The Analysis of a Late Holocene Bison Skull from the Ashley National Forest, Utah

In 2003 a partial bison skull was recovered by Ashley National Forest archeologist Brian Storm from an elevation of 3840 m (12,600 ft) AMSL in the Uinta Mountains. The partial skull consists of a portion of the frontal, occipital region, and horn cores including horn sheaths. The presence of the hor...

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Bibliographic Details
Main Author: Cannon, Kenneth P.
Format: Dataset
Language:unknown
Published: the Digital Archaeological Record
Subjects:
Environment Research
Ethnographic Research
Heritage Management
Silver Creek
Mastodon Sinkhole
Blonquist Rockshelter
Huntington Canyon
Twin Mountain Site
5GA1513
Casper Site
Fauna
Bison Bison Athabascae
Ethnography
Biogeography
Geochemistry
High Altitude Site
stable isotope analysis
Zoogeography
Huntington
Bison bison athabascae
Tundra
Bison bison bison
Online Access:https://doi.org/10.6067:XCV8V69H9R_meta$v=1450049220563
Description
Summary:In 2003 a partial bison skull was recovered by Ashley National Forest archeologist Brian Storm from an elevation of 3840 m (12,600 ft) AMSL in the Uinta Mountains. The partial skull consists of a portion of the frontal, occipital region, and horn cores including horn sheaths. The presence of the horn sheaths is of particular interest for the ecological information they can provide. Through the analysis of the individual cones of the horn sheath a record of the animal’s dietary and migration patterns can be obtained. The skull was recovered downslope of Gilbert Peak in an alpine environment. Tundra vegetation characterizes the area. Downslope, and to the east, of the skull find is the headwaters area of the Uinta River. This boggy area is drained by Gilbert Creek with wet meadow vegetation and Engelmann spruce along the edge. While high altitude bison remains have been discussed in the scientific literature periodically over the past 80 years they have not gone beyond the descriptive. The study of this specimen focuses on a more complete understanding of bison ecology in the intermountain west. In addition to metric analysis of the skull, radiometric assay, and stable isotope analyses were applied. The radiocarbon age of the specimen is 150 ± 40 yrs BP. The 2 sigma calibrated age is cal AD 1660 to 1950. Metric analysis of the skull indicates it was an adult male, at least 10 years of age, that compares well with Bison bison athabascae in size and is larger than either Bison bison bison specimens or other high altitude bison. However, it is probable this individual represents a member of the species Bison bison bison, but phenotypic characteristics (e.g., large horn size) may be the result of gene flow. More definitive taxonomic placement of the Gilbert Peak bison may not be resolved without genetic analysis. Temporal and spatial gaps in the Holocene record of bison still exist and isolated skulls can help fill them. Detailed analyses of these specimens can provide an understanding of the history, the paleoecology, and evolution of the species. The results of this study begin to fill this gap.

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