnancy status can be difficult due to the animal's large belly. The female's mammary glands occupy the space between the front legs, which puts the suckling calf within reach of the female's trunk. Elephants have a unique organ, the temporal gland, located on both sides of the head. This organ is associated with sexual behaviour, and males secrete a fluid from it when in musth. Females have also been observed with these secretions.

Behaviour and ecology

An Asian elephant feeding on grass in Sri LankaAn African bush elephant using its prehensile trunk for foraging

Elephants are herbivorous and will eat leaves, twigs, fruit, bark, grass, and roots. African elephants mostly browse, while Asian elephants mainly graze. They can eat as much as 300 kg (660 lb) of food and drink 40 L (11 US gal) of water in a day. Elephants tend to stay near water sources. They have morning, afternoon, and nighttime feeding sessions. At midday, elephants rest under trees and may doze off while standing. Sleeping occurs at night while the animal is lying down. Elephants average three to four hours of sleep per day. Both males and family groups typically move no more than 20 km (12 mi) a day, but distances as far as 180 km (112 mi) have been recorded in the Etosha region of Namibia. Elephants go on seasonal migrations in response to changes in environmental conditions. In northern Botswana, they travel 325 km (202 mi) to the Chobe River after the local waterholes dry up in late August.

Because of their large size, elephants have a huge impact on their environments and are considered keystone species. Their habit of uprooting trees and undergrowth can transform savannah into grasslands; smaller herbivores can access trees mowed down by elephants. When they dig for water during droughts, they create waterholes that can be used by other animals. When they use waterholes, they end up making them bigger. At Mount Elgon, elephants dig through caves and pave the way for ungulates, hyraxes, bats, birds, and insects. Elephants are important seed dispersers; African forest elephants consume and deposit many seeds over great distances, with either no effect or a positive effect on germination. In Asian forests, large seeds require giant herbivores like elephants and rhinoceros for transport and dispersal. This ecological niche cannot be filled by the smaller Malayan tapir. Because most of the food elephants eat goes undigested, their dung can provide food for other animals, such as dung beetles and monkeys. Elephants can have a negative impact on ecosystems. At Murchison Falls National Park in Uganda, elephant numbers have threatened several species of small birds that depend on woodlands. Their weight causes the soil to compress, leading to runoff and erosion.

Elephants typically coexist peacefully with other herbivores, which will usually stay out of their way. Some aggressive interactions between elephants and rhinoceros have been recorded. The size of adult elephants makes them nearly invulnerable to predators. Calves may be preyed on by lions, spotted hyenas, and wild dogs in Africa and tigers in Asia. The lions of Savuti, Botswana, have adapted to hunting elephants, targeting calves, juveniles or even sub-adults. There are rare reports of adult Asian elephants falling prey to tigers. Elephants tend to have high numbers of parasites, particularly nematodes, compared to many other mammals. This may be due to elephants being less vulnerable to predation; in other mammal species, individuals weakened by significant parasite loads are easily killed off by predators, removing them from the population.

Social organisation

A family of African bush elephants

Elephants are generally gregarious animals. African bush elephants in particular have a complex, stratified social structure. Female elephants spend their entire lives in tight-knit matrilineal family groups. They are led by the matriarch, who is often the eldest female. She remains leader of the group until death or if she no longer has the energy for the role; a study on zoo elephants found that the death of the matriarch led to greater stress in the surviving elephants. When her tenure is over, the matriarch's eldest daughter takes her place instead of her sister (if present). One study found that younger matriarchs take potential threats less seriously. Large family groups may split if they cannot be supported by local resources.

At Amboseli National Park, Kenya, female groups may consist of around ten members, including four adults and their dependent offspring. Here, a cow's life involves interaction with those outside her group. Two separate families may associate and bond with each other, forming what are known as bond groups. During the dry season, elephant families may aggregate into clans. These may number around nine groups, in which clans do not form strong bonds but defend their dry-season ranges against other clans. The Amboseli elephant population is further divided into the "central" and "peripheral" subpopulations.

Female Asian elephants tend to have more fluid social associations. In Sri Lanka, there appear to be stable family units or "herds" and larger, looser "groups". They have been observed to have "nursing units" and "juvenile-care units". In southern India, elephant populations may contain family groups, bond groups, and possibly clans. Family groups tend to be small, with only one or two adult females and their offspring. A group containing more than two cows and their offspring is known as a "joint family". Malay elephant populations have even smaller family units and do not reach levels above a bond group. Groups of African forest elephants typically consist of one cow with one to three offspring. These groups appear to interact with each other, especially at forest clearings.

