Proboscidea: Difference between revisions

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'''Proboscidea''' ({{IPAc-en|ˌ|p|r|oʊ|b|ə|ˈ|s|ɪ|d|i|ə}};  {{etymology|la|{{wikt-lang|la|proboscis}}|}}, {{etymology|grc|''{{wikt-lang|grc|προβοσκίς}}'' ({{grc-transl|προβοσκίς}})|elephant's trunk}}) is a [[taxonomy (biology)|taxonomic]] [[order (biology)|order]] of [[afrotheria]]n mammals containing one living [[family (biology)|family]] ([[Elephantidae]]) and several extinct families. First described by [[Johann Karl Wilhelm Illiger|J. Illiger]] in 1811, it encompasses the [[elephant]]s and their close relatives.<ref>{{cite book |last=Illiger|first=Johann Karl Wilhelm |title=Prodromus Systematis Mammalium et Avium: Additis Terminis Zoographicis Utriusque Classis, Eorumque Versione Germanica |date=1811 |publisher=Berolini: Sumptibus C. Salfeld |page=62 |url=https://archive.org/details/caroliilligerida00illi}}</ref> Three living [[species]] of [[elephant]] are currently recognised: the [[African bush elephant]], the [[African forest elephant]], and the [[Asian elephant]].  
'''Proboscidea''' ({{IPAc-en|ˌ|p|r|oʊ|b|ə|ˈ|s|ɪ|d|i|ə}};  {{etymology|la|{{wikt-lang|la|proboscis}}|}}, {{etymology|grc|''{{wikt-lang|grc|προβοσκίς}}'' ({{grc-transl|προβοσκίς}})|elephant's trunk}}) is a [[taxonomy (biology)|taxonomic]] [[order (biology)|order]] of [[afrotheria]]n mammals containing one living [[family (biology)|family]] ([[Elephantidae]]) and several extinct families. First described by [[Johann Karl Wilhelm Illiger|J. Illiger]] in 1811, it encompasses the [[elephant]]s and their close relatives.<ref>{{cite book |last=Illiger|first=Johann Karl Wilhelm |title=Prodromus Systematis Mammalium et Avium: Additis Terminis Zoographicis Utriusque Classis, Eorumque Versione Germanica |date=1811 |publisher=Berolini: Sumptibus C. Salfeld |page=62 |url=https://archive.org/details/caroliilligerida00illi}}</ref> Three living [[species]] of [[elephant]] are currently recognised: the [[African bush elephant]], the [[African forest elephant]], and the [[Asian elephant]].


Extinct members of Proboscidea include the [[Deinotheriidae|deinotheres]], [[mastodon]]s, [[gomphothere]]s and [[stegodon]]ts. The family Elephantidae also contains several extinct groups, including [[mammoth]]s and ''[[Palaeoloxodon]]''. Proboscideans include some of the largest known land mammals, with the elephant ''[[Palaeoloxodon namadicus]]'' and mastodon ''[["Mammut" borsoni]]'' suggested to have body masses surpassing {{Convert|16|t|lb}}, rivalling or exceeding [[Paraceratheriidae|paraceratheres]] (the otherwise largest known land mammals) in size.<ref name="Larramendi, A. 2015" /> The largest extant proboscidean is the African bush elephant, with a world record of size of {{cvt|4|m|ft|1}} at the shoulder and {{cvt|10.4|MT|ST|1}}.<ref name="Larramendi, A. 2015" /> In addition to their enormous size, later proboscideans are distinguished by tusks and long, muscular trunks, which were less developed or absent in early proboscideans.
Extinct members of Proboscidea include the [[Deinotheriidae|deinotheres]], [[mastodon]]s, [[gomphothere]]s and [[stegodon]]ts. The family Elephantidae also contains several extinct groups, including [[mammoth]]s and ''[[Palaeoloxodon]]''. Proboscideans include some of the largest known land mammals, with the elephant ''[[Palaeoloxodon namadicus]]'' and mastodon ''[["Mammut" borsoni]]'' suggested to have body masses surpassing {{Convert|16|t|lb}}, rivalling or exceeding [[Paraceratheriidae|paraceratheres]] (the otherwise largest known land mammals) in size.<ref name="Larramendi, A. 2015" /> The largest extant proboscidean is the African bush elephant, with a world record of size of {{cvt|4|m|ft|1}} at the shoulder and {{cvt|10.4|MT|ST|1}}.<ref name="Larramendi, A. 2015" /> In addition to their enormous size, later proboscideans are distinguished by tusks and long, muscular trunks, which were less developed or absent in early proboscideans.
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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 Bering Land Bridge. Proboscidean groups prominent during the Miocene include the [[deinothere]]s, along with the more advanced [[Elephantimorpha|elephantimorphs]], including [[Mammutidae|mammutids]] (mastodons), [[gomphothere]]s, [[Amebelodontidae|amebelodontids]] (which includes the "shovel tuskers" like ''[[Platybelodon]]''), [[Choerolophodontidae|choerolophodontids]] and [[Stegodontidae|stegodontids]].<ref name=":2">{{Cite journal |last1=Cantalapiedra |first1=Juan L. |last2=Sanisidro |first2=Óscar |last3=Zhang |first3=Hanwen |last4=Alberdi |first4=María T. |last5=Prado |first5=José L. |last6=Blanco |first6=Fernando |last7=Saarinen |first7=Juha |date=2021-07-01 |title=The rise and fall of proboscidean ecological diversity |url=https://www.nature.com/articles/s41559-021-01498-w |journal=Nature Ecology & Evolution |language=en |volume=5 |issue=9 |pages=1266–1272 |doi=10.1038/s41559-021-01498-w |issn=2397-334X |pmid=34211141 |bibcode=2021NatEE...5.1266C |s2cid=235712060|hdl=10261/249360 |hdl-access=free }}</ref> Around 10 million years ago, the earliest members of the family [[Elephantidae]] emerged in Africa, having originated from gomphotheres.<ref>H. Saegusa, H. Nakaya, Y. Kunimatsu, M. Nakatsukasa, H. Tsujikawa, Y. Sawada, M. Saneyoshi, T. Sakai [https://apo.ansto.gov.au/dspace/bitstream/10238/9340/2/icmr_volume_low.pdf#page=188 Earliest elephantid remains from the late Miocene locality, Nakali, Kenya] Scientific Annals, School of Geology, Aristotle University of Thessaloniki, Greece VIth International Conference on Mammoths and Their Relatives, vol. 102, Grevena -Siatista, special volume (2014), p. 175</ref> The Late Miocene saw major climatic changes, which resulted in the decline and extinction of many proboscidean groups such as amebelodontids and choerolophodontids.<ref name=":2" /> The earliest members of modern genera of Elephantidae appeared during the latest Miocene-early Pliocene around 6-5 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 |language=en |volume=6 |issue=1 |pages=16 |doi=10.3390/quat6010016 |issn=2571-550X |doi-access=free|hdl=11573/1680082 |hdl-access=free }}</ref>
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 [[deinothere]]s, along with the more advanced [[Elephantimorpha|elephantimorphs]], including [[Mammutidae|mammutids]] (mastodons), [[gomphothere]]s, [[Amebelodontidae|amebelodontids]] (which includes the "shovel tuskers" like ''[[Platybelodon]]''), [[Choerolophodontidae|choerolophodontids]] and [[Stegodontidae|stegodontids]].<ref name=":2">{{Cite journal |last1=Cantalapiedra |first1=Juan L. |last2=Sanisidro |first2=Óscar |last3=Zhang |first3=Hanwen |last4=Alberdi |first4=María T. |last5=Prado |first5=José L. |last6=Blanco |first6=Fernando |last7=Saarinen |first7=Juha |date=2021-07-01 |title=The rise and fall of proboscidean ecological diversity |url=https://www.nature.com/articles/s41559-021-01498-w |journal=Nature Ecology & Evolution |language=en |volume=5 |issue=9 |pages=1266–1272 |doi=10.1038/s41559-021-01498-w |issn=2397-334X |pmid=34211141 |bibcode=2021NatEE...5.1266C |s2cid=235712060|hdl=10261/249360 |hdl-access=free }}</ref> Around 10 million years ago, the earliest members of the family [[Elephantidae]] emerged in Africa, having originated from gomphotheres.<ref>H. Saegusa, H. Nakaya, Y. Kunimatsu, M. Nakatsukasa, H. Tsujikawa, Y. Sawada, M. Saneyoshi, T. Sakai [https://apo.ansto.gov.au/dspace/bitstream/10238/9340/2/icmr_volume_low.pdf#page=188 Earliest elephantid remains from the late Miocene locality, Nakali, Kenya] Scientific Annals, School of Geology, Aristotle University of Thessaloniki, Greece VIth International Conference on Mammoths and Their Relatives, vol. 102, Grevena -Siatista, special volume (2014), p. 175</ref> The Late Miocene saw major climatic changes, which resulted in the decline and extinction of many proboscidean groups such as amebelodontids and choerolophodontids.<ref name=":2" /> The earliest members of modern genera of Elephantidae appeared during the latest Miocene-early Pliocene around 6-5 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 |language=en |volume=6 |issue=1 |pages=16 |doi=10.3390/quat6010016 |issn=2571-550X |doi-access=free|hdl=11573/1680082 |hdl-access=free }}</ref>


