Functional Morphology of the Distal Forelimb and the Evolution of Tool Use in Humans

Love, Sarah

14 December 2016

Previous research on the biomechanics of tool use has focused heavily on traits correlated with locomotion, tool manufacturing, and habitual tool use. Features like the breadth of the metacarpals, relative length of the thumb, styloid process of the third metacarpal, and the breadth of the apical tufts are skeletal features associated with the use and development of stone tools. However, there are many traits of the distal forelimb that may also be correlated directly with the development and use of tools. The purpose of this research is to analyze morphological features of the hands and compare them to features of the arm in humans, fossil Homo and the great apes to understand how the hominin distal arm functions as a mosaic in response to the use of stone tools. The results indicate a separation between tool-users and non-tool users when all distal forelimb dimensions are examined. Omo 40-19 falls closer to non-tool users when univariate plots of ulna length and breadth are examined. Ratios of hand measurements to radius length are better at polarizing the tool-users from non-tool users than are hand dimensions to ulna length ratios. These results highlight the role of the radius in stabilizing the hand during stone tool production.

paleoanthropology

functional morphology

hominin

human evolution

tool use

forelimbs

evolution

homo

Evaluating the Hominin Scavenging Niche through Analysis of the Carcass-Processing Abilities of the Carnivore Guild

Hartstone-Rose, Adam

08 August 2008

<p>Humans are more carnivorous than other hominoids. It has been hypothesized that, during the evolution of this increased carnivory, hominins transitioned through a scavenging niche made viable by certain carnivoran taxa (especially sabertooths) that may have lacked the morphology necessary to fully utilize all parts of carcasses (e.g., marrow), therefore leaving an open niche in the form of high-quality scavengable remains available for hominins. In this dissertation, I examine the postcanine dentition of modern carnivorans, using quantifications of occlusal radii of curvature and intercuspid notches, and study the correlation of this morphology with carcass-processing behavior. I use these correlations to deduce the carcass-processing capabilities of the Plio-Pleistocene carnivores of South Africa (a guild for which we have a good appreciation of taxonomic diversity, and that existed at an important time during the evolution of our lineage - possibly the time that we transitioned into that guild), and compare these results with those of previous studies that relied on more conventional morphological measures.</p><p>Both radius of curvature and intercuspid notch data do a good job of separating taxa by dietary category, revealing subtle patterns including possible differences in the carcass-processing abilities of fossil and modern members of some extant species. Other strong trends confirm that the "hunting-hyena," Chasmaporthetes, was probably a hypercarnivore, and not a durophage like its modern confamilial taxa. Somewhat surprisingly, results do not support the hypothesis that sabertooth felids were more hypercarnivorous than modern felids. Furthermore, though the sympatric hypercarnivorous taxa were more numerous, so to were the durophageous taxa, with one taxon, Pachycrocuta, probably exceeding the durophageous capabilities of modern durophages.</p><p>As such, this dissertation shows no evidence that members of the paleo-carnivore guild were capable of producing higher quality scavengable carcasses than are modern carnivorans, and thus, based on these analyses of fossil carnivorans, it does not appear that high-quality scavengable remains were more available in the Plio-Pleistocene than there are today. Therefore, though there is clear evidence from other sources that hominins did scavenge at least occasionally, this dissertation does not support the hypothesis that there was an open niche consisting of high-quality scavengable remains.</p> / Dissertation

Anthropology, Physical

Biology, Anatomy

Biology, Zoology

Hominid

Carcass

Scavenge

Sabertooth

Carnivora

Paleoanthropology

Constructing the Chinese: Paleoanthropology and Anthropology in the Chinese Frontier, 1920-1950