Lone bull: Adult male elephants spend much of their time alone or in single-sex groups

Adult males live separate lives. As he matures, a bull associates more with outside males or even other families. At Amboseli, young males may be away from their families 80% of the time by 14–15 years of age. When males permanently leave, they either live alone or with other males. The former is typical of bulls in dense forests. A dominance hierarchy exists among males, whether they are social or solitary. Dominance depends on age, size, and sexual condition. Male elephants can be quite sociable when not competing for mates and form vast and fluid social networks. Older bulls act as the leaders of these groups. The presence of older males appears to subdue the aggression and "deviant" behaviour of younger ones. The largest all-male groups can reach close to 150 individuals. Adult males and females come together to breed. Bulls will accompany family groups if a cow is in oestrous.

Sexual behaviour

Musth

Main article: Musth
Indian elephant bull in musth

Adult males enter a state of increased testosterone known as musth. In a population in southern India, males first enter musth at 15 years old, but it is not very intense until they are older than 25. At Amboseli, no bulls under 24 were found to be in musth, while half of those aged 25–35 and all those over 35 were. In some areas, there may be seasonal influences on the timing of musths. The main characteristic of a bull's musth is a fluid discharged from the temporal gland that runs down the side of his face. Behaviours associated with musth include walking with a high and swinging head, nonsynchronous ear flapping, picking at the ground with the tusks, marking, rumbling, and urinating in the sheath. The length of this varies between males of different ages and conditions, lasting from days to months.

Males become extremely aggressive during musth. Size is the determining factor in agonistic encounters when the individuals have the same condition. In contests between musth and non-musth individuals, musth bulls win the majority of the time, even when the non-musth bull is larger. A male may stop showing signs of musth when he encounters a musth male of higher rank. Those of equal rank tend to avoid each other. Agonistic encounters typically consist of threat displays, chases, and minor sparring. Rarely do they full-on fight.

There is at least one documented case of infanticide among Asian elephants at Dong Yai Wildlife Sanctuary, with the researchers describing it as most likely normal behaviour among aggressive musth elephants.

Mating

African elephant bull mating with a member of a female group

Elephants are polygynous breeders, and most copulations occur during rainfall. An oestrous cow uses pheromones in her urine and vaginal secretions to signal her readiness to mate. A bull will follow a potential mate and assess her condition with the flehmen response, which requires him to collect a chemical sample with his trunk and taste it with the vomeronasal organ at the roof of the mouth. The oestrous cycle of a cow lasts 14–16 weeks, with the follicular phase lasting four to six weeks and the luteal phase lasting eight to ten weeks. While most mammals have one surge of luteinizing hormone during the follicular phase, elephants have two. The first (or anovulatory) surge, appears to change the female's scent, signaling to males that she is in heat, but ovulation does not occur until the second (or ovulatory) surge. Cows over 45–50 years of age are less fertile.

Bulls engage in a behaviour known as mate-guarding, where they follow oestrous females and defend them from other males. Most mate-guarding is done by musth males, and females seek them out, particularly older ones. Musth appears to signal to females the condition of the male, as weak or injured males do not have normal musths. For young females, the approach of an older bull can be intimidating, so her relatives stay nearby for comfort. During copulation, the male rests his trunk on the female. The penis is mobile enough to move without the pelvis. Before mounting, it curves forward and upward. Copulation lasts about 45 seconds and does not involve pelvic thrusting or an ejaculatory pause.

Homosexual behaviour has been observed in both sexes. As in heterosexual interactions, this involves mounting. Male elephants sometimes stimulate each other by playfighting, and "championships" may form between old bulls and younger males. Female same-sex behaviours have been documented only in captivity, where they engage in mutual masturbation with their trunks.

Birth and development

An African forest elephant mother with her calfAsian elephant calf suckling

Gestation in elephants typically lasts between one and a half and two years and the female will not give birth again for at least four years. The relatively long pregnancy is supported by several corpus luteums and gives the foetus more time to develop, particularly the brain and trunk. Births tend to take place during the wet season. Typically, only a single young is born, but twins sometimes occur. Calves are born roughly 85 cm (33 in) tall and with a weight of around 120 kg (260 lb). They are precocial and quickly stand and walk to follow their mother and family herd. A newborn calf will attract the attention of all the herd members. Adults and most of the other young will gather around the newborn, touching and caressing it with their trunks. For the first few days, the mother limits access to her young. Alloparenting – where a calf is cared for by someone other than its mother – takes place in some family groups. Allomothers are typically aged two to twelve years.