Over the course of the [[Early Pleistocene]], all non-elephantid probobscideans outside of the Americas became extinct (including mammutids, gomphotheres and deinotheres), with the exception of ''[[Stegodon]]''.<ref name=":2" />  Gomphotheres dispersed into South America during this era as part of the [[Great American interchange]],<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=2015-11-13 |title=Evolution and dispersal of mammoths across the Northern Hemisphere |journal=Science |language=en |volume=350 |issue=6262 |pages=805–809 |bibcode=2015Sci...350..805L |doi=10.1126/science.aac5660 |issn=0036-8075 |pmid=26564853 |s2cid=206639522}}</ref> 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.<ref name=":0">{{Citation |last=Lister |first=Adrian M. |title=Ecological Interactions of Elephantids in Pleistocene Eurasia |date=2004 |url=https://www.researchgate.net/publication/264788794 |work=Human Paleoecology in the Levantine Corridor |pages=53–60 |access-date=2020-04-14 |publisher=Oxbow Books |isbn=978-1-78570-965-4}}</ref> By the beginning of the [[Late Pleistocene]], proboscideans were represented by around 23 species. Proboscideans underwent a dramatic decline during the Late Pleistocene as part of the [[Late Pleistocene extinctions|Late Pleistocene megafauna extinctions]], with all remaining non-elephantid proboscideans (including ''Stegodon'', [[mastodon]]s, and the American gomphotheres ''[[Cuvieronius]]'' and ''[[Notiomastodon]]'') and ''[[Palaeoloxodon]]'' becoming extinct, with mammoths only surviving in [[Relict (biology)|relict]] populations on islands around the [[Bering Strait]] into the Holocene, with their latest survival being on [[Wrangel Island]] around 4,000 years ago.<ref name=":2" /><ref>{{Cite journal |last1=Rogers |first1=Rebekah L. |last2=Slatkin |first2=Montgomery |date=2017-03-02 |editor-last=Barsh |editor-first=Gregory S. |title=Excess of genomic defects in a woolly mammoth on Wrangel island |journal=PLOS Genetics |language=en |volume=13 |issue=3 |pages=e1006601 |doi=10.1371/journal.pgen.1006601 |issn=1553-7404 |pmc=5333797 |pmid=28253255 |doi-access=free }}</ref>
Over the course of the [[Early Pleistocene]], all non-elephantid probobscideans outside of the Americas became extinct (including mammutids, gomphotheres and deinotheres), with the exception of ''[[Stegodon]]''.<ref name=":2" />  Gomphotheres dispersed into South America during this era as part of the [[Great American interchange]],<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=2015-11-13 |title=Evolution and dispersal of mammoths across the Northern Hemisphere |journal=Science |language=en |volume=350 |issue=6262 |pages=805–809 |bibcode=2015Sci...350..805L |doi=10.1126/science.aac5660 |issn=0036-8075 |pmid=26564853 |s2cid=206639522|doi-access=free }}</ref> 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.<ref name=":0">{{Citation |last=Lister |first=Adrian M. |title=Ecological Interactions of Elephantids in Pleistocene Eurasia |date=2004 |url=https://www.researchgate.net/publication/264788794 |work=Human Paleoecology in the Levantine Corridor |pages=53–60 |access-date=2020-04-14 |publisher=Oxbow Books |isbn=978-1-78570-965-4}}</ref> By the beginning of the [[Late Pleistocene]], proboscideans were represented by around 23 species. Proboscideans underwent a dramatic decline during the Late Pleistocene as part of the [[Late Pleistocene extinctions|Late Pleistocene megafauna extinctions]], with all remaining non-elephantid proboscideans (including ''Stegodon'', [[mastodon]]s, and the American gomphotheres ''[[Cuvieronius]]'' and ''[[Notiomastodon]]'') and ''[[Palaeoloxodon]]'' becoming extinct, with mammoths only surviving in [[Relict (biology)|relict]] populations on islands around the [[Bering Strait]] into the Holocene, with their latest survival being on [[Wrangel Island]] around 4,000 years ago.<ref name=":2" /><ref>{{Cite journal |last1=Rogers |first1=Rebekah L. |last2=Slatkin |first2=Montgomery |date=2017-03-02 |editor-last=Barsh |editor-first=Gregory S. |title=Excess of genomic defects in a woolly mammoth on Wrangel island |journal=PLOS Genetics |language=en |volume=13 |issue=3 |pages=e1006601 |doi=10.1371/journal.pgen.1006601 |issn=1553-7404 |pmc=5333797 |pmid=28253255 |doi-access=free }}</ref>


