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Undid revision 867232794 by 59.102.35.81 (talk) edit destroyed taxobox
Mostly reverted previous editor’s reversion: all you had to do was remove the taxon thing (which added itself, btw), timewaster.
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{{automatic taxobox
{{automatic taxobox
| name = Phorusrhacids
| name = Phorusrhacids
| fossil_range = [[Late Paleocene]] - [[Early Pleistocene]],<ref name="Tambussi1999" /> {{Fossil range|62|1.8|latest=0.017}}
| fossil_range = [[Late Paleocene]] [[Early Pleistocene]],<ref name="Tambussi1999" /> {{Fossil range|62|1.8|latest=0.017}}
| image = Phorusrhacid skeleton.jpg
| image = Phorusrhacid skeleton.jpg
| image_width = 250px
| image_width = 250px
| image_caption = Reconstructed skeleton of ''[[Titanis walleri]]'', Florida Museum of Natural History
| image_caption = Reconstructed skeleton of ''[[Titanis|Titanis walleri]]'', Florida Museum of Natural History
| parent_authority = [[Florentino Ameghino|Ameghino]], 1889
| parent_authority = [[Florentino Ameghino|Ameghino]], 1889
| authority = Ameghino, 1889<ref name=Ameghino1889>{{cite journal |last=Ameghino |first=F |year=1889 |title=Contribuición al conocimiento de los mamíferos fósiles de la República Argentina |journal=Actas Academia Nacional Ciencias de Córdoba |volume=6 |issue= |pages=1–1028 |id= |url= |accessdate= |quote= | language = Spanish }}</ref>
| authority = Ameghino, 1889<ref name=Ameghino1889>{{cite journal |last=Ameghino |first=F |year=1889 |title=Contribuición al conocimiento de los mamíferos fósiles de la República Argentina |journal=Actas Academia Nacional Ciencias de Córdoba |volume=6 |issue= |pages=1–1028 |id= |url= |accessdate= |quote= | language = Spanish }}</ref>
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}}
}}
}}
}}
[[File:Llallawavis scagliai.jpg|thumb|''[[Llallawavis|Llallwavis scagliai]]'', a {{convert|1.2|m|ftin|abbr=on}}-tall Pliocene phorusrhacid]]
[[File:Llallawavis scagliai.jpg|thumb|''[[Llallawavis|Llallwavis scagliai]]'', a {{convert|1.2|m|ftin|adj=mid|-tall}} Pliocene phorusrhacid]]


'''Phorusrhacids''', colloquially known as '''terror birds''', are an extinct [[clade]] of large [[carnivorous]] [[flightless bird]]s that were the largest species of [[apex predator]]s in [[South America]] during the [[Cenozoic]] era; their temporal range covers from 62 to 1.8 million years ([[Year#Abbreviations yr and ya|Ma]]) ago.<ref name="Tambussi1999">{{cite journal|last1= Tambussi|first1= C.|last2= Ubilla|first2= M.|last3= Perea|first3= D.|title= The youngest large carnassial bird (Phorusrhacidae, Phorusrhacinae) from South America (Pliocene–Early Pleistocene of Uruguay)|journal= Journal of Vertebrate Paleontology|volume= 19|issue= 2|year= 1999|pages= 404–406|doi= 10.1080/02724634.1999.10011154}}</ref><ref name="blanco2005">{{Cite journal | last1 = Blanco | first1 = R. E. | last2 = Jones | first2 = W. W. | year = 2005 | title = Terror birds on the run: a mechanical model to estimate its maximum running speed | url = http://rspb.royalsocietypublishing.org/content/272/1574/1769.full.pdf | journal = [[Proceedings of the Royal Society B]] | volume = 272 | issue = 1574| pages = 1769–1773 |doi= 10.1098/rspb.2005.3133 | pmid= 16096087 | pmc = 1559870}}</ref>
'''Phorusrhacids''', colloquially known as '''terror birds''', are an extinct [[clade]] of large [[Carnivore|carnivorous]] [[flightless bird]]s that were the largest species of [[apex predator]]s in [[South America]] during the [[Cenozoic]] era; their temporal range covers from 62 to 1.8 million years ([[Year#Abbreviations yr and ya|Ma]]) ago.<ref name="Tambussi1999">{{cite journal|last1= Tambussi|first1= C.|last2= Ubilla|first2= M.|last3= Perea|first3= D.|title= The youngest large carnassial bird (Phorusrhacidae, Phorusrhacinae) from South America (Pliocene–Early Pleistocene of Uruguay)|journal= Journal of Vertebrate Paleontology|volume= 19|issue= 2|year= 1999|pages= 404–406|doi= 10.1080/02724634.1999.10011154}}</ref><ref name="blanco2005">{{Cite journal | last1 = Blanco | first1 = R. E. | last2 = Jones | first2 = W. W. | year = 2005 | title = Terror birds on the run: a mechanical model to estimate its maximum running speed | url = http://rspb.royalsocietypublishing.org/content/272/1574/1769.full.pdf | journal = [[Proceedings of the Royal Society B]] | volume = 272 | issue = 1574| pages = 1769–1773 |doi= 10.1098/rspb.2005.3133 | pmid= 16096087 | pmc = 1559870}}</ref>


They ranged in height from {{convert|1|–|3|m|ftin|abbr=on}} tall. Their closest modern-day relatives are believed to be the 80&nbsp;cm-tall [[seriema]]s. ''[[Titanis walleri]]'', one of the larger species, is known from [[Texas]] and [[Florida]] in [[North America]]. This makes the phorusrhacids the only known large South American predator to migrate north in the [[Great American Interchange]] that followed the formation of the [[Isthmus of Panama]] [[land bridge]] (the main pulse of the interchange began about 2.6 Ma ago; ''Titanis'' at 5 Ma was an early northward migrant).<ref name = "Woodburne2010">{{cite journal|last1=Woodburne|first1=M. O.|title=The Great American Biotic Interchange: Dispersals, Tectonics, Climate, Sea Level and Holding Pens|journal=Journal of Mammalian Evolution|volume= 17|issue=4|date= 2010-07-14|pages= 245–264|doi= 10.1007/s10914-010-9144-8|pmid=21125025|pmc=2987556}}</ref>
They ranged in height from {{convert|1|–|3|m|ftin|abbr=on}} tall. Their closest modern-day relatives are believed to be the {{convert|80|cm|in|adj=mid|-tall}} [[seriema]]s. ''[[Titanis|Titanis walleri]]'', one of the larger species, is known from [[Texas]] and [[Florida]] in [[North America]]. This makes the phorusrhacids the only known large South American predator to migrate north in the [[Great American Interchange]] that followed the formation of the [[Isthmus of Panama]] [[land bridge]] (the main pulse of the interchange began about 2.6 Ma ago; ''Titanis'' at 5 Ma was an early northward migrant).<ref name = "Woodburne2010">{{cite journal|last1=Woodburne|first1=M. O.|title=The Great American Biotic Interchange: Dispersals, Tectonics, Climate, Sea Level and Holding Pens|journal=Journal of Mammalian Evolution|volume= 17|issue=4|date= 2010-07-14|pages= 245–264|doi= 10.1007/s10914-010-9144-8|pmid=21125025|pmc=2987556}}</ref>