For the first few days, the newborn is unsteady on its feet and needs its mother's help. It relies on touch, smell, and hearing, as its eyesight is less developed. With little coordination in its trunk, it can only flop it around which may cause it to trip. When it reaches its second week, the calf can walk with more balance and has more control over its trunk. After its first month, the trunk can grab and hold objects but still lacks sucking abilities, and the calf must bend down to drink. It continues to stay near its mother as it is still reliant on her. For its first three months, a calf relies entirely on its mother's milk, after which it begins to forage for vegetation and can use its trunk to collect water. At the same time, there is progress in lip and leg movements. By nine months, mouth, trunk, and foot coordination are mastered. Suckling bouts tend to last 2–4 min/hr for a calf younger than a year. After a year, a calf is fully capable of grooming, drinking, and feeding itself. It still needs its mother's milk and protection until it is at least two years old. Suckling after two years may improve growth, health, and fertility.

Play behaviour in calves differs between the sexes; females run or chase each other while males play-fight. The former are sexually mature by the age of nine years while the latter become mature around 14–15 years. Adulthood starts at about 18 years of age in both sexes. Elephants have long lifespans, reaching 60–70 years of age. Lin Wang, a captive male Asian elephant, lived for 86 years.

Communication

Main article: Elephant communication Asian elephants greeting each other by inter-twining their trunksLow frequency rumble visualised with acoustic camera

Elephants communicate in various ways. Individuals greet one another by touching each other on the mouth, temporal glands, and genitals. This allows them to pick up chemical cues. Older elephants use trunk-slaps, kicks, and shoves to control younger ones. Touching is especially important for mother–calf communication. When moving, elephant mothers will touch their calves with their trunks or feet when side-by-side or with their tails if the calf is behind them. A calf will press against its mother's front legs to signal it wants to rest and will touch her breast or leg when it wants to suckle.

Visual displays mostly occur in agonistic situations. Elephants will try to appear more threatening by raising their heads and spreading their ears. They may add to the display by shaking their heads and snapping their ears, as well as tossing around dust and vegetation. They are usually bluffing when performing these actions. Excited elephants also raise their heads and spread their ears but additionally may raise their trunks. Submissive elephants will lower their heads and trunks, as well as flatten their ears against their necks, while those that are ready to fight will bend their ears in a V shape.

Elephants produce several vocalisations—some of which pass though the trunk—for both short and long range communication. This includes trumpeting, bellowing, roaring, growling, barking, snorting, and rumbling. Elephants can produce infrasonic rumbles. For Asian elephants, these calls have a frequency of 14–24 Hz, with sound pressure levels of 85–90 dB and last 10–15 seconds. For African elephants, calls range from 15 to 35 Hz with sound pressure levels as high as 117 dB, allowing communication for many kilometres, possibly over 10 km (6 mi). Elephants are known to communicate with seismics, vibrations produced by impacts on the earth's surface or acoustical waves that travel through it. An individual foot stomping or mock charging can create seismic signals that can be heard at travel distances of up to 32 km (20 mi). Seismic waveforms produced by rumbles travel 16 km (10 mi).

Intelligence and cognition

Main article: Elephant cognition
Elephant rolling a block to allow it to reach food

Elephants are among the most intelligent animals. They exhibit mirror self-recognition, an indication of self-awareness and cognition that has also been demonstrated in some apes and dolphins. One study of a captive female Asian elephant suggested the animal was capable of learning and distinguishing between several visual and some acoustic discrimination pairs. This individual was even able to score a high accuracy rating when re-tested with the same visual pairs a year later. Elephants are among the species known to use tools. An Asian elephant has been observed fine-tuning branches for use as flyswatters. Tool modification by these animals is not as advanced as that of chimpanzees. Elephants are popularly thought of as having an excellent memory. This could have a factual basis; they possibly have cognitive maps which give them long lasting memories of their environment on a wide scale. Individuals may be able to remember where their family members are located.