The following cladogram is based on endocasts.<ref>{{Citation |last1=Benoit |first1=Julien |title=Paleoneurology of the Proboscidea (Mammalia, Afrotheria): Insights from Their Brain Endocast and Labyrinth |date=2023 |url=https://link.springer.com/10.1007/978-3-031-13983-3_15 |work=Paleoneurology of Amniotes |pages=579–644 |editor-last=Dozo |editor-first=María Teresa |access-date=2023-05-22 |place=Cham |publisher=Springer International Publishing |language=en |doi=10.1007/978-3-031-13983-3_15 |isbn=978-3-031-13982-6 |last2=Lyras |first2=George A. |last3=Schmitt |first3=Arnaud |last4=Nxumalo |first4=Mpilo |last5=Tabuce |first5=Rodolphe |last6=Obada |first6=Teodor |last7=Mararsecul |first7=Vladislav |last8=Manger |first8=Paul |editor2-last=Paulina-Carabajal |editor2-first=Ariana |editor3-last=Macrini |editor3-first=Thomas E. |editor4-last=Walsh |editor4-first=Stig|url-access=subscription }}</ref>
The following cladogram is based on endocasts.<ref>{{Citation |last1=Benoit |first1=Julien |title=Paleoneurology of the Proboscidea (Mammalia, Afrotheria): Insights from Their Brain Endocast and Labyrinth |date=2023 |url=https://link.springer.com/10.1007/978-3-031-13983-3_15 |work=Paleoneurology of Amniotes |pages=579–644 |editor-last=Dozo |editor-first=María Teresa |access-date=2023-05-22 |place=Cham |publisher=Springer International Publishing |language=en |doi=10.1007/978-3-031-13983-3_15 |isbn=978-3-031-13982-6 |last2=Lyras |first2=George A. |last3=Schmitt |first3=Arnaud |last4=Nxumalo |first4=Mpilo |last5=Tabuce |first5=Rodolphe |last6=Obada |first6=Teodor |last7=Mararsecul |first7=Vladislav |last8=Manger |first8=Paul |editor2-last=Paulina-Carabajal |editor2-first=Ariana |editor3-last=Macrini |editor3-first=Thomas E. |editor4-last=Walsh |editor4-first=Stig|url-access=subscription }}</ref>
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                             |label2="mastodonts"          |top2=46%
                             |label2="mastodonts"          |top2=46%
                             }}
                             }}
|label1=[[Proboscidea]]
|label1=Proboscidea
|1={{clade
|1={{clade
   |1=''[[Phosphatherium esculliei]]''  [[File:Phosphatherium - head restoration.tif|50px]]  |bar1=green
   |1=''[[Phosphatherium esculliei]]''  [[File:Phosphatherium - head restoration.tif|50px]]  |bar1=green
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{{gallery|Moeritherium lyonsi size comparison.png|Skeleton of the primitive proboscidean ''[[Moeritherium lyonsi]]''|Deinotherium skeletals alternate.png|Skeletons of ''[[Deinotherium]]'' ([[Deinotheriidae]])|Gomphotherium_skeletals.png|Skeletons of two species of the [[gomphothere]] ''[[Gomphotherium]]''|Stegodon_skeletal.png|Skeleton of ''[[Stegodon zdanskyi]]'' ([[Stegodontidae]])|Warren_mastodon_size_comparison.jpg|Skeleton of the [[American mastodon]], ''Mammut americanum'' ([[Mammutidae]])|||width=185|height=|lines=|align=center|title=Gallery of Proboscidean skeletons}}
{{gallery|Moeritherium lyonsi size comparison.png|Skeleton of the primitive proboscidean ''[[Moeritherium lyonsi]]''|Deinotherium skeletals alternate.png|Skeletons of ''[[Deinotherium]]'' ([[Deinotheriidae]])|Gomphotherium_skeletals.png|Skeletons of two species of the [[gomphothere]] ''[[Gomphotherium]]''|Stegodon_skeletal.png|Skeleton of ''[[Stegodon zdanskyi]]'' ([[Stegodontidae]])|Warren_mastodon_size_comparison.jpg|Skeleton of the [[American mastodon]], ''Mammut americanum'' ([[Mammutidae]])|||width=185|height=|lines=|align=center|title=Gallery of Proboscidean skeletons}}


