4 research outputs found
Footprints preserve terminal Pleistocene hunt? Human-sloth interactions in North America
Predator-prey interactions revealed by vertebrate trace fossils are extremely rare. We present footprint evidence
from White Sands National Monument in New Mexico for the association of sloth and human trackways.
Geologically, the sloth and human trackways were made contemporaneously, and the sloth trackways show
evidence of evasion and defensive behavior when associated with human tracks. Behavioral inferences from
these trackways indicate prey selection and suggest that humans were harassing, stalking, and/or hunting
the now-extinct giant ground sloth in the terminal Pleistocene
Walking in mud: Remarkable Pleistocene human trackways from White Sands National Park (New Mexico)
Human tracks at White Sands National Park record more than one and a half kilometres of an outâ andâback journey and form the longest Late Pleistoceneâage double human trackway in the world. An
adolescent or small adult female made two trips separated by at least several hours, carrying a young child in at least one direction. Despite giant ground sloth and Columbian Mammoth transecting them
between the outbound and return journeys, the human tracks show no changes indicative of predator/prey awareness. In contrast, the giant ground sloth tracks show behaviour consistent with human predator awareness, while mammoth tracks show no such apparent concern. The human footprints are morphologically variable and exhibit leftâright asymmetry, which might be due to child carrying. We explore this morphological variability using methods based on the analysis of objective track outlines, which add to the analytical toolkit available for use at other human footprint sites. The sheer number of tracks and their remarkable morphological variability have implications for the reliability of inferences made using much smaller samples as are more common at typical footprint sites. One conclusion is that the number of footprints required to make reliable biometric inferences is larger than often assumed