It was once believed that ''T. walleri'' became extinct in North America around the time of the arrival of humans,<ref name="baskin1995">{{Cite journal | doi = 10.1080/02724634.1995.10011266 | last1 = Baskin | first1 = J. A. | year = 1995 | title = The giant flightless bird ''Titanis walleri'' (Aves: Phorusrhacidae) from the Pleistocene coastal plain of South Texas | url = | journal = [[Society of Vertebrate Paleontology|Journal of Vertebrate Paleontology]] | volume = 15 | issue = 4| pages = 842–844 }}</ref><!-------------> but subsequent datings of ''Titanis'' fossils provided no evidence for their survival after 1.8 Ma.<ref name="mcfaddenetal2007">{{cite journal | last1= MacFadden | pages= 123–126 | first1= Bruce J. | last2= Labs-Hochstein | first2= Joann | last3= Hulbert | first3= Richard C. | last4= Baskin | first4= Jon A. | year= 2007 | title= Revised age of the late Neogene terror bird (''Titanis'') in North America during the Great American Interchange | volume= 35 | doi= 10.1130/G23186A.1 | journal= Geology | url= http://www.gsajournals.org/perlserv/?request=res-loc&uri=urn%3Aap%3Apdf%3Adoi%3A10.1130%2FG23186A.1 | format= PDF | issue= 2 | deadurl= yes | archiveurl= https://web.archive.org/web/20120217041322/http://www.gsajournals.org/perlserv/?request=res-loc&uri=urn:ap:pdf:doi:10.1130%2FG23186A.1 | archivedate= 2012-02-17 | df= }}</ref><!------------> Still, reports from Uruguay of new findings of relatively small forms dating to 450,000 and 17,000 years ago,<ref name="Alvarenga2010">{{cite journal|last1= Alvarenga|first1= H.|last2= Jones|first2= W.|last3= Rinderknecht|first3= A.|title= The youngest record of phorusrhacid birds (Aves, Phorusrhacidae) from the late Pleistocene of Uruguay|journal= Neues Jahrbuch für Geologie und Paläontologie - Abhandlungen|volume= 256|issue= 2|year= 2010|pages= 229–234|doi= 10.1127/0077-7749/2010/0052|url= http://www.museuhistorianatural.com/pesquisa_arquivos/2010/Phorusrh._Pleist.sup.Alvarenga.pdf}}</ref><ref name= "Ubilla2017" /> would imply that some phorusrhacids survived there until very recently (i.e., until the late Pleistocene); but this claim is debated.<ref>Agnolin, F. (2013). [http://revista.macn.gob.ar/ojs/index.php/RevMus/article/viewFile/167/158 La posición sistemática de ''Hermosiornis'' (Aves, Phororhacoidea) y sus implicancias filogenéticas]. ''Revista del Museo Argentino de Ciencias Naturales'' nueva serie, 15(1), 39-60.</ref>
It was once believed that ''T. walleri'' became extinct in North America around the time of the arrival of humans,<ref name="baskin1995">{{Cite journal | doi = 10.1080/02724634.1995.10011266 | last1 = Baskin | first1 = J. A. | year = 1995 | title = The giant flightless bird ''Titanis walleri'' (Aves: Phorusrhacidae) from the Pleistocene coastal plain of South Texas | url = | journal = [[Society of Vertebrate Paleontology|Journal of Vertebrate Paleontology]] | volume = 15 | issue = 4| pages = 842–844 }}</ref><!-------------> but subsequent datings of ''Titanis'' fossils provided no evidence for their survival after 1.8 Ma.<ref name="mcfaddenetal2007">{{cite journal | last1= MacFadden | pages= 123–126 | first1= Bruce J. | last2= Labs-Hochstein | first2= Joann | last3= Hulbert | first3= Richard C. | last4= Baskin | first4= Jon A. | year= 2007 | title= Revised age of the late Neogene terror bird (''Titanis'') in North America during the Great American Interchange | volume= 35 | doi= 10.1130/G23186A.1 | journal= Geology | url= http://www.gsajournals.org/perlserv/?request=res-loc&uri=urn%3Aap%3Apdf%3Adoi%3A10.1130%2FG23186A.1 | format= PDF | issue= 2 | deadurl= yes | archiveurl= https://web.archive.org/web/20120217041322/http://www.gsajournals.org/perlserv/?request=res-loc&uri=urn:ap:pdf:doi:10.1130%2FG23186A.1 | archivedate= 2012-02-17 | df= }}</ref><!------------> Still, reports from Uruguay of new findings of relatively small forms dating to 450,000 and 17,000 years ago,<ref name="Alvarenga2010">{{cite journal|last1= Alvarenga|first1= H.|last2= Jones|first2= W.|last3= Rinderknecht|first3= A.|title= The youngest record of phorusrhacid birds (Aves, Phorusrhacidae) from the late Pleistocene of Uruguay|journal= Neues Jahrbuch für Geologie und Paläontologie - Abhandlungen|volume= 256|issue= 2|year= 2010|pages= 229–234|doi= 10.1127/0077-7749/2010/0052|url= http://www.museuhistorianatural.com/pesquisa_arquivos/2010/Phorusrh._Pleist.sup.Alvarenga.pdf}}</ref><ref name= "Ubilla2017" /> would imply that some phorusrhacids survived there until very recently (i.e., until the late Pleistocene); but this claim is debated.<ref>Agnolin, F. (2013). [http://revista.macn.gob.ar/ojs/index.php/RevMus/article/viewFile/167/158 La posición sistemática de ''Hermosiornis'' (Aves, Phororhacoidea) y sus implicancias filogenéticas]. ''Revista del Museo Argentino de Ciencias Naturales'' nueva serie, 15(1), 39-60.</ref>
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== Description ==
== Description ==
Based on Claudia P. Tambussi, Ricardo de Mendoza, Federico J. Degrange, and Mariana B. Picasso's work, the phorusrhacid's neck can be divided into three main regions. In the higher regions of the neck, the phorusrhacid has bifurcate [[neural spines]] (BNS), while it has high neural spines in its lower regions. This suggests that the phorusrhacid had a highly flexible and developed neck allowing it to carry its heavy head and strike with terrifying speed and power. Although the phorusrhacid externally looks like it has a short neck, its flexible skeletal neck structure proves that it can expand farther beyond the expected reach and intimidate its prey using its height, allowing it to strike more easily. Once stretched out into its full length in preparation for a downward strike, its developed neck muscles and heavy head can produce enough momentum and power to cause fatal damage to the terror bird's prey.<ref>{{cite journal | last1 = Tambussi | first1 = CP | last2 = de Mendoza | first2 = R | last3 = Degrange | first3 = FJ | last4 = Picasso | first4 = MB. | year = 2013 | title = Flexibility along the Neck of the Neogene Terror Bird ''Andalgalornis steulleti'' (Aves Phorusrhacidae) | journal = PLOS One | volume = 7 | issue = | pages = e37701| doi=10.1371/journal.pone.0037701 | pmid=22662194 | pmc=3360764}}</ref>
Based on Claudia P. Tambussi, Ricardo de Mendoza, Federico J. Degrange, and Mariana B. Picasso's work, the phorusrhacid's neck can be divided into three main regions. In the higher regions of the neck, the phorusrhacid has bifurcate [[Vertebra|neural spines]] (BNS), while it has high neural spines in its lower regions. This suggests that the phorusrhacid had a highly flexible and developed neck allowing it to carry its heavy head and strike with terrifying speed and power. Although the phorusrhacid externally looks like it has a short neck, its flexible skeletal neck structure proves that it can expand farther beyond the expected reach and intimidate its prey using its height, allowing it to strike more easily. Once stretched out into its full length in preparation for a downward strike, its developed neck muscles and heavy head can produce enough momentum and power to cause fatal damage to the terror bird's prey.<ref>{{cite journal | last1 = Tambussi | first1 = CP | last2 = de Mendoza | first2 = R | last3 = Degrange | first3 = FJ | last4 = Picasso | first4 = MB. | year = 2013 | title = Flexibility along the Neck of the Neogene Terror Bird ''Andalgalornis steulleti'' (Aves Phorusrhacidae) | journal = PLOS One | volume = 7 | issue = | pages = e37701| doi=10.1371/journal.pone.0037701 | pmid=22662194 | pmc=3360764}}</ref>


''[[Kelenken|Kelenken guillermoi]]'', from the [[Langhian]] stage of the [[Miocene]] epoch, some 15 million years ago, discovered in [[Patagonia]] in 2006, represents the largest bird [[skull]] yet found. The fossil has been described as being a {{convert|71|cm|in|abbr=on}}, nearly intact skull. The beak is roughly {{convert|46|cm|in|abbr=on}} long and curves in a hook shape that resembles an eagle's beak. Most species described as phorusrhacid birds were smaller, {{convert|60|-|90|cm|ft|abbr=on}} tall, but the new fossil belongs to a bird that probably stood about {{convert|3|m|ft|abbr=on}} tall. Scientists theorize that the large terror birds were extremely nimble and quick runners, able to reach speeds of {{convert|48|km/h|mph|abbr=on}}.<ref>{{cite journal |last=Bertelli |first=Sara |authorlink= |author2=Chiappe, Luis M |author3=Tambussi, Claudia |year=2007 |title=A New Phorusrhacid (Aves: Cariamae) from the Middle Miocene of Patagonia, Argentina |journal=Journal of Vertebrate Paleontology |volume=27 |issue=2 |pages=409–419 |doi=10.1671/0272-4634(2007)27[409:ANPACF]2.0.CO;2 |url= |accessdate= |quote= }}</ref> Examination of phorusrhacid habitats also indicates that phorusrhacids may have presented intense competition to predatory marsupial [[sparassodonts]] such as [[borhyaenids]] and [[thylacosmilids]], causing the mammalian predators to choose forested habitats to avoid the more successful and aggressive avian predators on the open plains.<ref name="Antón 2013 61">{{cite book|last=Antón|first=Mauricio|title=Sabertooth|date=2013|publisher=University of Indiana Press|location=Bloomington, Indiana|isbn=9780253010421|page=61}}</ref>
''[[Kelenken|Kelenken guillermoi]]'', from the [[Langhian]] stage of the [[Miocene]] epoch, some 15 million years ago, discovered in [[Patagonia]] in 2006, represents the largest bird [[skull]] yet found. The fossil has been described as being a {{convert|71|cm|adj=on}}, nearly intact skull. The beak is roughly {{convert|46|cm|abbr=on}} long and curves in a hook shape that resembles an eagle's beak. Most species described as phorusrhacid birds were smaller, {{convert|60|-|90|cm|ft|abbr=on}} tall, but the new fossil belongs to a bird that probably stood about {{convert|3|m|ft|abbr=on}} tall. Scientists theorize that the large terror birds were extremely nimble and quick runners, able to reach speeds of {{convert|48|km/h|abbr=on}}.<ref>{{cite journal |last=Bertelli |first=Sara |authorlink= |author2=Chiappe, Luis M |author3=Tambussi, Claudia |year=2007 |title=A New Phorusrhacid (Aves: Cariamae) from the Middle Miocene of Patagonia, Argentina |journal=Journal of Vertebrate Paleontology |volume=27 |issue=2 |pages=409–419 |doi=10.1671/0272-4634(2007)27[409:ANPACF]2.0.CO;2 |url= |accessdate= |quote= }}</ref> Examination of phorusrhacid habitats also indicates that phorusrhacids may have presented intense competition to predatory marsupial [[Sparassodonta|sparassodonts]] such as [[Borhyaenidae|borhyaenids]] and [[Thylacosmilidae|thylacosmilids]], causing the mammalian predators to choose forested habitats to avoid the more successful and aggressive avian predators on the open plains.<ref name="Antón 2013 61">{{cite book|last=Antón|first=Mauricio|title=Sabertooth|date=2013|publisher=University of Indiana Press|location=Bloomington, Indiana|isbn=9780253010421|page=61}}</ref>