Over the course of their evolution, proboscideans experienced a significant increase in body size. Some members of the families [[Deinotheriidae]], [[Mammutidae]], [[Stegodontidae]] and [[Elephantidae]] are thought to have exceeded modern elephants in size, with shoulder heights over {{Convert|4|m|ft}} and masses over {{Convert|10|tonne|lb}}, with average fully grown males of the mammutid ''[["Mammut" borsoni]]'' having an estimated body mass of {{Convert|16|tonne|lb}}, making it one the largest and perhaps the largest land mammal ever, with a fragmentary specimen of the Indian elephant species ''[[Palaeoloxodon namadicus]]'' only known from a partial femur being speculatively estimated in the same study to have possibly reached a body mass of {{Convert|22|tonne|lb}}.<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> As with other [[megaherbivore]]s, including the extinct [[Sauropoda|sauropod]] dinosaurs, the large size of proboscideans likely developed to allow them to survive on vegetation with low nutritional value.<ref>{{cite book |author=Carpenter, K. |title=Paleontology and Geology of the Upper Jurassic Morrison Formation |publisher=New Mexico Museum of Natural History and Science |year=2006 |editor=Foster, J.R. |series=New Mexico Museum of Natural History and Science Bulletin |volume=36 |pages=131–138 |chapter=Biggest of the big: a critical re-evaluation of the mega-sauropod ''Amphicoelias fragillimus'' Cope, 1878 |editor2=Lucas, S.G.}}</ref> Their limbs grew longer and the feet shorter and broader.<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=480–87 |doi=10.1016/S0169-5347(98)01491-8 |pmid=21238404|bibcode=1998TEcoE..13..480S }}</ref> The feet were originally [[plantigrade]] and developed into a [[digitigrade]] stance with cushion pads and the [[sesamoid bone]] providing support, with this change developing around the common ancestor of [[Deinotheriidae]] and [[Elephantiformes]].<ref>{{cite journal |author1=Hutchinson, J. R. |author2=Delmer, C. |author3=Miller, C. E. |author4=Hildebrandt, T. |author5=Pitsillides, A. A. |author6=Boyde, A. |year=2011 |title=From flat foot to fat foot: structure, ontogeny, function, and evolution of elephant 'sixth toes' |url=https://researchonline.rvc.ac.uk/id/eprint/5612/1/5612.pdf |url-status=live |journal=Science |volume=334 |issue=6063 |pages=1699–1703 |bibcode=2011Sci...334R1699H |doi=10.1126/science.1211437 |pmid=22194576 |s2cid=206536505 |archive-url=https://web.archive.org/web/20230321084756/https://rvc-repository.worktribe.com |archive-date=21 March 2023 |access-date=3 January 2023}}</ref> Members of [[Elephantiformes]] and Deinotheriidae have retracted nasal regions of the skull indicating the development of a trunk.<ref>{{Cite book |last=Sanders |first=William J. |url=https://www.taylorfrancis.com/books/9781315118918 |title=Evolution and Fossil Record of African Proboscidea |date=2023-07-07 |publisher=CRC Press |isbn=978-1-315-11891-8 |edition=1 |location=Boca Raton |pages=79 |language=en |doi=10.1201/b20016}}</ref><ref name=":3">{{Cite journal |last=Nabavizadeh |first=Ali |date=2024-10-08 |title=Of tusks and trunks: A review of craniofacial evolutionary anatomy in elephants and extinct Proboscidea |url=https://anatomypubs.onlinelibrary.wiley.com/doi/10.1002/ar.25578 |journal=The Anatomical Record |language=en |doi=10.1002/ar.25578 |issn=1932-8486|url-access=subscription }}</ref>  
Over the course of their evolution, proboscideans experienced a significant increase in body size. Some members of the families [[Deinotheriidae]], [[Mammutidae]], [[Stegodontidae]] and [[Elephantidae]] are thought to have exceeded modern elephants in size, with shoulder heights over {{Convert|4|m|ft}} and masses over {{Convert|10|tonne|lb}}, with average fully grown males of the mammutid ''[["Mammut" borsoni]]'' having an estimated body mass of {{Convert|16|tonne|lb}}, making it one the largest and perhaps the largest land mammal ever, with a fragmentary specimen of the Indian elephant species ''[[Palaeoloxodon namadicus]]'' only known from a partial femur being speculatively estimated in the same study to have possibly reached a body mass of {{Convert|22|tonne|lb}}.<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> As with other [[megaherbivore]]s, including the extinct [[Sauropoda|sauropod]] dinosaurs, the large size of proboscideans likely developed to allow them to survive on vegetation with low nutritional value.<ref>{{cite book |author=Carpenter, K. |title=Paleontology and Geology of the Upper Jurassic Morrison Formation |publisher=New Mexico Museum of Natural History and Science |year=2006 |editor=Foster, J.R. |series=New Mexico Museum of Natural History and Science Bulletin |volume=36 |pages=131–138 |chapter=Biggest of the big: a critical re-evaluation of the mega-sauropod ''Amphicoelias fragillimus'' Cope, 1878 |editor2=Lucas, S.G.}}</ref> Their limbs grew longer and the feet shorter and broader.<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=480–87 |doi=10.1016/S0169-5347(98)01491-8 |pmid=21238404|bibcode=1998TEcoE..13..480S }}</ref> The feet were originally [[plantigrade]] and developed into a [[digitigrade]] stance with cushion pads and the [[sesamoid bone]] providing support, with this change developing around the common ancestor of [[Deinotheriidae]] and [[Elephantiformes]].<ref>{{cite journal |author1=Hutchinson, J. R. |author2=Delmer, C. |author3=Miller, C. E. |author4=Hildebrandt, T. |author5=Pitsillides, A. A. |author6=Boyde, A. |year=2011 |title=From flat foot to fat foot: structure, ontogeny, function, and evolution of elephant 'sixth toes' |url=https://researchonline.rvc.ac.uk/id/eprint/5612/1/5612.pdf |url-status=live |journal=Science |volume=334 |issue=6063 |pages=1699–1703 |bibcode=2011Sci...334R1699H |doi=10.1126/science.1211437 |pmid=22194576 |s2cid=206536505 |archive-url=https://web.archive.org/web/20230321084756/https://rvc-repository.worktribe.com |archive-date=21 March 2023 |access-date=3 January 2023}}</ref> Members of [[Elephantiformes]] and Deinotheriidae have retracted nasal regions of the skull indicating the development of a trunk.<ref>{{Cite book |last=Sanders |first=William J. |url=https://www.taylorfrancis.com/books/9781315118918 |title=Evolution and Fossil Record of African Proboscidea |date=2023-07-07 |publisher=CRC Press |isbn=978-1-315-11891-8 |edition=1 |location=Boca Raton |pages=79 |language=en |doi=10.1201/b20016}}</ref><ref name=":3">{{Cite journal |last=Nabavizadeh |first=Ali |date=2024-10-08 |title=Of tusks and trunks: A review of craniofacial evolutionary anatomy in elephants and extinct Proboscidea |url=https://anatomypubs.onlinelibrary.wiley.com/doi/10.1002/ar.25578 |journal=The Anatomical Record |language=en |doi=10.1002/ar.25578 |issn=1932-8486|url-access=subscription }}</ref>