Scientists debate the extent to which elephants feel emotion. They are attracted to the bones of their own kind, regardless of whether they are related. As with chimpanzees and dolphins, a dying or dead elephant may elicit attention and aid from others, including those from other groups. This has been interpreted as expressing "concern"; however, the Oxford Companion to Animal Behaviour (1987) said that "one is well advised to study the behaviour rather than attempting to get at any underlying emotion".

Conservation

Status

See also: List of elephant species by population
A family of African forest elephants in the Dzanga-Sangha Special Reserve wetlands. This species is considered to be critically endangered.

African bush elephants were listed as Endangered by the International Union for Conservation of Nature (IUCN) in 2021, and African forest elephants were listed as Critically Endangered in the same year. In 1979, Africa had an estimated population of at least 1.3 million elephants, possibly as high as 3.0 million. A decade later, the population was estimated to be 609,000; with 277,000 in Central Africa, 110,000 in Eastern Africa, 204,000 in Southern Africa, and 19,000 in Western Africa. The population of rainforest elephants was lower than anticipated, at around 214,000 individuals. Between 1977 and 1989, elephant populations declined by 74% in East Africa. After 1987, losses in elephant numbers hastened, and savannah populations from Cameroon to Somalia experienced a decline of 80%. African forest elephants had a total loss of 43%. Population trends in southern Africa were various, with unconfirmed losses in Zambia, Mozambique and Angola while populations grew in Botswana and Zimbabwe and were stable in South Africa. The IUCN estimated that total population in Africa is estimated at to 415,000 individuals for both species combined as of 2016.

African elephants receive at least some legal protection in every country where they are found. Successful conservation efforts in certain areas have led to high population densities while failures have led to declines as high as 70% or more of the course of ten years. As of 2008, local numbers were controlled by contraception or translocation. Large-scale cullings stopped in the late 1980s and early 1990s. In 1989, the African elephant was listed under Appendix I by the Convention on International Trade in Endangered Species of Wild Fauna and Flora (CITES), making trade illegal. Appendix II status (which allows restricted trade) was given to elephants in Botswana, Namibia, and Zimbabwe in 1997 and South Africa in 2000. In some countries, sport hunting of the animals is legal; Botswana, Cameroon, Gabon, Mozambique, Namibia, South Africa, Tanzania, Zambia, and Zimbabwe have CITES export quotas for elephant trophies.

In 2020, the IUCN listed the Asian elephant as endangered due to the population declining by half over "the last three generations". Asian elephants once ranged from Western to East Asia and south to Sumatra. and Java. It is now extinct in these areas, and the current range of Asian elephants is highly fragmented. The total population of Asian elephants is estimated to be around 40,000–50,000, although this may be a loose estimate. Around 60% of the population is in India. Although Asian elephants are declining in numbers overall, particularly in Southeast Asia, the population in the Western Ghats may have stabilised.

Threats

See also: Elephant ivory and Elephant meat
Men with elephant tusks at Dar es Salaam, Tanzania, c. 1900

The poaching of elephants for their ivory, meat and hides has been one of the major threats to their existence. Historically, numerous cultures made ornaments and other works of art from elephant ivory, and its use was comparable to that of gold. The ivory trade contributed to the fall of the African elephant population in the late 20th century. This prompted international bans on ivory imports, starting with the United States in June 1989, and followed by bans in other North American countries, western European countries, and Japan. Around the same time, Kenya destroyed all its ivory stocks. Ivory was banned internationally by CITES in 1990. Following the bans, unemployment rose in India and China, where the ivory industry was important economically. By contrast, Japan and Hong Kong, which were also part of the industry, were able to adapt and were not as badly affected. Zimbabwe, Botswana, Namibia, Zambia, and Malawi wanted to continue the ivory trade and were allowed to, since their local populations were healthy, but only if their supplies were from culled individuals or those that died of natural causes.

The ban allowed the elephant to recover in parts of Africa. In February 2012, 650 elephants in Bouba Njida National Park, Cameroon, were slaughtered by Chadian raiders. This has been called "one of the worst concentrated killings" since the ivory ban. Asian elephants are potentially less vulnerable to the ivory trade, as females usually lack tusks. Still, members of the species have been killed for their ivory in some areas, such as Periyar National Park in India. China was the biggest market for poached ivory but announced they would phase out the legal domestic manufacture and sale of ivory products in May 2015, and in September 2015, China and the United States said "they would enact a nearly complete ban on the import and export of ivory" due to causes of extinction.