== Palaeobiology ==
== Palaeobiology ==
Most phorusrhacids were very fast runners. All members possessed a large, sharp beak, a powerful neck and sharp talons. However, even with these attributes, the phorusrhacids are often assumed to have preyed on relatively small animals (about the size of a rabbit) that could be dispatched with a minimum of struggle. This is due to the fact that with the phorusrhacids' beak proportions, the jaw could not generate a great deal of bite force with which to kill the prey. This is disputable as many big-game hunting predators such as ''[[Smilodon]]'', [[great white sharks]] and ''[[Allosaurus]]'' have weaker bite forces and often laterally weak skulls as adaptations towards, not away from, killing large prey, relying instead on the presence of a cutting edge, a wide gape made possible by the reduction of jaw musculature, and the driving force of the body or neck.<ref>{{cite journal | last1 = Bakker | first1 = Robert |display-authors=etal | year = 1998 | title = Brontosaur Killers: Late Jurassic Allosaurids as Sabre-tooth Cat Analogues| url = https://www.researchgate.net/publication/40662858_Brontosaur_killers_Late_Jurassic_allosaurids_as_sabre-tooth_cat_analogues | journal = GAIA | volume = 15 | issue = 8| pages = 145–158 }}</ref><ref>Duane Nash, "Terror Birds Cometh: A New Hypothesis Unlocking Phorusrhacid Feeding Dynamics & Ecology", ''Antediluvian Salad'', 02 September 2015, http://antediluviansalad.blogspot.ca/2015/09/terror-birds-cometh-new-theory.htm</ref> Since phorusrhacids share many of the same adaptations, such as a large, laterally flattened skull with a sharp-edged beak and powerful neck musculature, it is possible that they were specialized predators of relatively large prey.
Most phorusrhacids were very fast runners. All members possessed a large, sharp beak, a powerful neck and sharp talons. However, even with these attributes, the phorusrhacids are often assumed to have preyed on relatively small animals (about the size of a rabbit) that could be dispatched with a minimum of struggle. This is due to the fact that with the phorusrhacids' beak proportions, the jaw could not generate a great deal of bite force with which to kill the prey. This is disputable as many big-game hunting predators such as ''[[Smilodon]]'', [[great white shark]]s and ''[[Allosaurus]]'' have weaker bite forces and often laterally weak skulls as adaptations towards, not away from, killing large prey, relying instead on the presence of a cutting edge, a wide gape made possible by the reduction of jaw musculature, and the driving force of the body or neck.<ref>{{cite journal | last1 = Bakker | first1 = Robert |display-authors=etal | year = 1998 | title = Brontosaur Killers: Late Jurassic Allosaurids as Sabre-tooth Cat Analogues| url = https://www.researchgate.net/publication/40662858_Brontosaur_killers_Late_Jurassic_allosaurids_as_sabre-tooth_cat_analogues | journal = GAIA | volume = 15 | issue = 8| pages = 145–158 }}</ref><ref>Duane Nash, "Terror Birds Cometh: A New Hypothesis Unlocking Phorusrhacid Feeding Dynamics & Ecology", ''Antediluvian Salad'', 02 September 2015, http://antediluviansalad.blogspot.ca/2015/09/terror-birds-cometh-new-theory.htm</ref> Since phorusrhacids share many of the same adaptations, such as a large, laterally flattened skull with a sharp-edged beak and powerful neck musculature, it is possible that they were specialized predators of relatively large prey.


The bones of the beak were tightly fused together, making the beak more resilient to force from the front to back direction, thus suggesting that it could cause a great amount of harm through pecking as opposed to side-to-side head movements like shaking prey. Generally speaking, it is thought that a terror bird would use its feet to injure prey by kicking it, and to hold the prey down and dispatch by pecking at it with its large beak. Larger prey may also have been attacked by pecking and kicking,<ref>{{cite journal | last1 = Wroe | first1 = Stephen |display-authors=etal | year = 2010 | title = Mechanical Analysis Of Feeding Behavior In The Extinct "Terror Bird' ''Andalgalornis steulleti'' (Gruiformes: Phorusrhacidae) | doi = 10.1371/journal.pone.0011856 |doi-access=free |journal = PLOS One | volume = 5 | issue = 8| pages = 1–7 }}</ref> or by using the beak as a blade to strike at or slash vital organs.
The bones of the beak were tightly fused together, making the beak more resilient to force from the front to back direction, thus suggesting that it could cause a great amount of harm through pecking as opposed to side-to-side head movements like shaking prey. Generally speaking, it is thought that a terror bird would use its feet to injure prey by kicking it, and to hold the prey down and dispatch by pecking at it with its large beak. Larger prey may also have been attacked by pecking and kicking,<ref>{{cite journal | last1 = Wroe | first1 = Stephen |display-authors=etal | year = 2010 | title = Mechanical Analysis Of Feeding Behavior In The Extinct "Terror Bird' ''Andalgalornis steulleti'' (Gruiformes: Phorusrhacidae) | doi = 10.1371/journal.pone.0011856 |doi-access=free |journal = PLOS One | volume = 5 | issue = 8| pages = 1–7 }}</ref> or by using the beak as a blade to strike at or slash vital organs.
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During the Miocene and early Pliocene epochs, there was an increase in the phorusrhacid population size in South America, suggesting that, in that time frame, the various species flourished as predators in the savannah environment.
During the Miocene and early Pliocene epochs, there was an increase in the phorusrhacid population size in South America, suggesting that, in that time frame, the various species flourished as predators in the savannah environment.


When the [[Isthmus of Panama]] emerged, 2.7 million years ago, carnivorous dogs, bears, and cats from North America were able to cross into South America, increasing competition.<ref name = "GAIpatterns">{{cite journal | last = Webb | first = S. David | title = The Great American Biotic Interchange: Patterns and Processes | journal = [[Annals of the Missouri Botanical Garden]] | volume = 93 | issue = 2 | pages = 245–257| date = 23 August 2006| doi = 10.3417/0026-6493(2006)93[245:TGABIP]2.0.CO;2 }}</ref> (They had been preceded by procyonids as early as 7.3 million years ago.<ref name = "Woodburne2010"/>) The population of phorusrhacids declined thereafter, suggesting that competition with newly arrived predators was a major contributor to their extinction.<ref>Marshall, Larry G. "The Terror Birds of South America." Scientific American Special Edition. N.p., n.d. Web. 24 Oct. 2013. http://usuarios.geofisica.unam.mx/cecilia/cursos/TerrorBirds-Marshall94.pdf.</ref> Similar ideas have been considered for sparassodonts and for South America's terrestrial [[Sebecidae|sebecid]] crocodilians.<ref name = "Gasparini">{{cite journal
When the [[Isthmus of Panama]] emerged, 2.7 million years ago, carnivorous dogs, bears, and cats from North America were able to cross into South America, increasing competition.<ref name = "GAIpatterns">{{cite journal | last = Webb | first = S. David | title = The Great American Biotic Interchange: Patterns and Processes | journal = [[Annals of the Missouri Botanical Garden]] | volume = 93 | issue = 2 | pages = 245–257| date = 23 August 2006| doi = 10.3417/0026-6493(2006)93[245:TGABIP]2.0.CO;2 }}</ref> (They had been preceded by procyonids as early as 7.3 million years ago.<ref name = "Woodburne2010"/>) The population of phorusrhacids declined thereafter, suggesting that competition with newly arrived predators was a major contributor to their extinction.<ref>Marshall, Larry G. "The Terror Birds of South America." Scientific American Special Edition. N.p., n.d. Web. 24 Oct. 2013. http://usuarios.geofisica.unam.mx/cecilia/cursos/TerrorBirds-Marshall94.pdf.</ref> Similar ideas have been considered for sparassodonts and for South America's terrestrial [[Sebecidae|sebecid]] crocodilians.<ref name = "Gasparini">{{cite journal
| last = Gasparini | first = Zulma
| last = Gasparini | first = Zulma
| title = New Tertiary Sebecosuchia (Crocodylia: Mesosuchia) from Argentina
| title = New Tertiary Sebecosuchia (Crocodylia: Mesosuchia) from Argentina
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However, the role of competitive displacement in South American predator lineages is now being questioned by some researchers.<ref>Darren Naish, "Dumb Metatherians vs Evil, Smart Placentals", ''Dinosaur Mailing List'', 30 May 2001, http://dml.cmnh.org/2001May/msg00530.html</ref> The timing of turnover events does not correlate well with the arrival of large carnivores like canids or sabretooths (although it does correlate well with the earlier-arriving procyonids, which evolved to [[Chapalmalania|large body size]] in South America), with native South American predator lineages (including most phorusrhacids and all sparassodonts and sebecids) dying out well before the arrival of most larger placental carnivores.<ref name="link.springer.com">{{cite journal | last1 = Prevosti | first1 = Francisco J |last2 = Forasiepi | first2 = Analía | last3 = Zimicz | first3 = Natalia | year = 2013| title = The Evolution Of The Cenozoic Terrestrial Mammalian Predator Guild In South America: Competition Or Replacement?| url = https://link.springer.com/article/10.1007%2Fs10914-011-9175-9 | journal = Journal of Mammalian Evolution | volume = 20 | issue = 1| pages = 3–21 | doi=10.1007/s10914-011-9175-9}}</ref> [[Bathornithidae|Bathornithids]], which were similar in ecology and are likely close relatives of phorusrhacids, existed entirely within North America during part of the Cenozoic and competed successfully for a time with large carnivorans such as nimravids,<ref name = "Cracraft1968" /> before becoming extinct in the Early Miocene, about 20 million years ago. The phorusrhacid ''[[Titanis]]'' expanded northward into a small area of North America during the Interchange and coexisted for several million years with large canids and big cats like ''[[Xenosmilus]]'', before its extinction about 1.8 million years ago.
However, the role of competitive displacement in South American predator lineages is now being questioned by some researchers.<ref>Darren Naish, "Dumb Metatherians vs Evil, Smart Placentals", ''Dinosaur Mailing List'', 30 May 2001, http://dml.cmnh.org/2001May/msg00530.html</ref> The timing of turnover events does not correlate well with the arrival of large carnivores like canids or sabretooths (although it does correlate well with the earlier-arriving procyonids, which evolved to [[Chapalmalania|large body size]] in South America), with native South American predator lineages (including most phorusrhacids and all sparassodonts and sebecids) dying out well before the arrival of most larger placental carnivores.<ref name="link.springer.com">{{cite journal | last1 = Prevosti | first1 = Francisco J |last2 = Forasiepi | first2 = Analía | last3 = Zimicz | first3 = Natalia | year = 2013| title = The Evolution Of The Cenozoic Terrestrial Mammalian Predator Guild In South America: Competition Or Replacement?| url = https://link.springer.com/article/10.1007%2Fs10914-011-9175-9 | journal = Journal of Mammalian Evolution | volume = 20 | issue = 1| pages = 3–21 | doi=10.1007/s10914-011-9175-9}}</ref> [[Bathornithidae|Bathornithids]], which were similar in ecology and are likely close relatives of phorusrhacids, existed entirely within North America during part of the Cenozoic and competed successfully for a time with large carnivorans such as nimravids,<ref name = "Cracraft1968" /> before becoming extinct in the Early Miocene, about 20 million years ago. The phorusrhacid ''[[Titanis]]'' expanded northward into a small area of North America during the Interchange and coexisted for several million years with large canids and big cats like ''[[Xenosmilus]]'', before its extinction about 1.8 million years ago.