The skull grew larger, especially the cranium, while the neck shortened to provide better support for the skull. The increase in size led to the development and elongation of the mobile trunk to provide reach. The number of [[premolar]]s, incisors and [[Canine tooth|canines]] decreased. The cheek teeth (molars and premolars) became larger and more specialised.<ref name="evolution" /> In Elephantiformes, the second upper incisor and lower incisor were transformed into ever growing [[tusk]]s on the upper and lower jaws,<ref>{{Cite journal |last=Ferretti |first=Marco P. |date=March 2008 |title=Enamel Structure of Cuvieronius hyodon (Proboscidea, Gomphotheriidae) with a Discussion on Enamel Evolution in Elephantoids |url=http://link.springer.com/10.1007/s10914-007-9057-3 |journal=Journal of Mammalian Evolution |language=en |volume=15 |issue=1 |pages=37–58 |doi=10.1007/s10914-007-9057-3 |s2cid=21216371 |issn=1064-7554}}</ref><ref>{{Cite journal |last=Delmer |first=Cyrille |date=December 2009 |title=Reassessment of the Generic Attribution of Numidotherium savagei and the Homologies of Lower Incisors in Proboscideans |url=http://www.app.pan.pl/article/item/app20070036.html |journal=Acta Palaeontologica Polonica |language=en |volume=54 |issue=4 |pages=561–580 |doi=10.4202/app.2007.0036 |s2cid=55095894 |issn=0567-7920|doi-access=free }}</ref> while in Deinotheriidae there are only tusks on the lower jaw.<ref name=":3" /> The tusks are proportionally heavy for their size, being primarily composed of [[dentine]]. In primitive proboscideans, a band of enamel covers part of the tusk surface, though in many later groups including modern elephants the band is lost, with elephants only having enamel on the tusk tips of juveniles. The upper tusks were initially modest in size, but from the Late Miocene onwards proboscideans developed increasingly large tusks, with the longest ever recorded tusk being {{Convert|5.02|m|ft}} long belonging to the mammutid ''[["Mammut" borsoni]]'' found in Greece, with some mammoth tusks likely weighing over {{Convert|200|kg|lb}}. The lower tusks are generally smaller than the upper tusks, but could grow to large sizes in some species, like in ''[[Deinotherium]]'' (which lacks upper tusks), where they could grow over {{Convert|1.5|m|ft}} long, the [[Amebelodontidae|amebelodontid]] ''[[Konobelodon]]'' has lower tusks {{Convert|1.61|m|ft}} long, with the longest lower tusks ever recorded being from the primitive elephantid ''[[Stegotetrabelodon]]'' which are around {{Convert|2.2|m|ft}} long.<ref>{{Cite journal |last=Larramendi |first=Asier |date=2023-12-10 |title=Estimating tusk masses in proboscideans: a comprehensive analysis and predictive model |url=https://www.tandfonline.com/doi/full/10.1080/08912963.2023.2286272 |journal=Historical Biology |language=en |pages=1–14 |doi=10.1080/08912963.2023.2286272 |issn=0891-2963|url-access=subscription }}</ref>  
The skull grew larger, especially the cranium, while the neck shortened to provide better support for the skull. The increase in size led to the development and elongation of the mobile trunk to provide reach. The number of [[premolar]]s, incisors and [[Canine tooth|canines]] decreased. The cheek teeth (molars and premolars) became larger and more specialised.<ref name="evolution" /> In Elephantiformes, the second upper incisor and lower incisor were transformed into ever growing [[tusk]]s on the upper and lower jaws,<ref>{{Cite journal |last=Ferretti |first=Marco P. |date=March 2008 |title=Enamel Structure of Cuvieronius hyodon (Proboscidea, Gomphotheriidae) with a Discussion on Enamel Evolution in Elephantoids |url=http://link.springer.com/10.1007/s10914-007-9057-3 |journal=Journal of Mammalian Evolution |language=en |volume=15 |issue=1 |pages=37–58 |doi=10.1007/s10914-007-9057-3 |s2cid=21216371 |issn=1064-7554}}</ref><ref>{{Cite journal |last=Delmer |first=Cyrille |date=December 2009 |title=Reassessment of the Generic Attribution of Numidotherium savagei and the Homologies of Lower Incisors in Proboscideans |url=http://www.app.pan.pl/article/item/app20070036.html |journal=Acta Palaeontologica Polonica |language=en |volume=54 |issue=4 |pages=561–580 |doi=10.4202/app.2007.0036 |s2cid=55095894 |issn=0567-7920|doi-access=free }}</ref> while in Deinotheriidae there are only tusks on the lower jaw.<ref name=":3" /> The tusks are proportionally heavy for their size, being primarily composed of [[dentine]]. In primitive proboscideans, a band of enamel covers part of the tusk surface, though in many later groups including modern elephants the band is lost, with elephants only having enamel on the tusk tips of juveniles. The upper tusks were initially modest in size, but from the Late Miocene onwards proboscideans developed increasingly large tusks, with the longest ever recorded tusk being {{Convert|5.02|m|ft}} long belonging to the mammutid ''[["Mammut" borsoni]]'' found in Greece, with some mammoth tusks likely weighing over {{Convert|200|kg|lb}}. The lower tusks are generally smaller than the upper tusks, but could grow to large sizes in some species, like in ''[[Deinotherium]]'' (which lacks upper tusks), where they could grow over {{Convert|1.5|m|ft}} long, the [[Amebelodontidae|amebelodontid]] ''[[Konobelodon]]'' has lower tusks {{Convert|1.61|m|ft}} long, with the longest lower tusks ever recorded being from the primitive elephantid ''[[Stegotetrabelodon]]'' which are around {{Convert|2.2|m|ft}} long.<ref>{{Cite journal |last=Larramendi |first=Asier |date=2023-12-10 |title=Estimating tusk masses in proboscideans: a comprehensive analysis and predictive model |url=https://www.tandfonline.com/doi/full/10.1080/08912963.2023.2286272 |journal=Historical Biology |language=en |pages=1–14 |doi=10.1080/08912963.2023.2286272 |issn=0891-2963|url-access=subscription }}</ref>


