EVOLUTION OF LARGE CARNIVORES DURING THE MID-CENOZOIC OF NORTH AMERICA: THE TEMNOCYONINE RADIATION (MAMMALIA, AMPHICYONIDAE) ROBERT M.

This study describes and summarizes the Temnocyoninae (Mammalia, Carnivora), a subfamily of amphicyonid carnivores of considerable diversity and singular ecomorphology within Cenozoic faunas of North America. In temnocyonines, we see the first carnivorans to occupy an ecological niche as large curso...

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Main Author: Hunt, Robert M., Jr.
Format: Text
Language:unknown
Published: DigitalCommons@University of Nebraska - Lincoln 2011
Subjects:
Earth Sciences
Pacific
Canis lupus
Online Access:https://digitalcommons.unl.edu/geosciencefacpub/542
https://digitalcommons.unl.edu/cgi/viewcontent.cgi?article=1554&context=geosciencefacpub
id ftunivnebraskali:oai:digitalcommons.unl.edu:geosciencefacpub-1554
record_format openpolar
institution Open Polar
collection University of Nebraska-Lincoln: DigitalCommons@UNL
op_collection_id ftunivnebraskali
language unknown
topic Earth Sciences
spellingShingle Earth Sciences
Hunt, Robert M., Jr.
EVOLUTION OF LARGE CARNIVORES DURING THE MID-CENOZOIC OF NORTH AMERICA: THE TEMNOCYONINE RADIATION (MAMMALIA, AMPHICYONIDAE) ROBERT M.
topic_facet Earth Sciences
description This study describes and summarizes the Temnocyoninae (Mammalia, Carnivora), a subfamily of amphicyonid carnivores of considerable diversity and singular ecomorphology within Cenozoic faunas of North America. In temnocyonines, we see the first carnivorans to occupy an ecological niche as large cursorial predators. The subfamily is confined to the Arikareean NALMA, ranging in age from the latest early Oligocene to the early Miocene. Distributed from the Pacific Northwest to the Great Plains and Florida, there are four genera (Temnocyon, Mammacyon, Delotrochanter n. gen., Rudiocyon n. gen.) and 12 species, of which eight are newly described (Temnocyon subferox, T. fingeruti, T. macrogenys; Rudiocyon amplidens; Mammacyon ferocior; Delotrochanter petersoni, D. oryktes, D. major). Among the specimens examined are eight skulls, three with intact basicranial morphology that establish the presence of a plesiomorphic arctoid auditory region in the subfamily. Temnocyonine dentitions and postcranial skeletons reveal a blend of morphological characteristics not previously nor subsequently seen among the Carnivora. From a stem species, Temnocyon altigenis, there evolve both large hypercarnivorous (Temnocyon) and durophagous forms (Mammacyon, Delotrochanter); these genera share a derived dentition that defines the Temnocyoninae. Delotrochanter oryktes n. sp., an early Miocene species, was found in a den, suggesting a possible burrowing capability and sheltering of offspring. The John Day basin of Oregon and the central Great Plains (western Nebraska, southeast Wyoming) are the source of most temnocyonine fossils; a few have been found in southern California and Florida, indicative of a continent-wide distribution. Temnocyonines have often been confused with canids, however their basicranial anatomy places them securely within the Amphicyonidae. First discovered in the 1870s, only ~30 individuals comprise the entire record of the subfamily. Many were found in proximity to radioisotopically calibrated tuffs and ignimbrites and/or were closely associated with mammals of established biochronologic age. Thus, most species can be placed in a temporal context. With rare exception, the fossils represent isolated occurrences, hence estimates of variation within a population are lacking. Cursorial postcranial features characterize several lineages (Mammacyon, Delotrochanter) and probably were present in other temnocyonines known only from dental remains. Late Oligocene Mammacyon ferocior and early Miocene Delotrochanter oryktes evolved uniquely configured crushing cheek teeth and cursorial limbs, combining distinctive dental and skeletal traits in a manner not seen in any living carnivore. These species are interpreted as large durophagous predators with craniodental characteristics that parallel living hyaenids (Crocuta crocuta) and postcranial adaptations approaching those of cursorial canids such as the wolf (Canis lupus). Expansion of semiarid grasslands and savanna during the late Oligocene and early Miocene in the central Great Plains seems to have favored the evolution of these wide-ranging durophagous amphicyonid carnivores. Analysis of the jaws of temnocyonines employing Therrien’s method of beam analysis demonstrates pronounced bending strength focused beneath the crushing dental battery in the molar region. Similarly, the canines and mandibular symphysis manifest an ability to resist strong parasagittal, transverse, and torsional forces occurring during prey capture and feeding. Temnocyonines share a pronounced similarity in dentition with European haplocyonine beardogs, which doubtless are their sister group among the Amphicyonidae. Some haplocyonines also show cursorial tendencies. Examination of European material, however, reveals subtle dental distinctions indicating that the evolution of the two subfamilies proceeded separately yet in parallel in Europe and North America.
