Neanderthal foot bone proportions and morphology are mostly indistinguishable from those of Homo sapiens, with the exception of several distinct Neanderthal features in the talus. The biomechanical implications of these distinct talar features remain contentious, fueling debate around the adaptive meaning of this distinctiveness. With the aim of clarifying this controversy, we test phylogenetic and behavioral factors as possible contributors, comparing tali of 10 Neanderthals and 81 H. sapiens (Upper Paleolithic and Holocene hunter-gatherers, agriculturalists, and postindustrial group) along with the Clark Howell talus (Omo, Ethiopia). Variation in external talar structures was assessed through geometric morphometric methods, while bone vol...
Much research has debated the technological abilities of Neanderthals relative to those of early mod...
Rarely have entheses been systematically utilized in the field of human evolution, but investigation...
Abstract Objectives Trabecular bone adapts to the strains placed upon the skeleton during life. Anth...
Neanderthal foot bone proportions and morphology are mostly indistinguishable from those of Homo sap...
Objectives The primate talus is known to have a shape that varies according to differences in locomo...
This thesis focused on the exploration of morphological variation in extinct and extant hominid tala...
The primate talus is known to have a shape that varies according to differences in locomotion and su...
Changes in first metatarsal (MT1) morphology within the hominin clade are crucial for reconstructing...
Reconstructing early hominin locomotor repertoires remains critical to understanding human origins. ...
The human foot is unique compared to that of other extant apes in its adaptations for bipedal locomo...
open16siThe adoption of bipedalism is a key benchmark in human evolution that has impacted talar mor...
Entheses have rarely been systematically studied in the field of human evolution. However, the inves...
Much research has debated the technological abilities of Neanderthals relative to those of early mod...
Rarely have entheses been systematically utilized in the field of human evolution, but investigation...
Abstract Objectives Trabecular bone adapts to the strains placed upon the skeleton during life. Anth...
Neanderthal foot bone proportions and morphology are mostly indistinguishable from those of Homo sap...
Objectives The primate talus is known to have a shape that varies according to differences in locomo...
This thesis focused on the exploration of morphological variation in extinct and extant hominid tala...
The primate talus is known to have a shape that varies according to differences in locomotion and su...
Changes in first metatarsal (MT1) morphology within the hominin clade are crucial for reconstructing...
Reconstructing early hominin locomotor repertoires remains critical to understanding human origins. ...
The human foot is unique compared to that of other extant apes in its adaptations for bipedal locomo...
open16siThe adoption of bipedalism is a key benchmark in human evolution that has impacted talar mor...
Entheses have rarely been systematically studied in the field of human evolution. However, the inves...
Much research has debated the technological abilities of Neanderthals relative to those of early mod...
Rarely have entheses been systematically utilized in the field of human evolution, but investigation...
Abstract Objectives Trabecular bone adapts to the strains placed upon the skeleton during life. Anth...