The molar teeth changed from being replaced vertically as in other mammals to being replaced horizontally in the clade [[Elephantimorpha]].<ref>{{Cite journal |last=Sanders |first=William J. |date=2018-02-17 |title=Horizontal tooth displacement and premolar occurrence in elephants and other elephantiform proboscideans |url=https://www.tandfonline.com/doi/full/10.1080/08912963.2017.1297436 |journal=Historical Biology |language=en |volume=30 |issue=1–2 |pages=137–156 |doi=10.1080/08912963.2017.1297436 |bibcode=2018HBio...30..137S |s2cid=89904463 |issn=0891-2963|url-access=subscription }}</ref>  While early Elephantimorpha generally had lower jaws with an elongated [[mandibular symphysis]] at the front of the jaw with well developed lower tusks/incisors, from the Late Miocene onwards, many groups convergently developed brevirostrine (shortened) lower jaws with vestigial or no lower tusks.<ref>{{cite journal |last1=Mothé |first1=Dimila |last2=Ferretti |first2=Marco P. |last3=Avilla |first3=Leonardo S. |date=12 January 2016 |title=The Dance of Tusks: Rediscovery of Lower Incisors in the Pan-American Proboscidean Cuvieronius hyodon Revises Incisor Evolution in Elephantimorpha |journal=PLOS ONE |volume=11 |issue=1 |page=e0147009 |bibcode=2016PLoSO..1147009M |doi=10.1371/journal.pone.0147009 |pmc=4710528 |pmid=26756209 |doi-access=free}}</ref><ref>{{Cite report |url=http://biorxiv.org/lookup/doi/10.1101/2023.08.15.553347 |title=Longer mandible or nose? Co-evolution of feeding organs in early elephantiforms |last1=Li |first1=Chunxiao |last2=Deng |first2=Tao |date=2023-08-16 |publisher=Paleontology |doi=10.1101/2023.08.15.553347 |language=en |last3=Wang |first3=Yang |last4=Sun |first4=Fajun |last5=Wolff |first5=Burt |last6=Jiangzuo |first6=Qigao |last7=Ma |first7=Jiao |last8=Xing |first8=Luda |last9=Fu |first9=Jiao}}</ref> Elephantids are distinguished from other 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=Adrian M. |date=2013-06-26 |title=The role of behaviour in adaptive morphological evolution of African proboscideans |url=http://dx.doi.org/10.1038/nature12275 |journal=Nature |volume=500 |issue=7462 |pages=331–334 |bibcode=2013Natur.500..331L |doi=10.1038/nature12275 |issn=0028-0836 |pmid=23803767 |s2cid=883007|url-access=subscription }}</ref>  
The molar teeth changed from being replaced vertically as in other mammals to being replaced horizontally in the clade [[Elephantimorpha]].<ref>{{Cite journal |last=Sanders |first=William J. |date=2018-02-17 |title=Horizontal tooth displacement and premolar occurrence in elephants and other elephantiform proboscideans |url=https://www.tandfonline.com/doi/full/10.1080/08912963.2017.1297436 |journal=Historical Biology |language=en |volume=30 |issue=1–2 |pages=137–156 |doi=10.1080/08912963.2017.1297436 |bibcode=2018HBio...30..137S |s2cid=89904463 |issn=0891-2963|url-access=subscription }}</ref>  While early Elephantimorpha generally had lower jaws with an elongated [[mandibular symphysis]] at the front of the jaw with well developed lower tusks/incisors, from the Late Miocene onwards, many groups convergently developed brevirostrine (shortened) lower jaws with vestigial or no lower tusks.<ref>{{cite journal |last1=Mothé |first1=Dimila |last2=Ferretti |first2=Marco P. |last3=Avilla |first3=Leonardo S. |date=12 January 2016 |title=The Dance of Tusks: Rediscovery of Lower Incisors in the Pan-American Proboscidean Cuvieronius hyodon Revises Incisor Evolution in Elephantimorpha |journal=PLOS ONE |volume=11 |issue=1 |page=e0147009 |bibcode=2016PLoSO..1147009M |doi=10.1371/journal.pone.0147009 |pmc=4710528 |pmid=26756209 |doi-access=free}}</ref><ref>{{Cite report |url=http://biorxiv.org/lookup/doi/10.1101/2023.08.15.553347 |title=Longer mandible or nose? Co-evolution of feeding organs in early elephantiforms |last1=Li |first1=Chunxiao |last2=Deng |first2=Tao |date=2023-08-16 |publisher=Paleontology |doi=10.1101/2023.08.15.553347 |language=en |last3=Wang |first3=Yang |last4=Sun |first4=Fajun |last5=Wolff |first5=Burt |last6=Jiangzuo |first6=Qigao |last7=Ma |first7=Jiao |last8=Xing |first8=Luda |last9=Fu |first9=Jiao|doi-access=free }}</ref> Elephantids are distinguished from other 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=Adrian M. |date=2013-06-26 |title=The role of behaviour in adaptive morphological evolution of African proboscideans |url=http://dx.doi.org/10.1038/nature12275 |journal=Nature |volume=500 |issue=7462 |pages=331–334 |bibcode=2013Natur.500..331L |doi=10.1038/nature12275 |issn=0028-0836 |pmid=23803767 |s2cid=883007|url-access=subscription }}</ref>