There were some suggestions that phorusracids, like the majority of Pleistocene megafauna, were killed off by human activity such as hunting or habitat change. This idea is no longer considered valid, as improved dating on ''Titanis'' specimens show that the last phorusracids went extinct over one million years before humans arrived. However, fossil finds in South America dating to the late Pleistocene indicate that ''[[Psilopterus]]'', a relatively small form, may have been present until 96,040 ± 6300 years ago. If true, this extends the existence of this group of avian predators considerably.<ref name= "Ubilla2017">{{cite journal|last1= Jones|first1= W.|last2= Rinderknecht|first2= A.|last3= Alvarenga|first3= H.|last4= Montenegro|first4= F.|last5= Ubilla|first5= M.|title=The last terror birds (Aves, Phorusrhacidae): new evidence from the late Pleistocene of Uruguay|journal= [[Paläontologische Zeitschrift]]|year= 2017|doi= 10.1007/s12542-017-0388-y}}</ref>
There were some suggestions that phorusracids, like the majority of Pleistocene megafauna, were killed off by human activity such as hunting or habitat change. This idea is no longer considered valid, as improved dating on ''Titanis'' specimens show that the last phorusracids went extinct over one million years before humans arrived. However, fossil finds in South America dating to the late Pleistocene indicate that ''[[Psilopterus]]'', a relatively small form, may have been present until 96,040 ± 6,300 years ago. If true, this extends the existence of this group of avian predators considerably.<ref name= "Ubilla2017">{{cite journal|last1= Jones|first1= W.|last2= Rinderknecht|first2= A.|last3= Alvarenga|first3= H.|last4= Montenegro|first4= F.|last5= Ubilla|first5= M.|title=The last terror birds (Aves, Phorusrhacidae): new evidence from the late Pleistocene of Uruguay|journal= [[Paläontologische Zeitschrift]]|year= 2017|doi= 10.1007/s12542-017-0388-y}}</ref>


== Recent skull discoveries ==
== Recent skull discoveries ==
[[File:Skull of Andalgalornis steulleti.png|thumb|upright|[[CT scan]] of the skull of P 14357, holotype of ''[[Andalgalornis|Andalgalornis ferox]]'' in the collections of the [[Field Museum of Natural History]]]]
[[File:Skull of Andalgalornis steulleti.png|thumb|upright|[[CT scan]] of the skull of P 14357, holotype of ''[[Andalgalornis|Andalgalornis ferox]]'' in the collections of the [[Field Museum of Natural History]]]]
In the past, these birds were thought to have high beaks, round [[orbit (anatomy)|orbits]], and vaulted [[braincase]]s<ref name="Chiappe, Luis M 2006"/> though there was never enough empirical evidence to support this. However, new fossils have been discovered in Cormollo, Argentina. These skulls reveal that the terror bird has a triangular dorsal view, a [[rostrum (anatomy)|rostrum]] that is hooked and more than half the length of the actual skull, and a more compact [[caudal (anatomical term)|caudal]] portion. The external [[beak#nares|nares]] and antorbital [[fenestra (anatomy)|fenestras]] (areas found in the nose) were found to be more square than triangular. These all contribute to a skull that is more rectangular in view rather than triangular.<ref name="Chiappe, Luis M 2006">{{cite journal | last1 = Chiappe | first1 = Luis M.Bertelli | last2 = Sara | first2 = | year = 2006 | title = Palaeontology: Skull Morphology Of Giant Terror Birds | url = | journal = Nature | volume = 443 | issue = 7114| page = 929 | doi=10.1038/443929a | pmid=17066027}}</ref> The structure of the fossils also suggest that these birds may have been swifter than originally thought.<ref name="Chiappe, Luis M 2006"/>
In the past, these birds were thought to have high beaks, round [[orbit (anatomy)|orbits]], and vaulted [[Neurocranium|braincases]]<ref name="Chiappe, Luis M 2006"/> though there was never enough empirical evidence to support this. However, new fossils have been discovered in Cormollo, Argentina. These skulls reveal that the terror bird has a triangular dorsal view, a [[rostrum (anatomy)|rostrum]] that is hooked and more than half the length of the actual skull, and a more compact [[Anatomical terms of location|caudal]] portion. The external [[beak#nares|nares]] and antorbital [[fenestra]]s (areas found in the nose) were found to be more square than triangular. These all contribute to a skull that is more rectangular in view rather than triangular.<ref name="Chiappe, Luis M 2006">{{cite journal | last1 = Chiappe | first1 = Luis M.Bertelli | last2 = Sara | first2 = | year = 2006 | title = Palaeontology: Skull Morphology Of Giant Terror Birds | url = | journal = Nature | volume = 443 | issue = 7114| page = 929 | doi=10.1038/443929a | pmid=17066027}}</ref> The structure of the fossils also suggest that these birds may have been swifter than originally thought.<ref name="Chiappe, Luis M 2006"/>


A skull from a smaller subspecies of this bird was also found recently. With this fossil, it was found that the internal structure of the beak is hollow and reinforced with thin-walled [[trabecular cartilage|trabeculae]]. There is also an absence of both zona flexoria palatina and zona flexoria arcus jugalis, which are key features that relate to the evolution of [[cranial kinesis|cranial akinesis]]. The discovery of this skull allows for the establishment of primary osteological homologies, which are useful in comparative anatomy, functional morphology, and phylogenetic studies.<ref>{{cite journal | last1 = Degrange | first1 = Federico J. | last2 = Tambussi | first2 = Claudia P. | year = 2011 | title = Re-examination of Psilopterus lemoinei (Aves, Phorusrhacidae), a late early Miocene little terror bird from Patagonia (Argentina) | url = | journal = Journal of Vertebrate Paleontology | volume = 31 | issue = 5| pages = 1080–1092 | doi = 10.1080/02724634.2011.595466 }}</ref>
A skull from a smaller subspecies of this bird was also found recently. With this fossil, it was found that the internal structure of the beak is hollow and reinforced with thin-walled [[trabecular cartilage|trabeculae]]. There is also an absence of both zona flexoria palatina and zona flexoria arcus jugalis, which are key features that relate to the evolution of [[cranial kinesis|cranial akinesis]]. The discovery of this skull allows for the establishment of primary osteological homologies, which are useful in comparative anatomy, functional morphology, and phylogenetic studies.<ref>{{cite journal | last1 = Degrange | first1 = Federico J. | last2 = Tambussi | first2 = Claudia P. | year = 2011 | title = Re-examination of Psilopterus lemoinei (Aves, Phorusrhacidae), a late early Miocene little terror bird from Patagonia (Argentina) | url = | journal = Journal of Vertebrate Paleontology | volume = 31 | issue = 5| pages = 1080–1092 | doi = 10.1080/02724634.2011.595466 }}</ref>


== Classification ==
== Classification ==
The etymology of the name Phorusrhacidae is based on the type genus ''[[Phorusrhacos]]''. When first described by [[Florentino Ameghino]] in 1887, the etymology of ''Phorusrhacos'' was not given. Current thinking is that the name is derived from a combination of the [[Greek language|Greek]] words "phoros", which means ''bearer'' or ''bearing'', and "rhacos", which translates to ''wrinkles'', ''scars'' or ''rents''.<ref>Ben Creisler, "Phorusrhacos "wrinkle bearer (jaw)": Etymology and Meaning", ''Dinosaur Mailing List'', 26 June 2012 http://dml.cmnh.org/2012Jun/msg00306.html</ref> Researchers have compared Phorusrhacidae with the living families of [[Cariamidae]] and [[Secretarybird|Sagittariidae]], but their differences in body mass are too drastic, and thus, one cannot overly depend on these living families for answers.
The etymology of the name Phorusrhacidae is based on the type genus ''[[Phorusrhacos]]''. When first described by [[Florentino Ameghino]] in 1887, the etymology of ''Phorusrhacos'' was not given. Current thinking is that the name is derived from a combination of the [[Greek language|Greek]] words "phoros", which means ''bearer'' or ''bearing'', and "rhacos", which translates to ''wrinkles'', ''scars'' or ''rents''.<ref>Ben Creisler, "Phorusrhacos "wrinkle bearer (jaw)": Etymology and Meaning", ''Dinosaur Mailing List'', 26 June 2012 http://dml.cmnh.org/2012Jun/msg00306.html</ref> Researchers have compared Phorusrhacidae with the living families of [[Seriema|Cariamidae]] and [[Secretarybird|Sagittariidae]], but their differences in body mass are too drastic and, thus, one cannot overly depend on these living families for answers.


Following the revision by Alvarenga and Höfling (2003), there are now 5 [[subfamily|subfamilies]], containing 14 [[genus|genera]] and 18 [[species]]:<ref name=Alvarengaetal2003>{{cite journal |last=Alvarenga |first=Herculano M.F. |authorlink= |author2=Höfling, Elizabeth |year=2003 |title=Systematic revision of the Phorusrhacidae (Aves: Ralliformes) |journal=Papéis Avulsos de Zoologia |volume=43 |issue=4 |pages=55–91 |id= |url=http://www.scielo.br/scielo.php?script=sci_pdf&pid=S0031-10492003000400001&lng=en&nrm=iso&tlng=en |accessdate= |quote= |doi=10.1590/S0031-10492003000400001}}</ref> These species were the product of adaptive radiation.<ref>{{cite journal | last1 = Cenizo | first1 = Marcos M. | year = 2012 | title = Review Of The Putative Phorusrhacidae From The Cretaceous And Paleogene Of Antarctica: New Records Of Ratites And Pelagornithid Birds | url = | journal = Polish Polar Research | volume = 33 | issue = 3| pages = 239–258 | doi=10.2478/v10183-012-0014-3}}</ref>
Following the revision by Alvarenga and Höfling (2003), there are now 5 [[subfamily|subfamilies]], containing 14 [[genus|genera]] and 18 [[species]]:<ref name=Alvarengaetal2003>{{cite journal |last=Alvarenga |first=Herculano M.F. |authorlink= |author2=Höfling, Elizabeth |year=2003 |title=Systematic revision of the Phorusrhacidae (Aves: Ralliformes) |journal=Papéis Avulsos de Zoologia |volume=43 |issue=4 |pages=55–91 |id= |url=http://www.scielo.br/scielo.php?script=sci_pdf&pid=S0031-10492003000400001&lng=en&nrm=iso&tlng=en |accessdate= |quote= |doi=10.1590/S0031-10492003000400001}}</ref> These species were the product of adaptive radiation.<ref>{{cite journal | last1 = Cenizo | first1 = Marcos M. | year = 2012 | title = Review Of The Putative Phorusrhacidae From The Cretaceous And Paleogene Of Antarctica: New Records Of Ratites And Pelagornithid Birds | url = | journal = Polish Polar Research | volume = 33 | issue = 3| pages = 239–258 | doi=10.2478/v10183-012-0014-3}}</ref>