format Text
author Hunt, Robert M., Jr.
author_facet Hunt, Robert M., Jr.
author_sort Hunt, Robert M., Jr.
title EVOLUTION OF LARGE CARNIVORES DURING THE MID-CENOZOIC OF NORTH AMERICA: THE TEMNOCYONINE RADIATION (MAMMALIA, AMPHICYONIDAE) ROBERT M.
title_short EVOLUTION OF LARGE CARNIVORES DURING THE MID-CENOZOIC OF NORTH AMERICA: THE TEMNOCYONINE RADIATION (MAMMALIA, AMPHICYONIDAE) ROBERT M.
title_full EVOLUTION OF LARGE CARNIVORES DURING THE MID-CENOZOIC OF NORTH AMERICA: THE TEMNOCYONINE RADIATION (MAMMALIA, AMPHICYONIDAE) ROBERT M.
title_fullStr EVOLUTION OF LARGE CARNIVORES DURING THE MID-CENOZOIC OF NORTH AMERICA: THE TEMNOCYONINE RADIATION (MAMMALIA, AMPHICYONIDAE) ROBERT M.
title_full_unstemmed EVOLUTION OF LARGE CARNIVORES DURING THE MID-CENOZOIC OF NORTH AMERICA: THE TEMNOCYONINE RADIATION (MAMMALIA, AMPHICYONIDAE) ROBERT M.
title_sort evolution of large carnivores during the mid-cenozoic of north america: the temnocyonine radiation (mammalia, amphicyonidae) robert m.
publisher DigitalCommons@University of Nebraska - Lincoln
publishDate 2011
url https://digitalcommons.unl.edu/geosciencefacpub/542
https://digitalcommons.unl.edu/cgi/viewcontent.cgi?article=1554&context=geosciencefacpub
geographic Pacific
geographic_facet Pacific
genre Canis lupus
genre_facet Canis lupus
op_source Papers in the Earth and Atmospheric Sciences
op_relation https://digitalcommons.unl.edu/geosciencefacpub/542
https://digitalcommons.unl.edu/cgi/viewcontent.cgi?article=1554&context=geosciencefacpub
_version_ 1766386710245015552
spelling ftunivnebraskali:oai:digitalcommons.unl.edu:geosciencefacpub-1554 2023-05-15T15:51:28+02:00 EVOLUTION OF LARGE CARNIVORES DURING THE MID-CENOZOIC OF NORTH AMERICA: THE TEMNOCYONINE RADIATION (MAMMALIA, AMPHICYONIDAE) ROBERT M. Hunt, Robert M., Jr. 2011-01-01T08:00:00Z application/pdf https://digitalcommons.unl.edu/geosciencefacpub/542 https://digitalcommons.unl.edu/cgi/viewcontent.cgi?article=1554&context=geosciencefacpub unknown DigitalCommons@University of Nebraska - Lincoln https://digitalcommons.unl.edu/geosciencefacpub/542 https://digitalcommons.unl.edu/cgi/viewcontent.cgi?article=1554&context=geosciencefacpub Papers in the Earth and Atmospheric Sciences Earth Sciences text 2011 ftunivnebraskali 2019-12-26T16:59:14Z This study describes and summarizes the Temnocyoninae (Mammalia, Carnivora), a subfamily of amphicyonid carnivores of considerable diversity and singular ecomorphology within Cenozoic faunas of North America. In temnocyonines, we see the first carnivorans to occupy an ecological niche as large cursorial predators. The subfamily is confined to the Arikareean NALMA, ranging in age from the latest early Oligocene to the early Miocene. Distributed from the Pacific Northwest to the Great Plains and Florida, there are four genera (Temnocyon, Mammacyon, Delotrochanter n. gen., Rudiocyon n. gen.) and 12 species, of which eight are newly described (Temnocyon subferox, T. fingeruti, T. macrogenys; Rudiocyon amplidens; Mammacyon ferocior; Delotrochanter petersoni, D. oryktes, D. major). Among the specimens examined are eight skulls, three with intact basicranial morphology that establish the