=== Dwarfism ===
=== Dwarfism ===
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* {{citation | first = Ronald M. | last = Nowak | title = Walker's Mammals of the World | isbn = 978-0-8018-5789-8 | year = 1999 | publisher = Johns Hopkins University Press | location = Baltimore | edition = 6th | lccn = 98023686 | language = en <!--| GBS-id = T37sFCl43E8C | Ltwork = 257350 -->}}
* {{citation | first = Ronald M. | last = Nowak | title = Walker's Mammals of the World | isbn = 978-0-8018-5789-8 | year = 1999 | publisher = Johns Hopkins University Press | location = Baltimore | edition = 6th | lccn = 98023686 | language = en <!--| GBS-id = T37sFCl43E8C | Ltwork = 257350 -->}}
* {{citation | last = Haynes | first = Gary | title = Mammoths, Mastodonts, and Elephants: Biology, Behavior and the Fossil Record | publisher = Cambridge University Press | date = 1993 | url = https://books.google.com/books?id=PRrZ-TK91LMC | language = en | edition = 2nd | isbn = 9780521456913}}
* {{citation | last = Haynes | first = Gary | title = Mammoths, Mastodonts, and Elephants: Biology, Behavior and the Fossil Record | publisher = Cambridge University Press | date = 1993 | url = https://books.google.com/books?id=PRrZ-TK91LMC | language = en | edition = 2nd | isbn = 9780521456913}}
* {{cite book |author=Sukumar, R. |url=https://archive.org/details/livingelephantse00suku_0 |title=The Living Elephants: Evolutionary Ecology, Behaviour, and Conservation |date=11 September 2003 |publisher=Oxford University Press, USA |isbn=978-0-19-510778-4 |oclc=935260783 |url-access=registration}}
* {{cite book |author=Sukumar, R. |url=https://archive.org/details/livingelephantse00suku_0 |title=The Living Elephants: Evolutionary Ecology, Behaviour, and Conservation |date=11 September 2003 |publisher=Oxford University Press, USA |isbn=978-0-19-510778-4 |oclc=935260783 |url-access=registration}}
{{Wikispecies|Proboscidea}}{{Commons category|Proboscidea}}
{{Wikispecies|Proboscidea}}{{Commons category|Proboscidea}}

Revision as of 02:12, 16 June 2025

Template:Short description Script error: No such module "For". Template:Use dmy dates Template:Automatic taxobox

Proboscidea (Template:IPAc-en; Template:Etymology, Template:Etymology) is a taxonomic order of afrotherian mammals containing one living family (Elephantidae) and several extinct families. First described by J. Illiger in 1811, it encompasses the elephants and their close relatives.[1] Three living species of elephant are currently recognised: the African bush elephant, the African forest elephant, and the Asian elephant.

Extinct members of Proboscidea include the deinotheres, mastodons, gomphotheres and stegodonts. The family Elephantidae also contains several extinct groups, including mammoths and Palaeoloxodon. Proboscideans include some of the largest known land mammals, with the elephant Palaeoloxodon namadicus and mastodon "Mammut" borsoni suggested to have body masses surpassing Template:Convert, rivalling or exceeding paraceratheres (the otherwise largest known land mammals) in size.[2] The largest extant proboscidean is the African bush elephant, with a world record of size of Template:Cvt at the shoulder and Template:Cvt.[2] In addition to their enormous size, later proboscideans are distinguished by tusks and long, muscular trunks, which were less developed or absent in early proboscideans.

Evolution

Over 180 extinct members of Proboscidea have been described.[3] The earliest members of Proboscidea like Eritherium are known from the Paleocene of Africa, around 60 million years ago, the earliest proboscideans were much smaller than living elephants, with Eritherium having a body mass of around Template:Convert.[4] By the late Eocene, some members of Proboscidea like Barytherium had reached considerable size, with an estimated mass of around 2 tonnes,[2] while others like Moeritherium are suggested to have been semi-aquatic.[5]

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.[6] Around 10 million years ago, the earliest members of the family Elephantidae emerged in Africa, having originated from gomphotheres.[7] The Late Miocene saw major climatic changes, which resulted in the decline and extinction of many proboscidean groups such as amebelodontids and choerolophodontids.[6] The earliest members of modern genera of Elephantidae appeared during the latest Miocene-early Pliocene around 6-5 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.[8]

Over the course of the Early Pleistocene, all non-elephantid probobscideans outside of the Americas became extinct (including mammutids, gomphotheres and deinotheres), with the exception of Stegodon.[6] Gomphotheres dispersed into South America during this era as part of the Great American interchange,[9] and mammoths migrating into North America around 1.5 million years ago.[10] 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.[11] By the beginning of the Late Pleistocene, proboscideans were represented by around 23 species. Proboscideans underwent a dramatic decline during the Late Pleistocene as part of the Late Pleistocene megafauna extinctions, 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 around 4,000 years ago.[6][12]