Yen, Hsiao-pei

19 December 2012

Today’s Chinese ethno-nationalism exploits nativist ancestral claims back to antiquity to legitimize its geo-political occupation of the entire territory of modern China, which includes areas where many non-Han people live. It also insists on the inseparability of the non-Han nationalities as an integrated part of Zhonghua minzu. This dissertation traces the origin of this nationalism to the two major waves of scientific investigation in the fields of paleoanthropology and anthropology in the Chinese frontier during the first half of the twentieth century. Prevailing theories and discoveries in the two scientific disciplines inspired the ways in which the Chinese intellectuals constructed their national identity. The first wave concerns the international quest for human ancestors in North China and the northwestern frontier in the 1920s and 1930s. Foreign scientists, such as Pierre Teilhard de Chardin, Amadeus Grabau, Roy Chapman Andrews, and Davidson Black, came to China to search for the first human fossils. With the discovery of Peking Man, they made Beijing one of the most prestigious places for the study of human paleontology and popularized the evolutionary Asiacentric theory that designated Chinese Central Asia and Mongolia as the cradle of humans. Inspired by the theory and the study of the Peking Man fossils, Chinese intellectuals turned Peking Man into the first Chinese and a common ancestor of all humans. In the second wave, from the late 1930s to the early 1950s, Chinese anthropologists like Rui Yifu, Cen Jiawu, Fei Xiaotong, and Li Anzhai made enormous efforts to inscribe the non-Han people of the southwestern frontier into the genealogy of the Chinese nation (Zhonghua minzu). Their interpretations of the relationship between the Han and the non-Han and between the frontier and the center were influenced by various Western anthropological theories. However, their intensive studies of the southwestern non-Han societies advocated the ethnic integration and nationalization of China’s southwestern frontier. By linking the two waves of scientific endeavor, this dissertation asserts that the Chinese intellectual construction of modern Chinese ethnogenesis and nationalism was not a parochial and reactionary nationalist “invention” but a series of indigenizing attempts to appropriate and interpret scientific theories and discoveries. / History

Asian history

Republican China

history

history of science

anthropology

nationalism

paleoanthropology

sociology of knowledge

An investigation of violence-related trauma at two sites in the Pickwick Basin Dust Cave (1LU496) and the O'Neal site (1LU61) /

Turner, James Harvey,

January 2006

Thesis (M.S.) -- Mississippi State University. Department of Sociology, Anthropology, and Social Work. / Title from title screen. Includes bibliographical references.

Reconstructing the Vocal Capabilities of Homo Heidelbergensis, a Close Human Ancestor

Stanley, Austin Blake

01 January 2018

The discovery of 5,500 Homo heidelbergensis fossil specimens at the Sima de los Huesos archaeological site in Spain has opened up the opportunity for research to be conducted on the vocal capabilities of this species. Previous research has revealed that the range of vowel sounds an individual can produce, known as the vowel space, is directly affected by the dimensions of the vocal tract. The vowel spaces of two hominins, Homo sapiens and Homo neanderthalensis, have been reconstructed through previous research. However, the vowel space of Homo heidelbergensis has not yet been reconstructed. In this research, I aim to explore how the dimensions of the Homo heidelbergensis vocal tract affect the vowel space of that species. This was pursued by measuring the craniospinal dimensions of five Homo heidelbergensis specimens through three dimensional imaging software. When measurements were unattainable due to limitations in the fossil record, regression equations were used to predict missing measurements. By doing so, the vowel space of this species was reconstructed, and crucial information into the vocal capabilities of this close human ancestor was revealed.

Homo heidelbergensis

heidelbergensis

speech

paleoanthropology

vocal

vowel space

Archaeological Anthropology

Biological and Physical Anthropology

Le développement des proportions métaphysaires chez les hominoïdes : croissance et influence de la locomotion