'''Superfamily Phorusrhacoidea'''
'''Superfamily Phorusrhacoidea'''
* Genus ''[[Lavocatavis]]'' - Middle Eocene [[Glib Zegdou Formation]] of Algeria
* Genus ''[[Lavocatavis]]'' Middle Eocene [[Glib Zegdou Formation]] of Algeria


'''Family Phorusrhacidae'''
'''Family Phorusrhacidae'''
* Genus ''[[Patagorhacos]]'' - Early Miocene [[Chichinales Formation]] of Rio Negro Province, Argentina.<ref name=ChichinalesFmbirds>{{Cite journal|author1=Federico L. Agnolin |author2=Pablo Chafrat |lastauthoramp=yes |year=2015 |title=New fossil bird remains from the Chichinales Formation (Early Miocene) of northern Patagonia, Argentina |journal=Annales de Paléontologie |volume= 101|issue= |pages= 87–94|doi=10.1016/j.annpal.2015.02.001 }}</ref>
* Genus ''[[Patagorhacos]]'' Early Miocene [[Chichinales Formation]] of Rio Negro Province, Argentina.<ref name=ChichinalesFmbirds>{{Cite journal|author1=Federico L. Agnolin |author2=Pablo Chafrat |lastauthoramp=yes |year=2015 |title=New fossil bird remains from the Chichinales Formation (Early Miocene) of northern Patagonia, Argentina |journal=Annales de Paléontologie |volume= 101|issue= |pages= 87–94|doi=10.1016/j.annpal.2015.02.001 }}</ref>
* '''Subfamily Brontornithinae''' — gigantic species, standing over {{convert|2.3|m|ft}} high. Placement in Phorusrhacidae and/or monophyly disputed.
* '''Subfamily Brontornithinae''' — gigantic species, standing over {{convert|2.3|m|ft}} high. Placement in Phorusrhacidae and/or monophyly disputed.
** Genus ''[[Brontornis]]'' (Early to Middle Miocene ([[Santacrucian]]-[[Laventan]]) [[Santa Cruz Formation|Santa Cruz]] and [[Monte León Formation]]s, Argentina)
** Genus ''[[Brontornis]]'' (Early to Middle Miocene ([[Santacrucian]]-[[Laventan]]) [[Santa Cruz Formation|Santa Cruz]] and [[Monte León Formation]]s, Argentina)
Line 97: Line 97:
** Genus ''[[Titanis]]'' (Early Pliocene to Early Pleistocene ([[Blancan]]) of Florida and Texas)
** Genus ''[[Titanis]]'' (Early Pliocene to Early Pleistocene ([[Blancan]]) of Florida and Texas)
* '''Subfamily Patagornithinae''' — intermediate sized and very nimble species, standing around {{convert|1.7|m|ft}} high
* '''Subfamily Patagornithinae''' — intermediate sized and very nimble species, standing around {{convert|1.7|m|ft}} high
** Genus ''[[Patagornis]]'' (Early to Middle Miocene ([[Santacrucian]]-[[Laventan]]) [[Santa Cruz Formation]] of Santa Cruz Province, Argentina) - includes ''Morenomerceraria'', ''Palaeociconia'', ''Tolmodus''<!-- Condor54:174 -->
** Genus ''[[Patagornis]]'' (Early to Middle Miocene ([[Santacrucian]]-[[Laventan]]) [[Santa Cruz Formation]] of Santa Cruz Province, Argentina) includes ''Morenomerceraria'', ''Palaeociconia'', ''Tolmodus''<!-- Condor54:174 -->
** Genus ''[[Andrewsornis]]'' (Middle to Late Oligocene ([[Deseadan]]) [[Agua de la Piedra Formation]] of southern Argentina)
** Genus ''[[Andrewsornis]]'' (Middle to Late Oligocene ([[Deseadan]]) [[Agua de la Piedra Formation]] of southern Argentina)
** Genus ''[[Andalgalornis]]'' (Late Miocene to Early Pliocene ([[Huayquerian]]) [[Ituzaingó Formation]] of northwestern Argentina)
** Genus ''[[Andalgalornis]]'' (Late Miocene to Early Pliocene ([[Huayquerian]]) [[Ituzaingó Formation]] of northwestern Argentina)
* '''Subfamily Psilopterinae''' — small species, standing {{convert|70|-|100|cm|ft}} high
* '''Subfamily Psilopterinae''' — small species, standing {{convert|70||100|cm|ft}} high
** Genus ''[[Eleutherornis]]'' (Middle Eocene ([[Bartonian]]) of Rhône, France and Baselland, Switzerland)<ref name= Eleutherornis>{{Cite journal | doi = 10.1371/journal.pone.0080357| title = "Terror Birds" (Phorusrhacidae) from the Eocene of Europe Imply Trans-Tethys Dispersal| journal = PLOS One| volume = 8| issue = 11| pages = e80357| year = 2013| last1 = Angst | first1 = D. | last2 = Buffetaut | first2 = E. | last3 = Lécuyer | first3 = C. | last4 = Amiot | first4 = R. | pmid=24312212 | pmc=3842325}}</ref>
** Genus ''[[Eleutherornis]]'' (Middle Eocene ([[Bartonian]]) of Rhône, France and Baselland, Switzerland)<ref name= Eleutherornis>{{Cite journal | doi = 10.1371/journal.pone.0080357| title = "Terror Birds" (Phorusrhacidae) from the Eocene of Europe Imply Trans-Tethys Dispersal| journal = PLOS One| volume = 8| issue = 11| pages = e80357| year = 2013| last1 = Angst | first1 = D. | last2 = Buffetaut | first2 = E. | last3 = Lécuyer | first3 = C. | last4 = Amiot | first4 = R. | pmid=24312212 | pmc=3842325}}</ref>
** Genus ?''[[Paleopsilopterus]]'' (Middle Paleocene ([[Itaboraian]]) [[Itaboraí Formation]] of Itaboraí, Brazil) (identity as a phorusrhacid dubious)<ref name="Eleutherornis"/><ref>{{cite journal | last1 = Alvarenga | first1 = HMF | last2 = Höfling | first2 = E | year = 2003 | title = Systematic revision of the Phorusrhacidae (Aves: Ralliformes) | url = | journal = Papéis Avulsos de Zoologia | volume = 43 | issue = | pages = 55–91 | doi = 10.1590/s0031-10492003000400001 }}</ref>
** Genus ?''[[Paleopsilopterus]]'' (Middle Paleocene ([[Itaboraian]]) [[Itaboraí Formation]] of Itaboraí, Brazil) (identity as a phorusrhacid dubious)<ref name="Eleutherornis"/><ref>{{cite journal | last1 = Alvarenga | first1 = HMF | last2 = Höfling | first2 = E | year = 2003 | title = Systematic revision of the Phorusrhacidae (Aves: Ralliformes) | url = | journal = Papéis Avulsos de Zoologia | volume = 43 | issue = | pages = 55–91 | doi = 10.1590/s0031-10492003000400001 }}</ref>
** Genus ''[[Procariama]]'' (Late Miocene to Early Pliocene ([[Huayquerian]]-[[Montehermosan]]) [[Cerro Azul Formation|Cerro Azul]] and [[Andalhuala Formation]]s of Catamarca Province, Argentina)
** Genus ''[[Procariama]]'' (Late Miocene to Early Pliocene ([[Huayquerian]]-[[Montehermosan]]) [[Cerro Azul Formation|Cerro Azul]] and [[Andalhuala Formation]]s of Catamarca Province, Argentina)
** Genus ''[[Psilopterus]]'' (Middle Oligocene ([[Deseadan]]) [[Santa Cruz Formation]] and Late Miocene ([[Chasicoan]]) [[Arroyo Chasicó Formation]] of southern and eastern Argentina respectively)<!-- AmMusNovit2388:1 -->
** Genus ''[[Psilopterus]]'' (Middle Oligocene ([[Deseadan]]) [[Santa Cruz Formation]] and Late Miocene ([[Chasicoan]]) [[Arroyo Chasicó Formation]] of southern and eastern Argentina respectively)<!-- AmMusNovit2388:1 -->
* '''Subfamily Mesembriornithinae''' — medium-sized species, standing between {{convert|1.2|-|1.5|m|ft}} high
* '''Subfamily Mesembriornithinae''' — medium-sized species, standing between {{convert|1.2||1.5|m|ft}} high
** Genus ''[[Mesembriornis]]'' (Late Miocene to Late Pliocene ([[Montehermosan]]) [[Monte Hermoso Formation]] of Argentina)
** Genus ''[[Mesembriornis]]'' (Late Miocene to Late Pliocene ([[Montehermosan]]) [[Monte Hermoso Formation]] of Argentina)
** Genus ''[[Llallawavis]]'' (Late Pliocene ([[Chapadmalalan]]) [[Playa Los Lobos Allo Formation]] of northeastern Argentina)<ref>{{Cite journal|author1=Federico J. Degrange |author2=Claudia P. Tambussi |author3=Matías L. Taglioretti |author4=Alejandro Dondas |author5=Fernando Scaglia |year=2015 |title=A new Mesembriornithinae (Aves, Phorusrhacidae) provides new insights into the phylogeny and sensory capabilities of terror birds |journal=Journal of Vertebrate Paleontology |volume=Online edition |issue= |pages= e912656|doi=10.1080/02724634.2014.912656 }}</ref>
** Genus ''[[Llallawavis]]'' (Late Pliocene ([[Chapadmalalan]]) [[Playa Los Lobos Allo Formation]] of northeastern Argentina)<ref>{{Cite journal|author1=Federico J. Degrange |author2=Claudia P. Tambussi |author3=Matías L. Taglioretti |author4=Alejandro Dondas |author5=Fernando Scaglia |year=2015 |title=A new Mesembriornithinae (Aves, Phorusrhacidae) provides new insights into the phylogeny and sensory capabilities of terror birds |journal=Journal of Vertebrate Paleontology |volume=Online edition |issue= |pages= e912656|doi=10.1080/02724634.2014.912656 }}</ref>