The following cladogram is based on endocasts.[13]

Template:Clade

Morphology

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Over the course of their evolution, proboscideans experienced a significant increase in body size. Some members of the families Deinotheriidae, Mammutidae, Stegodontidae and Elephantidae are thought to have exceeded modern elephants in size, with shoulder heights over Template:Convert and masses over Template:Convert, with average fully grown males of the mammutid "Mammut" borsoni having an estimated body mass of Template:Convert, making it one the largest and perhaps the largest land mammal ever, with a fragmentary specimen of the Indian elephant species Palaeoloxodon namadicus only known from a partial femur being speculatively estimated in the same study to have possibly reached a body mass of Template:Convert.[2] As with other megaherbivores, including the extinct sauropod dinosaurs, the large size of proboscideans likely developed to allow them to survive on vegetation with low nutritional value.[14] Their limbs grew longer and the feet shorter and broader.[15] The feet were originally plantigrade and developed into a digitigrade stance with cushion pads and the sesamoid bone providing support, with this change developing around the common ancestor of Deinotheriidae and Elephantiformes.[16] Members of Elephantiformes and Deinotheriidae have retracted nasal regions of the skull indicating the development of a trunk.[17][18]

The skull grew larger, especially the cranium, while the neck shortened to provide better support for the skull. The increase in size led to the development and elongation of the mobile trunk to provide reach. The number of premolars, incisors and canines decreased. The cheek teeth (molars and premolars) became larger and more specialised.[15] In Elephantiformes, the second upper incisor and lower incisor were transformed into ever growing tusks on the upper and lower jaws,[19][20] while in Deinotheriidae there are only tusks on the lower jaw.[18] The tusks are proportionally heavy for their size, being primarily composed of dentine. In primitive proboscideans, a band of enamel covers part of the tusk surface, though in many later groups including modern elephants the band is lost, with elephants only having enamel on the tusk tips of juveniles. The upper tusks were initially modest in size, but from the Late Miocene onwards proboscideans developed increasingly large tusks, with the longest ever recorded tusk being Template:Convert long belonging to the mammutid "Mammut" borsoni found in Greece, with some mammoth tusks likely weighing over Template:Convert. The lower tusks are generally smaller than the upper tusks, but could grow to large sizes in some species, like in Deinotherium (which lacks upper tusks), where they could grow over Template:Convert long, the amebelodontid Konobelodon has lower tusks Template:Convert long, with the longest lower tusks ever recorded being from the primitive elephantid Stegotetrabelodon which are around Template:Convert long.[21]

The molar teeth changed from being replaced vertically as in other mammals to being replaced horizontally in the clade Elephantimorpha.[22] While early Elephantimorpha generally had lower jaws with an elongated mandibular symphysis at the front of the jaw with well developed lower tusks/incisors, from the Late Miocene onwards, many groups convergently developed brevirostrine (shortened) lower jaws with vestigial or no lower tusks.[23][24] Elephantids are distinguished from other 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.[25]

Dwarfism

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File:Palaeoloxodon falconeri Size Comparison.svg
Size comparison of the dwarf elephant Palaeoloxodon falconeri from the Pleistocene of Sicily and Malta to a human

Several species of proboscideans lived on islands and experienced insular dwarfism. This occurred primarily during the Pleistocene, when some elephant populations became isolated by fluctuating sea levels, although dwarf elephants did exist earlier in the Pliocene. These elephants likely grew smaller on islands due to a lack of large or viable predator populations and limited resources. By contrast, small mammals such as rodents develop gigantism in these conditions. Dwarf proboscideans are known to have lived in Indonesia, the Channel Islands of California, and several islands of the Mediterranean.[26]

Elephas celebensis of Sulawesi is believed to have descended from Elephas planifrons. Elephas falconeri of Malta and Sicily was only Template:Convert, and had probably evolved from the straight-tusked elephant. Other descendants of the straight-tusked elephant existed in Cyprus. Dwarf elephants of uncertain descent lived in Crete, Cyclades and Dodecanese, while dwarf mammoths are known to have lived in Sardinia.[26] The Columbian mammoth colonised the Channel Islands and evolved into the pygmy mammoth. This species reached a height of Template:Convert and weighed Template:Convert. A population of small woolly mammoths survived on Wrangel Island as recently as 4,000 years ago.[26] After their discovery in 1993, they were considered dwarf mammoths.[27] This classification has been re-evaluated and since the Second International Mammoth Conference in 1999, these animals are no longer considered to be true "dwarf mammoths".[28]

Ecology

It has been suggested that members of Elephantimorpha, including mammutids,[29] gomphotheres,[30] and stegodontids,[31] lived in herds like modern elephants. Analysis of remains of the American mastodon (Mammut americanum) suggest that like modern elephants, that herds consisted of females and juveniles and that adult males lived solitarily or in small groups, and that adult males periodically engaged in fights with other males during periods similar to musth found in living elephants. These traits are suggested to be inherited from the last common ancestor of elephantimorphs,[29] with musth-like behaviour also suggested to have occurred in gomphotheres.[32] All elephantimorphs are suggested to have been capable of communication via infrasound, as found in living elephants.[33] Deinotheres may have also lived in herds, based on tracks found in the Late Miocene of Romania.[34] Over the course of the Neogene and Pleistocene, various members of Elephantida shifted from a browse-dominated diet towards mixed feeding or grazing.[35]

Classification

Below is a taxonomy of proboscidean genera as of 2019.[36][37][38][39]

References

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Bibliography

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  7. H. Saegusa, H. Nakaya, Y. Kunimatsu, M. Nakatsukasa, H. Tsujikawa, Y. Sawada, M. Saneyoshi, T. Sakai Earliest elephantid remains from the late Miocene locality, Nakali, Kenya Scientific Annals, School of Geology, Aristotle University of Thessaloniki, Greece VIth International Conference on Mammoths and Their Relatives, vol. 102, Grevena -Siatista, special volume (2014), p. 175
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  26. a b c Sukumar, pp. 31–33.
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