Puech, Marine

08 1900

Dans le cadre de ce mémoire, les relations entre morphologie, locomotion et croissance chez les hominoïdes sont analysées sous l'angle des proportions métaphysaires et de leur acquisition. Plusieurs niveaux d'analyse — intermembre, supérieur et inférieur — sont abordés dans une perspective ontogénique. La masse corporelle et la direction des charges influencent la morphologie des surfaces articulaires et métaphysaires mais aussi leur développement. Les charges étant dépendantes du mode locomoteur et celui-ci se modifiant en fonction de l'âge, on tente de voir à quel(s) moment(s) les changements proportionnels ont lieu et pourquoi ils apparaissent. Des mesures linéaires ont été recueillies sur l'humérus, le radius, le fémur et le tibia sur un échantillon squelettique des espèces H. sapiens, P. troglodytes, G. gorilla et P. pygmaeus. À partir de ces mesures et du calcul de certains ratios, des comparaisons intra et interspécifiques ont été réalisées. Les différences les plus significatives entre les espèces se dévoilent au niveau intermembre et sont relatives aux différents pourcentages d'utilisation des membres supérieurs ou inférieurs. Au sein des espèces, les résultats révèlent une similarité dans les réactions des surfaces métaphysaires au niveau intermembre, supérieur et inférieur. Les changements proportionnels ont lieu entre les stades 0 et 1 pour H. sapiens (première marché indépendante), entre les stades 2 et 4 pour P. troglodytes (majorité du poids corporel soutenue par les membres inférieurs) et entre les stades 3 et 5 pour G. gorilla (taille adulte et quadrupédie très majoritaire). Pour P. pygmaeus aucun stade en particulier n'a été ciblé par les analyses et cela concorde avec l'homogénéité de ses modes de locomotion employés au cours de la vie. Les différences proportionnelles répondent à des changements locomoteurs majeurs. Australopithecus afarensis est intermédiaire entre H. sapiens et les grands singes pour de nombreuses comparaisons. Au niveau du genou, les plus jeunes individus A. afarensis ne montrent pas de morphologie bipède, similaire aux humains. / This thesis analyses the relationship between morphology, locomotion and growth in hominoids by studying metaphyseal proportions and development. Several levels of analysis — interlimb, upper and lower limbs — are discussed in an ontogenic perspective. Body mass and direction of loads affect the morphology of articular and metaphyseal surfaces but also their development. Taking into account the locomotion of a species and related loads during growth, we try to determine when proportions change, if at all, and why they appear. Australopithecus afarensis is one species for which the debate about its locomotion is still ongoing, study of the ontogeny of its proportions may shed light on the functions of its limbs during locomotion. Linear measurements were collected on the humerus, radius, ulna, femur and tibia of H. sapiens, P. troglodytes, G. gorilla and P. pygmaeus. From these measurements, ratios have been calculated to intra and inter limb proportions of hominoid appendicular skeleton for different age groups. Differences between species are most significant at the interlimb level and relative to the different relative percentage of upper and lower limbs use. Within species, results reveal a similarity for metaphyseal surfaces responses to loads at all levels of analyses. Proportional changes take place between dental stages 0 and 1 for H. sapiens (acquisition of bipedality), between stages 2 and 4 for P. troglodytes (majority of body weight supported by the lower limb) and between stages 3 and 5 for G. gorilla (knuckle-walking for 85 % of the time). For P. pygmaeus, no proportional change occur at any specific stage, which corresponds to the absence of changes in locomotor behavior from birth to adulthood in that species. From these data, it appears that proportional differences are responses to major changes in the mode of locomotion. Australopithecus afarensis is intermediate between H. sapiens and apes for many proportional comparisons while the knee joint, contrarily to expectation, is not like the bipedal humans.

Paléoanthropologie

Développement

Croissance

Proportions métaphysaires

Hominoïdes

Locomotion

Paleoanthropology

Development

Growth

Metaphyseal proportions

Hominoids

Formal variation in lithic projectile armatures: re-interpreting points from Tabun Cave, Israel

Unknown Date

Lithic projectile armatures represent a significant innovation over thrusted spears in the subsistence strategies of hominins. Previous researchers have disagreed over the timing of the appearance of projectile weapons in the archaeological record (Brooks 2006; Shea 2006). To discover when projectile technology first appears in the Levant, I have compared tip cross-sectional areas, weights, and tip penetrating angles (three variables useful for discriminating between projectile and thrusting weapons) of pointed Blades, Levallois points, and Mousterian points with analogs from known and suspected chipped stone projectile points. Results indicate that pointed Blades from Tabun and Skhul caves are statistically indistinguishable from other suspected projectile point types. Levallois and Mousterian points from Tabun and Skhul are also statistically indistinguishable from suspected projectile types when the lower halves of the populations are compared. Consequently, I conclude that points from Tabun and Skhul caves fall within the known and suspected range of variation of projectile point morphology. / by David E. Leslie. / Thesis (M.A.)--Florida Atlantic University, 2008. / Includes bibliography. / Electronic reproduction. Boca Raton, Fla., 2008. Mode of access: World Wide Web.