Other threats to elephants include habitat destruction and fragmentation. The Asian elephant lives in areas with some of the highest human populations and may be confined to small islands of forest among human-dominated landscapes. Elephants commonly trample and consume crops, which contributes to conflicts with humans, and both elephants and humans have died by the hundreds as a result. Mitigating these conflicts is important for conservation. One proposed solution is the protection of wildlife corridors which give populations greater interconnectivity and space. Chili pepper products as well as guarding with defense tools have been found to be effective in preventing crop-raiding by elephants. Less effective tactics include beehive and electric fences.

Human relations

Working animal

Further information: Captive elephants
Working elephant as transport

Elephants have been working animals since at least the Indus Valley civilization over 4,000 years ago and continue to be used in modern times. There were 13,000–16,500 working elephants employed in Asia in 2000. These animals are typically captured from the wild when they are 10–20 years old, the age range when they are both more trainable and can work for more years. They were traditionally captured with traps and lassos, but since 1950, tranquillisers have been used. Individuals of the Asian species have been often trained as working animals. Asian elephants are used to carry and pull both objects and people in and out of areas as well as lead people in religious celebrations. They are valued over mechanised tools as they can perform the same tasks but in more difficult terrain, with strength, memory, and delicacy. Elephants can learn over 30 commands. Musth bulls are difficult and dangerous to work with and so are chained up until their condition passes.

In India, many working elephants are alleged to have been subject to abuse. They and other captive elephants are thus protected under The Prevention of Cruelty to Animals Act of 1960. In both Myanmar and Thailand, deforestation and other economic factors have resulted in sizable populations of unemployed elephants resulting in health problems for the elephants themselves as well as economic and safety problems for the people amongst whom they live.

The practice of working elephants has also been attempted in Africa. The taming of African elephants in the Belgian Congo began by decree of Leopold II of Belgium during the 19th century and continues to the present with the Api Elephant Domestication Centre.

Warfare

Main article: War elephant See also: Execution by elephant
Battle of Zama by Henri-Paul Motte, 1890

Historically, elephants were considered formidable instruments of war. They were described in Sanskrit texts as far back as 1500 BC. From South Asia, the use of elephants in warfare spread west to Persia and east to Southeast Asia. The Persians used them during the Achaemenid Empire (between the 6th and 4th centuries BC) while Southeast Asian states first used war elephants possibly as early as the 5th century BC and continued to the 20th century. War elephants were also employed in the Mediterranean and North Africa throughout the classical period since the reign of Ptolemy II in Egypt. The Carthaginian general Hannibal famously took African elephants across the Alps during his war with the Romans and reached the Po Valley in 218 BC with all of them alive, but died of disease and combat a year later.

An elephant's head and sides were equipped with armour, the trunk may have had a sword tied to it and tusks were sometimes covered with sharpened iron or brass. Trained elephants would attack both humans and horses with their tusks. They might have grasped an enemy soldier with the trunk and tossed him to their mahout, or pinned the soldier to the ground and speared him. Some shortcomings of war elephants included their great visibility, which made them easy to target, and limited maneuverability compared to horses. Alexander the Great achieved victory over armies with war elephants by having his soldiers injure the trunks and legs of the animals which caused them to panic and become uncontrollable.

Zoos and circuses

Further information: Captive elephants
Circus poster, c. 1900

Elephants have traditionally been a major part of zoos and circuses around the world. In circuses, they are trained to perform tricks. The most famous circus elephant was probably Jumbo (1861 – 15 September 1885), who was a major attraction in the Barnum & Bailey Circus. These animals do not reproduce well in captivity due to the difficulty of handling musth bulls and limited understanding of female oestrous cycles. Asian elephants were always more common than their African counterparts in modern zoos and circuses. After CITES listed the Asian elephant under Appendix I in 1975, imports of the species almost stopped by the end of the 1980s. Subsequently, the US received many captive African elephants from Zimbabwe, which had an overabundance of the animals.

Keeping elephants in zoos has met with some controversy. Proponents of zoos argue that they allow easy access to the animals and provide fund and knowledge for preserving their natural habitats, as well as safekeeping for the species. Opponents claim that animals in zoos are under physical and mental stress. Elephants have been recorded displaying stereotypical behaviours in the form of wobbling the body or head and pacing the same route both forwards and backwards. This has been observed in 54% of individuals in UK zoos. Elephants in European zoos appear to have shorter lifespans than their wild counterparts at only 17 years, although other studies suggest that zoo elephants live just as long.