Alvarenga and Höfling did not include the [[Ameghinornithidae]] from Europe in the phorusrhacoids; these have meanwhile turned out to be more basal members of Cariamae.<ref name=Mayr2005>{{cite journal |last=Mayr |first=Gerald |date= 2005-04-15 |title=Old World phorusrhacids (Aves, Phorusrhacidae): a new look at ''Strigogyps'' ("''Aenigmavis''") ''sapea'' (Peters 1987) |journal=PaleoBios |volume=25 |issue=1 |pages=11–16 |id= |url=http://www.ucmp.berkeley.edu/science/paleobios/abstracts_21to25.php |accessdate=2008-07-04 |quote=|format=abstract }}</ref> Though traditionally considered as members of the [[Gruiformes]], based on both morphological and genetic studies (the latter being based on the seriema<ref>{{cite journal
Alvarenga and Höfling did not include the [[Strigogyps|Ameghinornithidae]] from Europe in the phorusrhacoids; these have meanwhile turned out to be more basal members of Cariamae.<ref name=Mayr2005>{{cite journal |last=Mayr |first=Gerald |date= 2005-04-15 |title=Old World phorusrhacids (Aves, Phorusrhacidae): a new look at ''Strigogyps'' ("''Aenigmavis''") ''sapea'' (Peters 1987) |journal=PaleoBios |volume=25 |issue=1 |pages=11–16 |id= |url=http://www.ucmp.berkeley.edu/science/paleobios/abstracts_21to25.php |accessdate=2008-07-04 |quote=|format=abstract }}</ref> Though traditionally considered as members of the [[Gruiformes]], based on both morphological and genetic studies (the latter being based on the seriema<ref>{{cite journal
| last = Hackett
| last = Hackett
| first = Shannon J.
| first = Shannon J.
| title = A Phylogenomic Study of Birds Reveals Their Evolutionary History
| title = A Phylogenomic Study of Birds Reveals Their Evolutionary History
| journal = Science
| journal = Science
| volume = 320
| volume = 320
| issue = 5884
| issue = 5884
| pages = 1763–1768
| pages = 1763–1768
| publisher =
| publisher =
| location =
| location =
| date = 2008-06-27
| date = 2008-06-27
| url = http://www.sciencemag.org/cgi/content/abstract/320/5884/1763
| url = http://www.sciencemag.org/cgi/content/abstract/320/5884/1763
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| doi = 10.1126/science.1157704
| id =
| id =
| accessdate = 2008-10-18
| accessdate = 2008-10-18
| pmid = 18583609|display-authors=etal}}</ref>) [[Cariamiformes]] may belong to a separate group of birds, [[Australaves]], and their closest living relatives, according to nuclear sequence studies, are a [[clade]] consisting of [[Falconidae]], [[Psittaciformes]] and [[Passeriformes]].<ref name=Suh>{{cite journal|url=http://www.nature.com/ncomms/journal/v2/n8/full/ncomms1448.html|title=Mesozoic retroposons reveal parrots as the closest living relatives of passerine birds|author=Alexander Suh|journal=Nature Communications|volume=2|date=2011-08-23|issue=8|doi=10.1038/ncomms1448|pmid=21863010|pmc=3265382|display-authors=etal|pages=443}}</ref><ref name = "Jarvis2014">{{Cite journal | doi = 10.1126/science.1253451 |pmid=25504713|url=https://pgl.soe.ucsc.edu/jarvis14.pdf| title = Whole-genome analyses resolve early branches in the tree of life of modern birds| journal = Science| volume = 346| issue = 6215| pages = 1320–1331| date = 2014| last1 = Jarvis | first1 = E. D. | author1-link = Erich Jarvis| last2 = Mirarab | first2 = S.| last3 = Aberer | first3 = A. J.| last4 = Li | first4 = B.| last5 = Houde | first5 = P.| last6 = Li | first6 = C.| last7 = Ho | first7 = S. Y. W.| last8 = Faircloth | first8 = B. C.| last9 = Nabholz | first9 = B.| last10 = Howard | first10 = J. T.| last11 = Suh | first11 = A.| last12 = Weber | first12 = C. C.| last13 = Da Fonseca | first13 = R. R.| last14 = Li | first14 = J.| last15 = Zhang | first15 = F.| last16 = Li | first16 = H.| last17 = Zhou | first17 = L.| last18 = Narula | first18 = N.| last19 = Liu | first19 = L.| last20 = Ganapathy | first20 = G.| last21 = Boussau | first21 = B.| last22 = Bayzid | first22 = M. S.| last23 = Zavidovych | first23 = V.| last24 = Subramanian | first24 = S.| last25 = Gabaldon | first25 = T.| last26 = Capella-Gutierrez | first26 = S.| last27 = Huerta-Cepas | first27 = J.| last28 = Rekepalli | first28 = B.| last29 = Munch | first29 = K.| last30 = Schierup | first30 = M.| display-authors = 29 | pmc=4405904}}</ref>
| pmid = 18583609|display-authors=etal}}</ref>) [[Cariamiformes]] may belong to a separate group of birds, [[Australaves]], and their closest living relatives, according to nuclear sequence studies, are a [[clade]] consisting of [[Falconidae]], [[Parrot|Psittaciformes]] and [[Passerine|Passeriformes]].<ref name=Suh>{{cite journal|url=http://www.nature.com/ncomms/journal/v2/n8/full/ncomms1448.html|title=Mesozoic retroposons reveal parrots as the closest living relatives of passerine birds|author=Alexander Suh|journal=Nature Communications|volume=2|date=2011-08-23|issue=8|doi=10.1038/ncomms1448|pmid=21863010|pmc=3265382|display-authors=etal|pages=443}}</ref><ref name = "Jarvis2014">{{Cite journal | doi = 10.1126/science.1253451 |pmid=25504713|url=https://pgl.soe.ucsc.edu/jarvis14.pdf| title = Whole-genome analyses resolve early branches in the tree of life of modern birds| journal = Science| volume = 346| issue = 6215| pages = 1320–1331| date = 2014| last1 = Jarvis | first1 = E. D. | author1-link = Erich Jarvis| last2 = Mirarab | first2 = S.| last3 = Aberer | first3 = A. J.| last4 = Li | first4 = B.| last5 = Houde | first5 = P.| last6 = Li | first6 = C.| last7 = Ho | first7 = S. Y. W.| last8 = Faircloth | first8 = B. C.| last9 = Nabholz | first9 = B.| last10 = Howard | first10 = J. T.| last11 = Suh | first11 = A.| last12 = Weber | first12 = C. C.| last13 = Da Fonseca | first13 = R. R.| last14 = Li | first14 = J.| last15 = Zhang | first15 = F.| last16 = Li | first16 = H.| last17 = Zhou | first17 = L.| last18 = Narula | first18 = N.| last19 = Liu | first19 = L.| last20 = Ganapathy | first20 = G.| last21 = Boussau | first21 = B.| last22 = Bayzid | first22 = M. S.| last23 = Zavidovych | first23 = V.| last24 = Subramanian | first24 = S.| last25 = Gabaldon | first25 = T.| last26 = Capella-Gutierrez | first26 = S.| last27 = Huerta-Cepas | first27 = J.| last28 = Rekepalli | first28 = B.| last29 = Munch | first29 = K.| last30 = Schierup | first30 = M.| display-authors = 29 | pmc=4405904}}</ref>


{{Portal|Birds|Prehistory of South America}}
{{Portal|Birds|Prehistory of South America}}

Revision as of 08:12, 5 November 2018

Phorusrhacids
Temporal range: Late PaleoceneEarly Pleistocene,[1] 62–1.8 Ma
Reconstructed skeleton of Titanis walleri, Florida Museum of Natural History
Scientific classification Edit this classification
Domain: Eukaryota
Kingdom: Animalia
Phylum: Chordata
Class: Aves
Order: Cariamiformes
Superfamily: Phorusrhacoidea
Ameghino, 1889
Family: Phorusrhacidae
Ameghino, 1889[2]
Type species
Phorusrhacos longissimus
Ameghino, 1887
Subfamilies

Brontornithinae
Mesembriornithinae
Patagornithinae
Phorusrhacinae
Psilopterinae

Synonyms
Family synonymy
  • Pelecyornidae Ameghino, 1891
  • Brontornithidae Moreno & Mercerat, 1891
  • Darwinornithidae Moreno & Mercerat, 1891
  • Stereornithidae Moreno & Mercerat, 1891
  • Patagornithidae Mercerat, 1897
  • Hermosiornidae Rovereto, 1914
  • Psilopteridae Dolgopol de Saez, 1927
  • Devincenziidae Kraglievich, 1932
  • Mesembriorniidae Kraglievich, 1932
Llallwavis scagliai, a 1.2-metre-tall (3 ft 11 in) Pliocene phorusrhacid

Phorusrhacids, colloquially known as terror birds, are an extinct clade of large carnivorous flightless birds that were the largest species of apex predators in South America during the Cenozoic era; their temporal range covers from 62 to 1.8 million years (Ma) ago.[1][3]

They ranged in height from 1–3 m (3 ft 3 in – 9 ft 10 in) tall. Their closest modern-day relatives are believed to be the 80-centimetre-tall (31 in) seriemas. Titanis walleri, one of the larger species, is known from Texas and Florida in North America. This makes the phorusrhacids the only known large South American predator to migrate north in the Great American Interchange that followed the formation of the Isthmus of Panama land bridge (the main pulse of the interchange began about 2.6 Ma ago; Titanis at 5 Ma was an early northward migrant).[4]

It was once believed that T. walleri became extinct in North America around the time of the arrival of humans,[5] but subsequent datings of Titanis fossils provided no evidence for their survival after 1.8 Ma.[6] Still, reports from Uruguay of new findings of relatively small forms dating to 450,000 and 17,000 years ago,[7][8] would imply that some phorusrhacids survived there until very recently (i.e., until the late Pleistocene); but this claim is debated.[9]