presence of a plesiomorphic arctoid auditory region in the subfamily. Temnocyonine dentitions and postcranial skeletons reveal a blend of morphological characteristics not previously nor subsequently seen among the Carnivora. From a stem species, Temnocyon altigenis, there evolve both large hypercarnivorous (Temnocyon) and durophagous forms (Mammacyon, Delotrochanter); these genera share a derived dentition that defines the Temnocyoninae. Delotrochanter oryktes n. sp., an early Miocene species, was found in a den, suggesting a possible burrowing capability and sheltering of offspring. The John Day basin of Oregon and the central Great Plains (western Nebraska, southeast Wyoming) are the source of most temnocyonine fossils; a few have been found in southern California and Florida, indicative of a continent-wide distribution. Temnocyonines have often been confused with canids, however their basicranial anatomy places them securely within the Amphicyonidae. First discovered in the 1870s, only ~30 individuals comprise the entire record of the subfamily. Many were found in proximity to radioisotopically calibrated tuffs and ignimbrites and/or were closely associated with mammals of established biochronologic age. Thus, most species can be placed in a temporal context. With rare exception, the fossils represent isolated occurrences, hence estimates of variation within a population are lacking. Cursorial postcranial features characterize several lineages (Mammacyon, Delotrochanter) and probably were present in other temnocyonines known only from dental remains. Late Oligocene Mammacyon ferocior and early Miocene Delotrochanter oryktes evolved uniquely configured crushing cheek teeth and cursorial limbs, combining distinctive dental and skeletal traits in a manner not seen in any living carnivore. These species are interpreted as large durophagous predators with craniodental characteristics that parallel living hyaenids (Crocuta crocuta) and postcranial adaptations approaching those of cursorial canids such as the wolf (Canis lupus). Expansion of semiarid grasslands and savanna during the late Oligocene and early Miocene in the central Great Plains seems to have favored the evolution of these wide-ranging durophagous amphicyonid carnivores. Analysis of the jaws of temnocyonines employing Therrien’s method of beam analysis demonstrates pronounced bending strength focused beneath the crushing dental battery in the molar region. Similarly, the canines and mandibular symphysis manifest an ability to resist strong parasagittal, transverse, and torsional forces occurring during prey capture and feeding. Temnocyonines share a pronounced similarity in dentition with European haplocyonine beardogs, which doubtless are their sister group among the Amphicyonidae. Some haplocyonines also show cursorial tendencies. Examination of European material, however, reveals subtle dental distinctions indicating that the evolution of the two subfamilies proceeded separately yet in parallel in Europe and North America. Text Canis lupus University of Nebraska-Lincoln: DigitalCommons@UNL Pacific

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