The use of elephants in circuses has also been controversial; the Humane Society of the United States has accused circuses of mistreating and distressing their animals. In testimony to a US federal court in 2009, Barnum & Bailey Circus CEO Kenneth Feld acknowledged that circus elephants are struck behind their ears, under their chins, and on their legs with metal-tipped prods, called bull hooks or ankus. Feld stated that these practices are necessary to protect circus workers and acknowledged that an elephant trainer was rebuked for using an electric prod on an elephant. Despite this, he denied that any of these practices hurt the animals. Some trainers have tried to train elephants without the use of physical punishment. Ralph Helfer is known to have relied on positive reinforcement when training his animals. Barnum and Bailey circus retired its touring elephants in May 2016.

Attacks

Elephants can exhibit bouts of aggressive behaviour and engage in destructive actions against humans. In Africa, groups of adolescent elephants damaged homes in villages after cullings in the 1970s and 1980s. Because of the timing, these attacks have been interpreted as vindictive. In parts of India, male elephants have entered villages at night, destroying homes and killing people. From 2000 to 2004, 300 people died in Jharkhand, and in Assam, 239 people were reportedly killed between 2001 and 2006. Throughout the country, 1,500 people were killed by elephants between 2019 and 2022, which led to 300 elephants being killed in kind. Local people have reported that some elephants were drunk during the attacks, though officials have disputed this. Purportedly drunk elephants attacked an Indian village in December 2002, killing six people, which led to the retaliatory slaughter of about 200 elephants by locals.

Cultural significance

Main article: Cultural depictions of elephants See also: Elephants in Kerala culture, List of elephants in mythology and religion, and List of fictional pachyderms

Elephants have a universal presence in global culture. They have been represented in art since Paleolithic times. Africa, in particular, contains many examples of elephant rock art, especially in the Sahara and southern Africa. In Asia, the animals are depicted as motifs in Hindu and Buddhist shrines and temples. Elephants were often difficult to portray by people with no first-hand experience of them. The ancient Romans, who kept the animals in captivity, depicted elephants more accurately than medieval Europeans who portrayed them more like fantasy creatures, with horse, bovine, and boar-like traits, and trumpet-like trunks. As Europeans gained more access to captive elephants during the 15th century, depictions of them became more accurate, including one made by Leonardo da Vinci.

Hindu god Ganesha

Elephants have been the subject of religious beliefs. The Mbuti people of central Africa believe that the souls of their dead ancestors resided in elephants. Similar ideas existed among other African societies, who believed that their chiefs would be reincarnated as elephants. During the 10th century AD, the people of Igbo-Ukwu, in modern-day Nigeria, placed elephant tusks underneath their dead leader's feet in the grave. The animals' importance is only totemic in Africa but is much more significant in Asia. In Sumatra, elephants have been associated with lightning. Likewise, in Hinduism, they are linked with thunderstorms as Airavata, the father of all elephants, represents both lightning and rainbows. One of the most important Hindu deities, the elephant-headed Ganesha, is ranked equal with the supreme gods Shiva, Vishnu, and Brahma in some traditions. Ganesha is associated with writers and merchants, and it is believed that he can give people success as well as grant them their desires, but could also take these things away. In Buddhism, Buddha is said to have taken the form of a white elephant when he entered his mother's womb to be reincarnated as a human.

In Western popular culture, elephants symbolise the exotic, especially since – as with the giraffe, hippopotamus, and rhinoceros – there are no similar animals familiar to Western audiences. As characters, elephants are most common in children's stories, where they are portrayed positively. They are typically surrogates for humans with ideal human values. Many stories tell of isolated young elephants returning to or finding a family, such as "The Elephant's Child" from Rudyard Kipling's Just So Stories, Disney's Dumbo, and Kathryn and Byron Jackson's The Saggy Baggy Elephant. Other elephant heroes given human qualities include Jean de Brunhoff's Babar, David McKee's Elmer, and Dr. Seuss's Horton.

Several cultural references emphasise the elephant's size and strangeness. For instance, a "white elephant" is a byword for something that is weird, unwanted, and has no value. The expression "elephant in the room" refers to something that is being ignored but ultimately must be addressed. The story of the blind men and an elephant involves blind men touching different parts of an elephant and trying to figure out what it is.

See also

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