Phorusrhacids may have even made their way into Africa; the genus Lavocatavis was recently discovered in Algeria, but its status as a true phorusrhacid is questioned.[10] A possible European form, Eleutherornis, has also been identified, suggesting that this group had a wider geographical range in the Paleogene.[11][12]

The closely related bathornithids occupied a similar ecological niche in North America across the Eocene to Early Miocene; some, like Paracrax, were similar in size to the largest phorusrhacids.[13][14] At least one analysis recovers Bathornis as sister taxa to phorusrhacids, on the basis of shared features in the jaws and coracoid,[15] though this has been seriously contested, as these might have evolved independently for the same carnivorous, flightless lifestyle.[16]

Description

Based on Claudia P. Tambussi, Ricardo de Mendoza, Federico J. Degrange, and Mariana B. Picasso's work, the phorusrhacid's neck can be divided into three main regions. In the higher regions of the neck, the phorusrhacid has bifurcate neural spines (BNS), while it has high neural spines in its lower regions. This suggests that the phorusrhacid had a highly flexible and developed neck allowing it to carry its heavy head and strike with terrifying speed and power. Although the phorusrhacid externally looks like it has a short neck, its flexible skeletal neck structure proves that it can expand farther beyond the expected reach and intimidate its prey using its height, allowing it to strike more easily. Once stretched out into its full length in preparation for a downward strike, its developed neck muscles and heavy head can produce enough momentum and power to cause fatal damage to the terror bird's prey.[17]

Kelenken guillermoi, from the Langhian stage of the Miocene epoch, some 15 million years ago, discovered in Patagonia in 2006, represents the largest bird skull yet found. The fossil has been described as being a 71-centimetre (28 in), nearly intact skull. The beak is roughly 46 cm (18 in) long and curves in a hook shape that resembles an eagle's beak. Most species described as phorusrhacid birds were smaller, 60–90 cm (2.0–3.0 ft) tall, but the new fossil belongs to a bird that probably stood about 3 m (9.8 ft) tall. Scientists theorize that the large terror birds were extremely nimble and quick runners, able to reach speeds of 48 km/h (30 mph).[18] Examination of phorusrhacid habitats also indicates that phorusrhacids may have presented intense competition to predatory marsupial sparassodonts such as borhyaenids and thylacosmilids, causing the mammalian predators to choose forested habitats to avoid the more successful and aggressive avian predators on the open plains.[19]

Palaeobiology

Most phorusrhacids were very fast runners. All members possessed a large, sharp beak, a powerful neck and sharp talons. However, even with these attributes, the phorusrhacids are often assumed to have preyed on relatively small animals (about the size of a rabbit) that could be dispatched with a minimum of struggle. This is due to the fact that with the phorusrhacids' beak proportions, the jaw could not generate a great deal of bite force with which to kill the prey. This is disputable as many big-game hunting predators such as Smilodon, great white sharks and Allosaurus have weaker bite forces and often laterally weak skulls as adaptations towards, not away from, killing large prey, relying instead on the presence of a cutting edge, a wide gape made possible by the reduction of jaw musculature, and the driving force of the body or neck.[20][21] Since phorusrhacids share many of the same adaptations, such as a large, laterally flattened skull with a sharp-edged beak and powerful neck musculature, it is possible that they were specialized predators of relatively large prey.

The bones of the beak were tightly fused together, making the beak more resilient to force from the front to back direction, thus suggesting that it could cause a great amount of harm through pecking as opposed to side-to-side head movements like shaking prey. Generally speaking, it is thought that a terror bird would use its feet to injure prey by kicking it, and to hold the prey down and dispatch by pecking at it with its large beak. Larger prey may also have been attacked by pecking and kicking,[22] or by using the beak as a blade to strike at or slash vital organs.

It has been recently shown that at least some phorusrhacids like Andalgalornis, while very fast runners in a straight line, were poor at tight turns at speed, which contradicts the idea of phorusrhacids being agile predators of small prey.[23]

Diet

All phorusrhacids are thought to have been carnivorous. The strong downwards curve from the tip of this beak suggests that it ripped the flesh from the body of other animals. Many extant bird species with this feature are carnivorous. CT scans performed on the skull of a phorusrhacid reveal that the species would not have been able to shake its prey side to side, but rather exert significant downward force.[24]

Extinction

During the Miocene and early Pliocene epochs, there was an increase in the phorusrhacid population size in South America, suggesting that, in that time frame, the various species flourished as predators in the savannah environment.

When the Isthmus of Panama emerged, 2.7 million years ago, carnivorous dogs, bears, and cats from North America were able to cross into South America, increasing competition.[25] (They had been preceded by procyonids as early as 7.3 million years ago.[4]) The population of phorusrhacids declined thereafter, suggesting that competition with newly arrived predators was a major contributor to their extinction.[26] Similar ideas have been considered for sparassodonts and for South America's terrestrial sebecid crocodilians.[27]

However, the role of competitive displacement in South American predator lineages is now being questioned by some researchers.[28] The timing of turnover events does not correlate well with the arrival of large carnivores like canids or sabretooths (although it does correlate well with the earlier-arriving procyonids, which evolved to large body size in South America), with native South American predator lineages (including most phorusrhacids and all sparassodonts and sebecids) dying out well before the arrival of most larger placental carnivores.[29] Bathornithids, which were similar in ecology and are likely close relatives of phorusrhacids, existed entirely within North America during part of the Cenozoic and competed successfully for a time with large carnivorans such as nimravids,[14] before becoming extinct in the Early Miocene, about 20 million years ago. The phorusrhacid Titanis expanded northward into a small area of North America during the Interchange and coexisted for several million years with large canids and big cats like Xenosmilus, before its extinction about 1.8 million years ago.

There were some suggestions that phorusracids, like the majority of Pleistocene megafauna, were killed off by human activity such as hunting or habitat change. This idea is no longer considered valid, as improved dating on Titanis specimens show that the last phorusracids went extinct over one million years before humans arrived. However, fossil finds in South America dating to the late Pleistocene indicate that Psilopterus, a relatively small form, may have been present until 96,040 ± 6,300 years ago. If true, this extends the existence of this group of avian predators considerably.[8]

Recent skull discoveries

CT scan of the skull of P 14357, holotype of Andalgalornis ferox in the collections of the Field Museum of Natural History

In the past, these birds were thought to have high beaks, round orbits, and vaulted braincases[30] though there was never enough empirical evidence to support this. However, new fossils have been discovered in Cormollo, Argentina. These skulls reveal that the terror bird has a triangular dorsal view, a rostrum that is hooked and more than half the length of the actual skull, and a more compact caudal portion. The external nares and antorbital fenestras (areas found in the nose) were found to be more square than triangular. These all contribute to a skull that is more rectangular in view rather than triangular.[30] The structure of the fossils also suggest that these birds may have been swifter than originally thought.[30]

A skull from a smaller subspecies of this bird was also found recently. With this fossil, it was found that the internal structure of the beak is hollow and reinforced with thin-walled trabeculae. There is also an absence of both zona flexoria palatina and zona flexoria arcus jugalis, which are key features that relate to the evolution of cranial akinesis. The discovery of this skull allows for the establishment of primary osteological homologies, which are useful in comparative anatomy, functional morphology, and phylogenetic studies.[31]

Classification

The etymology of the name Phorusrhacidae is based on the type genus Phorusrhacos. When first described by Florentino Ameghino in 1887, the etymology of Phorusrhacos was not given. Current thinking is that the name is derived from a combination of the Greek words "phoros", which means bearer or bearing, and "rhacos", which translates to wrinkles, scars or rents.[32] Researchers have compared Phorusrhacidae with the living families of Cariamidae and Sagittariidae, but their differences in body mass are too drastic and, thus, one cannot overly depend on these living families for answers.

Following the revision by Alvarenga and Höfling (2003), there are now 5 subfamilies, containing 14 genera and 18 species:[33] These species were the product of adaptive radiation.[34]

Superfamily Phorusrhacoidea

Family Phorusrhacidae

Alvarenga and Höfling did not include the Ameghinornithidae from Europe in the phorusrhacoids; these have meanwhile turned out to be more basal members of Cariamae.[38] Though traditionally considered as members of the Gruiformes, based on both morphological and genetic studies (the latter being based on the seriema[39]) Cariamiformes may belong to a separate group of birds, Australaves, and their closest living relatives, according to nuclear sequence studies, are a clade consisting of Falconidae, Psittaciformes and Passeriformes.[40][41]

