词条 | Toxodon |
释义 |
|fossil_range = Late Miocene-Holocene (Mayoan-Atlantic) {{fossil range|11.6|0.005}} |image = Toxodon skeleton in BA.JPG |image_upright = 1.1 |image_caption = Skeleton of Toxodon in Buenos Aires |taxon = Toxodon |authority = Owen, 1837 |type_species = {{extinct}}Toxodon platensis |type_species_authority = Owen, 1837 |subdivision_ranks = Other species |subdivision =
|synonyms =Genus-level
}} Toxodon (meaning "bow tooth") is an extinct genus of South American mammals from the Late Miocene to Middle Holocene epochs (Mayoan to post-Lujanian in the SALMA classification) (about 11.6 million to 5000 years ago).[1][2] It is a member of Notoungulata, one of several now extinct orders of hoofed mammals indigenous to South America. It was among the largest and last members of its order, and was probably the most common large-hoofed South American mammal of its time. TaxonomyCharles Darwin was one of the first to collect Toxodon fossils, after paying 18 pence for a T. platensis skull from a farmer in Uruguay.[3] In The Voyage of the Beagle Darwin wrote, "November 26th - I set out on my return in a direct line for Monte Video. Having heard of some giant's bones at a neighbouring farm-house on the Sarandis, a small stream entering the Rio Negro, I rode there accompanied by my host, and purchased for the value of eighteen pence the head of the Toxodon."[4][5] Since Darwin discovered that the fossils of similar mammals of South America were different from those in Europe, he invoked many debates about the evolution and natural selection of animals. Analysis of collagen sequences obtained from Toxodon as well as from Macrauchenia found that South America's native notoungulates and litopterns form a sister group to perissodactyls, making them true ungulates.[6][7] This finding has been corroborated by an analysis of mitochondrial DNA extracted from a Macrauchenia fossil, which yielded a date of 66 Ma for the time of the split with perissodactyls.[8] EvolutionIn 2014, a study identifying a new species of toxodontid resolved the phylogenetic relations of the toxodontids, including to Toxodon. The below cladogram was found by the study:[9] {{clade| style=font-size:85%; line-height:85%|1={{clade |1=Pampahippus arenalesi |2={{clade |1={{clade |1=Rhynchippus spp. |2={{clade |1=Scarrittia canquelensis |2=Leonitinia gaudri }} }} |label2=Toxodontidae |2={{clade |1=Proadinotherium leptognathum |2={{clade |1={{clade |1=Adinotherium spp. |2={{clade |1=Nesodon taweretus |2=Nesodon imbricatus }} }} |2={{clade |1=Palyeidodon obtusum |2={{clade |1=Hyperoxotodon speciosus |2={{clade |1={{clade |1=Nonotherium henningi |2=Xotodon spp. }} |2={{clade |1={{clade |1=Andinotoxodon bolivariensis |2={{clade |1={{clade |1=Dinotoxodon paranensis |2=Toxodon platensis }} |2={{clade |1=Gyrinodon quassus |2={{clade |1=Ocnerotherium intermedium |2=Hoffstetterius imperator }} }} }} }} |2={{clade |1=Posnanskytherium desaguaderoi |2={{clade |1=Pisanodon nazari |2={{clade |1=Pericotoxodon platignathus |2={{clade |1={{clade |1=Calchaquitherium mixtum |2=Mixotoxodon larensis }} |2={{clade |1=Paratrigodon euguii |2=Trigodon gaudri }} }} }} }} }} }} }} }} }} }} }} }} }} }} DescriptionToxodon was about {{Convert|2.7|m|abbr=on}} in body length, with an estimated weight up to {{Convert|1415|kg|abbr=on}}[10] and about {{Convert|1.5|m|abbr=on}} high at the shoulder and resembled a heavy rhinoceros, with a short and vaguely hippopotamus-like head.[11] Because of the position of its nasal openings, it is believed that Toxodon had a well-developed snout. It had a massive skeleton, which suggests that it supported a large muscular body. It had short stout legs with three functional toes, with most of the body weight being borne by the central toe. The vertebrae were equipped with high apophyses, which most likely supported the massive weight and muscles as well as its powerful head. Toxodon had broad jaws which were filled with bow shaped teeth and incisors. These teeth would have allowed the animal to tear through and bite off plants and leaves. PalaeobiologyIt was initially believed to have been amphibious, but after examining the proportions of the femur and tibia, as well as the position of its head, below the top of the spinal column, palaeontologists realized that it had features similar to terrestrial animals such as elephants or rhinoceroses. The fossils are also usually found in arid and semi-arid areas, typically an indication of a primarily terrestrial life. Toxodon would have had a very unusual gait, due to its peculiar proportions. It may have galloped to escape predators, but like a rhino, it probably relied more on its size as protection against predators. ExtinctionToxodon became extinct in the Middle Holocene.[2] Many Toxodon fossils have been found accompanied by arrow heads.{{citation needed|date=August 2013}} This shows that prehistoric humans hunted them, which could have been a leading cause of their demise.{{citation needed|date=August 2013}} DistributionFossils of Toxodon have been found in:[2][12]