Tools, Prehistoric--Analysis

Stone implements--Classification

Projectile points--Analysis

Paleoanthropology

Excavations (Archaeology)

Excavations (Archaeology)--Israel

Fossil hominids

Fossil hominids--Israel

Le développement des proportions métaphysaires chez les hominoïdes : croissance et influence de la locomotion

Puech, Marine

08 1900

Dans le cadre de ce mémoire, les relations entre morphologie, locomotion et croissance chez les hominoïdes sont analysées sous l'angle des proportions métaphysaires et de leur acquisition. Plusieurs niveaux d'analyse — intermembre, supérieur et inférieur — sont abordés dans une perspective ontogénique. La masse corporelle et la direction des charges influencent la morphologie des surfaces articulaires et métaphysaires mais aussi leur développement. Les charges étant dépendantes du mode locomoteur et celui-ci se modifiant en fonction de l'âge, on tente de voir à quel(s) moment(s) les changements proportionnels ont lieu et pourquoi ils apparaissent. Des mesures linéaires ont été recueillies sur l'humérus, le radius, le fémur et le tibia sur un échantillon squelettique des espèces H. sapiens, P. troglodytes, G. gorilla et P. pygmaeus. À partir de ces mesures et du calcul de certains ratios, des comparaisons intra et interspécifiques ont été réalisées. Les différences les plus significatives entre les espèces se dévoilent au niveau intermembre et sont relatives aux différents pourcentages d'utilisation des membres supérieurs ou inférieurs. Au sein des espèces, les résultats révèlent une similarité dans les réactions des surfaces métaphysaires au niveau intermembre, supérieur et inférieur. Les changements proportionnels ont lieu entre les stades 0 et 1 pour H. sapiens (première marché indépendante), entre les stades 2 et 4 pour P. troglodytes (majorité du poids corporel soutenue par les membres inférieurs) et entre les stades 3 et 5 pour G. gorilla (taille adulte et quadrupédie très majoritaire). Pour P. pygmaeus aucun stade en particulier n'a été ciblé par les analyses et cela concorde avec l'homogénéité de ses modes de locomotion employés au cours de la vie. Les différences proportionnelles répondent à des changements locomoteurs majeurs. Australopithecus afarensis est intermédiaire entre H. sapiens et les grands singes pour de nombreuses comparaisons. Au niveau du genou, les plus jeunes individus A. afarensis ne montrent pas de morphologie bipède, similaire aux humains. / This thesis analyses the relationship between morphology, locomotion and growth in hominoids by studying metaphyseal proportions and development. Several levels of analysis — interlimb, upper and lower limbs — are discussed in an ontogenic perspective. Body mass and direction of loads affect the morphology of articular and metaphyseal surfaces but also their development. Taking into account the locomotion of a species and related loads during growth, we try to determine when proportions change, if at all, and why they appear. Australopithecus afarensis is one species for which the debate about its locomotion is still ongoing, study of the ontogeny of its proportions may shed light on the functions of its limbs during locomotion. Linear measurements were collected on the humerus, radius, ulna, femur and tibia of H. sapiens, P. troglodytes, G. gorilla and P. pygmaeus. From these measurements, ratios have been calculated to intra and inter limb proportions of hominoid appendicular skeleton for different age groups. Differences between species are most significant at the interlimb level and relative to the different relative percentage of upper and lower limbs use. Within species, results reveal a similarity for metaphyseal surfaces responses to loads at all levels of analyses. Proportional changes take place between dental stages 0 and 1 for H. sapiens (acquisition of bipedality), between stages 2 and 4 for P. troglodytes (majority of body weight supported by the lower limb) and between stages 3 and 5 for G. gorilla (knuckle-walking for 85 % of the time). For P. pygmaeus, no proportional change occur at any specific stage, which corresponds to the absence of changes in locomotor behavior from birth to adulthood in that species. From these data, it appears that proportional differences are responses to major changes in the mode of locomotion. Australopithecus afarensis is intermediate between H. sapiens and apes for many proportional comparisons while the knee joint, contrarily to expectation, is not like the bipedal humans.

Paléoanthropologie

Développement

Croissance

Proportions métaphysaires

Hominoïdes

Locomotion

Paleoanthropology

Development

Growth

Metaphyseal proportions

Hominoids

Defining an alternative typology for early holocene projectile points from the Hester site (22MO569), northeast Mississippi a systematic approach /

Burris, Agnes,

January 2006

Thesis (M.S.) -- Mississippi State University. Department of Sociology, Anthropology, and Social Work. / Title from title screen. Includes bibliographical references.

What's In A Neanderthal: A Comparative Analysis

Stephan, Taylorlyn

January 2017

No description available.

Archaeology

Biology

Evolution and Development

Genetics

Morphology

Paleontology

Taxonomy

Homo neanderthalensis

Neanderthal

Paleoanthropology

Genomics

Human evolution

Archaeology

Comparative morphology

Archaeology