QUANTIFYING LEPTOMERYX (MAMMALIA, ARTIODACTYLA) ENAMEL SURFACE AREA ACROSS THE EOCENE–OLIGOCENE TRANSITION IN NEBRASKA

The Eocene–Oligocene transition (ca. 33 Ma) is associated with one of the most pronounced climate changes of the Cenozoic, with continental mean annual temperature dropping ∼8 °C over a span of ∼400,000 years. Leptomeryx is a small, ruminant artiodactyl that spans the transition, known from the late...

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Bibliographic Details
Published in:Palaios 2010-10, Vol.25 (10), p.682-687
Main Authors: MATHIS, JULIE E, MACFADDEN, BRUCE J
Format: Article
Language:English
Subjects:
Artiodactyla
Biological taxonomies
Cenozoic
Chadronian
Chadronian NALMA
Chordata
Climate change
Climate models
Dawes County Nebraska
enamel
Eocene
Eocene-Oligocene
Eutheria
Geology
Leptomeryx
lower Oligocene
Mammalia
Mammals
morphology
Nebraska
Oligocene
Orellan
Orellan NALMA
Paleoclimatology
Paleogene
Paleontology
quantitative analysis
RESEARCH NOTE
Sioux County Nebraska
Specimens
statistical analysis
stratigraphic boundary
Teeth
Tertiary
Tetrapoda
Theria
Tooth enamel
United States
upper Eocene
Vegetation
Vertebrata
vertebrate
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Description
Summary:The Eocene–Oligocene transition (ca. 33 Ma) is associated with one of the most pronounced climate changes of the Cenozoic, with continental mean annual temperature dropping ∼8 °C over a span of ∼400,000 years. Leptomeryx is a small, ruminant artiodactyl that spans the transition, known from the late Eocene (Chadronian North American Land Mammal Age, or NALMA) through the early Oligocene (Orellan NALMA). The hypothesis that early Oligocene Leptomeryx had more complex enamel surface area than those found in the late Eocene has been demonstrated qualitatively, but the potential change in the amount of enamel has never been quantified. Here we calculate the area of the occlusal surface enamel (OSE) of Leptomeryx specimens from both the Chadronian (n  =  29) and Orellan (n  =  35) of northwestern Nebraska. Areas of the OSE were calculated by isolating the enamel into polygons on digital photographs of each specimen. The mean areas confirm that the OSE significantly increased by approximately 27% from the Chadronian sample to the Orellan sample.
ISSN:0883-1351
1938-5323
DOI:10.2110/palo.2009.p09-156r