References{{Portal|Neogene|Paleontology|Prehistoric mammals|Prehistory of South America}}1. ^{{Cite journal | last1 = Baffa | first1 = O | last2 = Brunetti | first2 = A | last3 = Karmann | first3 = I | last4 = Dias Neto | first4 = C.M. | title = ESR dating of a toxodon tooth from a Brazilian karstic cave | year = 2000 | journal = Applied Radiation and Isotopes | volume = 52 | issue = 5 | pages = 1345–1349 | doi = 10.1016/S0969-8043(00)00093-2 | pmid = 10836452}} 2. ^1 2 {{Cite book|url=https://books.google.com/?id=mbU-F42JU1AC&pg=PA349&lpg=PA349&dq=Propaopus#v=onepage&q=Propaopus&f=false|title=Holocene Extinctions|last=Turvey|first=Samuel T.|date=2009-05-28|publisher=OUP Oxford|isbn=9780191579981|language=en}} 3. ^{{cite journal|author=Quammen, D. |date=February 2009 |title=Darwin's First Clues |journal=National Geographic |page=45}} 4. ^Charles Darwin, Voyage of the Beagle, 1997; {{ISBN|978-0-14-043268-8}} 5. ^Read, April 19th, 1837. A detailed account will appear in the first part of the zoology of voyage of the Beagle 6. ^{{cite journal|last1=Welker|first1=F.|last2=Collins|first2=M. J.|last3=Thomas|first3=J. A.|last4=Wadsley|first4= M.|last5=Brace|first5 =S.|last6=Cappellini|first6=E.|last7=Turvey|first7=S. T.|last8=Reguero|first8= M.|last9=Gelfo|first9=J. N.|last10=Kramarz|first10= A.|last11=Burger|first11=J.|last12=Thomas-Oates|first12= J.|last13= Ashford|first13=D. A.|last14=Ashton|first14=P. D.|last15= Rowsell|first15= K.|last16=Porter|first16=D. M.|last17= Kessler|first17=B.|last18= Fischer|first18=R.|last19=Baessmann|first19= C.|last20=Kaspar|first20=S.|last21=Olsen|first21=J. V.|last22= Kiley|first22=P.|last23=Elliott|first23=J. A.|last24= Kelstrup|first24=C. D.|last25=Mullin|first25= V.|last26= Hofreiter|first26=M.|last27= Willerslev|first27=E.|last28=Hublin|first28=J.-J.|last29=Orlando|first29= L.|last30= Barnes|first30=I.|last31= MacPhee|first31=R. D. E.|title=Ancient proteins resolve the evolutionary history of Darwin's South American ungulates|journal= Nature|date=2015-03-18|issn=0028-0836|doi= 10.1038/nature14249|volume=522|issue=7554|pages=81–84|pmid=25799987}} 7. ^{{cite journal|last1= Buckley|first1= M.|title= Ancient collagen reveals evolutionary history of the endemic South American 'ungulates'|journal= Proceedings of the Royal Society B: Biological Sciences|volume= 282|issue= 1806|date= 2015-04-01|pages= 20142671|doi= 10.1098/rspb.2014.2671|pmid= 25833851|pmc= 4426609}} 8. ^{{cite journal|last1= Westbury|first1= M.|last2= Baleka|first2= S.|last3= Barlow|first3= A.|last4= Hartmann|first4= S.|last5= Paijmans|first5=J. L. A.|last6= Kramarz|first6= A.|last7= Forasiepi|first7=A. M.|last8= Bond|first8= M.|last9= Gelfo|first9=J. N.|last10= Reguero|first10=M. A.|last11= López-Mendoza|first11= P.|last12= Taglioretti|first12= M.|last13= Scaglia|first13= F.|last14= Rinderknecht|first14= A.|last15= Jones|first15= W.|last16= Mena|first16= F.|last17= Billet|first17= G.|last18=de Muizon|first18= C.|last19= Aguilar|first19=J. L.|last20= MacPhee|first20=R. D. E.|last21= Hofreiter|first21= M.|title=A mitogenomic timetree for Darwin's enigmatic South American mammal Macrauchenia patachonica|journal=Nature Communications|volume= 8|date= 2017-06-27|pages= 15951|doi= 10.1038/ncomms15951|pmid= 28654082|pmc= 5490259}} 9. ^{{Cite journal | doi = 10.1007/s12542-014-0233-5| title = New toxodontid (Notoungulata) from the Early Miocene of Mendoza, Argentina| journal = Paläontologische Zeitschrift| volume = 89| issue = 3| pages = 611–634| year = 2014| last1 = Forasiepi | first1 = A. A. M. | last2 = Cerdeño | first2 = E. | last3 = Bond | first3 = M. | last4 = Schmidt | first4 = G. I. | last5 = Naipauer | first5 = M. | last6 = Straehl | first6 = F. R. | last7 = Martinelli | first7 = A. N. G. | last8 = Garrido | first8 = A. C. | last9 = Schmitz | first9 = M. D. | last10 = Crowley | first10 = J. L. }} 10. ^Farina, Richard A., Ada Czerwonogora, and MARIANA DI GIACOMO. "Splendid oddness: revisiting the curious trophic relationships of South American Pleistocene mammals and their abundance." Anais da Academia Brasileira de Ciências 86.1 (2014): 311-331. 11. ^Fariña, Richard A., Sergio F. Vizcaíno, and Gerry De Iuliis. Megafauna: Giant Beasts of Pleistocene South America. Indiana University Press, 2012. 12. ^Toxodon at Fossilworks.org Further reading
32 : Toxodonts|Miocene genus first appearances|Pleistocene extinctions|Miocene mammals of South America|Pliocene mammals of South America|Pleistocene mammals of South America|Lujanian|Ensenadan|Uquian|Chapadmalalan|Montehermosan|Huayquerian|Chasicoan|Mayoan|Neogene Argentina|Ituzaingó Formation|Pleistocene Argentina|Pleistocene Bolivia|Pleistocene Brazil|Pleistocene Guatemala|Pleistocene Panama|Pleistocene Paraguay|Pleistocene Uruguay|Fossils of Argentina|Fossils of Bolivia|Fossils of Brazil|Fossils of Guatemala|Fossils of Panama|Fossils of Paraguay|Fossils of Uruguay|Fossil taxa described in 1837|Taxa named by Richard Owen |
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