References

  1. ^ a b Tambussi, C.; Ubilla, M.; Perea, D. (1999). "The youngest large carnassial bird (Phorusrhacidae, Phorusrhacinae) from South America (Pliocene–Early Pleistocene of Uruguay)". Journal of Vertebrate Paleontology. 19 (2): 404–406. doi:10.1080/02724634.1999.10011154.
  2. ^ Ameghino, F (1889). "Contribuición al conocimiento de los mamíferos fósiles de la República Argentina". Actas Academia Nacional Ciencias de Córdoba (in Spanish). 6: 1–1028.
  3. ^ Blanco, R. E.; Jones, W. W. (2005). "Terror birds on the run: a mechanical model to estimate its maximum running speed" (PDF). Proceedings of the Royal Society B. 272 (1574): 1769–1773. doi:10.1098/rspb.2005.3133. PMC 1559870. PMID 16096087.
  4. ^ a b Woodburne, M. O. (2010-07-14). "The Great American Biotic Interchange: Dispersals, Tectonics, Climate, Sea Level and Holding Pens". Journal of Mammalian Evolution. 17 (4): 245–264. doi:10.1007/s10914-010-9144-8. PMC 2987556. PMID 21125025.
  5. ^ Baskin, J. A. (1995). "The giant flightless bird Titanis walleri (Aves: Phorusrhacidae) from the Pleistocene coastal plain of South Texas". Journal of Vertebrate Paleontology. 15 (4): 842–844. doi:10.1080/02724634.1995.10011266.
  6. ^ MacFadden, Bruce J.; Labs-Hochstein, Joann; Hulbert, Richard C.; Baskin, Jon A. (2007). "Revised age of the late Neogene terror bird (Titanis) in North America during the Great American Interchange". Geology. 35 (2): 123–126. doi:10.1130/G23186A.1. Archived from the original (PDF) on 2012-02-17. {{cite journal}}: Unknown parameter |deadurl= ignored (|url-status= suggested) (help)
  7. ^ Alvarenga, H.; Jones, W.; Rinderknecht, A. (2010). "The youngest record of phorusrhacid birds (Aves, Phorusrhacidae) from the late Pleistocene of Uruguay" (PDF). Neues Jahrbuch für Geologie und Paläontologie - Abhandlungen. 256 (2): 229–234. doi:10.1127/0077-7749/2010/0052.
  8. ^ a b Jones, W.; Rinderknecht, A.; Alvarenga, H.; Montenegro, F.; Ubilla, M. (2017). "The last terror birds (Aves, Phorusrhacidae): new evidence from the late Pleistocene of Uruguay". Paläontologische Zeitschrift. doi:10.1007/s12542-017-0388-y.
  9. ^ Agnolin, F. (2013). La posición sistemática de Hermosiornis (Aves, Phororhacoidea) y sus implicancias filogenéticas. Revista del Museo Argentino de Ciencias Naturales nueva serie, 15(1), 39-60.
  10. ^ Mourer-Chauviré, C. et al. (2011) A Phororhacoid bird from the Eocene of Africa. Naturwissenschaften doi:10.1007/s00114-011-0829-5
  11. ^ Delphine Angst et al. (2013) A Large Phorusrhacid Bird From the Middle Eocene of France.
  12. ^ a b c Angst, D.; Buffetaut, E.; Lécuyer, C.; Amiot, R. (2013). ""Terror Birds" (Phorusrhacidae) from the Eocene of Europe Imply Trans-Tethys Dispersal". PLOS One. 8 (11): e80357. doi:10.1371/journal.pone.0080357. PMC 3842325. PMID 24312212.{{cite journal}}: CS1 maint: unflagged free DOI (link)
  13. ^ Benton, R. C.; Terry, D. O., Jr.; Evanoff, E.; McDonald, H. G. (25 May 2015). The White River Badlands: Geology and Paleontology. Indiana University Press. p. 95. ISBN 978-0253016089.{{cite book}}: CS1 maint: multiple names: authors list (link)
  14. ^ a b Cracraft, J. (1968). "A review of the Bathornithidae (Aves, Gruiformes), with remarks on the relationships of the suborder Cariamae". American Museum Novitates. 2326: 1–46. Retrieved 2018-05-26.
  15. ^ Federico L. Agnolin (2009). "Sistemática y Filogenia de las Aves Fororracoideas (Gruiformes, Cariamae)" (PDF). Fundación de Historia Natural Felix de Azara: 1–79.
  16. ^ Mayr, G.; Noriega, J. (2013). "A well-preserved partial skeleton of the poorly known early Miocene seriema Noriegavis santacrucensis (Aves, Cariamidae)". Acta Palaeontologica Polonica. doi:10.4202/app.00011.2013.
  17. ^ Tambussi, CP; de Mendoza, R; Degrange, FJ; Picasso, MB. (2013). "Flexibility along the Neck of the Neogene Terror Bird Andalgalornis steulleti (Aves Phorusrhacidae)". PLOS One. 7: e37701. doi:10.1371/journal.pone.0037701. PMC 3360764. PMID 22662194.{{cite journal}}: CS1 maint: unflagged free DOI (link)
  18. ^ Bertelli, Sara; Chiappe, Luis M; Tambussi, Claudia (2007). "A New Phorusrhacid (Aves: Cariamae) from the Middle Miocene of Patagonia, Argentina". Journal of Vertebrate Paleontology. 27 (2): 409–419. doi:10.1671/0272-4634(2007)27[409:ANPACF]2.0.CO;2.
  19. ^ Antón, Mauricio (2013). Sabertooth. Bloomington, Indiana: University of Indiana Press. p. 61. ISBN 9780253010421.
  20. ^ Bakker, Robert; et al. (1998). "Brontosaur Killers: Late Jurassic Allosaurids as Sabre-tooth Cat Analogues". GAIA. 15 (8): 145–158.
  21. ^ Duane Nash, "Terror Birds Cometh: A New Hypothesis Unlocking Phorusrhacid Feeding Dynamics & Ecology", Antediluvian Salad, 02 September 2015, http://antediluviansalad.blogspot.ca/2015/09/terror-birds-cometh-new-theory.htm
  22. ^ Wroe, Stephen; et al. (2010). "Mechanical Analysis Of Feeding Behavior In The Extinct "Terror Bird' Andalgalornis steulleti (Gruiformes: Phorusrhacidae)". PLOS One. 5 (8): 1–7. doi:10.1371/journal.pone.0011856.
  23. ^ King, James L. Semicircular canal shape within Aves and non-avian Theropoda: Utilizing geometric morphometrics to correlate life history with canal cross-sectional shape.
  24. ^ "Ancient "terror Bird" Used Powerful Beak to Jab like an Agile Boxer." OHIO: Research. Ohio Office of Research Communications, 18 Aug. 2010. Web. 24 Oct. 2013. http://www.ohio.edu/research/communications/terrorbirds.cfm.
  25. ^ Webb, S. David (23 August 2006). "The Great American Biotic Interchange: Patterns and Processes". Annals of the Missouri Botanical Garden. 93 (2): 245–257. doi:10.3417/0026-6493(2006)93[245:TGABIP]2.0.CO;2.
  26. ^ Marshall, Larry G. "The Terror Birds of South America." Scientific American Special Edition. N.p., n.d. Web. 24 Oct. 2013. http://usuarios.geofisica.unam.mx/cecilia/cursos/TerrorBirds-Marshall94.pdf.
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  29. ^ Prevosti, Francisco J; Forasiepi, Analía; Zimicz, Natalia (2013). "The Evolution Of The Cenozoic Terrestrial Mammalian Predator Guild In South America: Competition Or Replacement?". Journal of Mammalian Evolution. 20 (1): 3–21. doi:10.1007/s10914-011-9175-9.
  30. ^ a b c Chiappe, Luis M.Bertelli; Sara (2006). "Palaeontology: Skull Morphology Of Giant Terror Birds". Nature. 443 (7114): 929. doi:10.1038/443929a. PMID 17066027.
  31. ^ Degrange, Federico J.; Tambussi, Claudia P. (2011). "Re-examination of Psilopterus lemoinei (Aves, Phorusrhacidae), a late early Miocene little terror bird from Patagonia (Argentina)". Journal of Vertebrate Paleontology. 31 (5): 1080–1092. doi:10.1080/02724634.2011.595466.
  32. ^ Ben Creisler, "Phorusrhacos "wrinkle bearer (jaw)": Etymology and Meaning", Dinosaur Mailing List, 26 June 2012 http://dml.cmnh.org/2012Jun/msg00306.html
  33. ^ Alvarenga, Herculano M.F.; Höfling, Elizabeth (2003). "Systematic revision of the Phorusrhacidae (Aves: Ralliformes)". Papéis Avulsos de Zoologia. 43 (4): 55–91. doi:10.1590/S0031-10492003000400001.
  34. ^ Cenizo, Marcos M. (2012). "Review Of The Putative Phorusrhacidae From The Cretaceous And Paleogene Of Antarctica: New Records Of Ratites And Pelagornithid Birds". Polish Polar Research. 33 (3): 239–258. doi:10.2478/v10183-012-0014-3.
  35. ^ Federico L. Agnolin; Pablo Chafrat (2015). "New fossil bird remains from the Chichinales Formation (Early Miocene) of northern Patagonia, Argentina". Annales de Paléontologie. 101: 87–94. doi:10.1016/j.annpal.2015.02.001. {{cite journal}}: Unknown parameter |lastauthoramp= ignored (|name-list-style= suggested) (help)
  36. ^ Alvarenga, HMF; Höfling, E (2003). "Systematic revision of the Phorusrhacidae (Aves: Ralliformes)". Papéis Avulsos de Zoologia. 43: 55–91. doi:10.1590/s0031-10492003000400001.
  37. ^ Federico J. Degrange; Claudia P. Tambussi; Matías L. Taglioretti; Alejandro Dondas; Fernando Scaglia (2015). "A new Mesembriornithinae (Aves, Phorusrhacidae) provides new insights into the phylogeny and sensory capabilities of terror birds". Journal of Vertebrate Paleontology. Online edition: e912656. doi:10.1080/02724634.2014.912656.
  38. ^ Mayr, Gerald (2005-04-15). "Old World phorusrhacids (Aves, Phorusrhacidae): a new look at Strigogyps ("Aenigmavis") sapea (Peters 1987)" (abstract). PaleoBios. 25 (1): 11–16. Retrieved 2008-07-04.
  39. ^ Hackett, Shannon J.; et al. (2008-06-27). "A Phylogenomic Study of Birds Reveals Their Evolutionary History". Science. 320 (5884): 1763–1768. doi:10.1126/science.1157704. PMID 18583609. Retrieved 2008-10-18.
  40. ^ Alexander Suh; et al. (2011-08-23). "Mesozoic retroposons reveal parrots as the closest living relatives of passerine birds". Nature Communications. 2 (8): 443. doi:10.1038/ncomms1448. PMC 3265382. PMID 21863010.
  41. ^ Jarvis, E. D.; Mirarab, S.; Aberer, A. J.; Li, B.; Houde, P.; Li, C.; Ho, S. Y. W.; Faircloth, B. C.; Nabholz, B.; Howard, J. T.; Suh, A.; Weber, C. C.; Da Fonseca, R. R.; Li, J.; Zhang, F.; Li, H.; Zhou, L.; Narula, N.; Liu, L.; Ganapathy, G.; Boussau, B.; Bayzid, M. S.; Zavidovych, V.; Subramanian, S.; Gabaldon, T.; Capella-Gutierrez, S.; Huerta-Cepas, J.; Rekepalli, B.; Munch, K.; et al. (2014). "Whole-genome analyses resolve early branches in the tree of life of modern birds" (PDF). Science. 346 (6215): 1320–1331. doi:10.1126/science.1253451. PMC 4405904. PMID 25504713.
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