Your search keyword '"Paranthropus"' showing total 678 results

1. Early Stone Tool Technology in Hominin Evolution

Author

Finestone, Emma

Published

2025

2. Results from an Australopithecus africanus dental enamel fragment confirm the potential of palaeoproteomics for South African Plio-Pleistocene fossil sites

Author

Palesa P. Madupe, Fazeelah Munir, Marc Dickinson, Alberto J. Taurozzi, Meaghan Mackie, Mirriam Tawane, Catherine Mollereau, Nomawethu Hlazo, Kirsty Penkman, Lauren Schroeder, Clément Zanolli, Jesper V. Olsen, Rebecca R. Ackermann, and Enrico Cappellini

Subjects

Sterkfontein, sex identification, Paranthropus, hominins, Science, Science (General), Q1-390, Social Sciences, Social sciences (General), H1-99

Abstract

The southern African Late Pliocene to Early Pleistocene hominin record is abundant and exhibits a high taxonomic diversity with three genera represented: Australopithecus, Paranthropus and Homo. Hominin fossil diversity and variation are often contextualised within other fossil assemblages or modern/extant counterparts. However, the incompleteness of the fossil record, sample selection bias and taphonomic condition of the specimens themselves constrain interpretations of diversity and variation within and between species. Thus, species identification and the nature of the observed variation are frequently debated. Palaeoproteomics can help improve our understanding of taxonomic variation, as demonstrated by the recently generated proteome of Paranthropus specimens from Swartkrans. Here, we demonstrate protein preservation for an A. africanus specimen from Sterkfontein Member 4, Sts 63, using minimally invasive analysis, and identify it as belonging to a male individual. We then discuss some of the current limitations of palaeoproteomics and how we can potentially overcome them. Although it is still in its infancy for Plio-Pleistocene hominin fossils, palaeoproteomics has the potential to help unravel the causes of observed morphological variation. Lastly, we strongly believe that the involvement of African researchers at all levels of this research, including leadership, is of great importance. Significance: We have successfully determined the biological sex of an Australopithecus africanus specimen (Sts 63) from Sterkfontein Member 4 with the age range of 3.5 to 2.01 Ma, with a high degree of confidence, and we have assessed the extent of protein preservation. These discoveries hold significant implications for our understanding of sexual dimorphism and intraspecies variation as observed in African Plio-Pleistocene hominins. Open data set : http://proteomecentral.proteomexchange.org (identifier PXD054431)

Published

2025

3. Worldwide Research on Australopiths.

Author

Guil-Guerrero, José Luis and Manzano-Agugliaro, Francisco

Subjects

*AUSTRALOPITHECINES, *MORPHOMETRICS, *PARANTHROPUS, *FOSSILS, *PALEONTOLOGY

Abstract

Australopiths are a group of early human ancestors that lived approximately 4 to 2 million years ago and are considered a key transitional form between apes and humans. Studying australopiths can help to understand the evolutionary processes that led to the emergence of humans and gain insights into the unique adaptations and characteristics that set humans apart from other primates. A bibliometric-based review of publications on australopiths contained in the Scopus database was conducted, analyzing approximately 2000 of them. The main authors, institutions, and countries researching this subject were identified, as well as their future development. The connections between authors, countries, and research topics were also analyzed through the detection of communities. The more frequent keywords in this subject are hominid, animal, human, South Africa, and Australopithecus afarensis. Four main research clusters were identified in the field of australopiths: palaeobiology, cranial evolution, locomotion, and mandible evolution and morphometry. The most important countries in terms of collaboration networks are South Africa, the UK, France, and Germany. Research on australopiths is ongoing, and new research clusters are expected to emerge, such as those focused on pre-australopiths and the molecular evolution and taxonomy of australopiths. Overall, this work provides a comprehensive overview of the state of research on australopiths and offers insights into the current direction of the field. [ABSTRACT FROM AUTHOR]

Published

2024

4. Paranthropus paradoxes : patterns of morphological variation in East African 'robust australopithecines'

Author

Nadal Urias, Lucia and Mirazon Lahr, Marta

Subjects

Human evolution, Paranthropus, Sexual dimorphism, Variation

Abstract

The genus Paranthropus represents an iconic taxon in the hominin fossil record. Its early discovery, together with its morphological distinctiveness, have defined this genus as a unique hominin lineage parallel to our own. Paranthropus boisei, who lived in East Africa between 2.3 and 1.4 million years ago, stands out amongst 'robust australopithecines' for its hyper expression of the megadont features diagnostic of the genus, while its vast dental and mandibular hypodigm makes it the best represented species in the early hominin fossil record. Yet, while megadont traits allow the clear identification of fossils as Paranthropus rather than Homo or Australopithecus, their expression is far from homogenous. This has resulted in a paradox of a seemingly morphologically 'well-defined' species that, nevertheless, encompasses a large intraspecific variability that does not always respect this definition. This paradox has been at the centre of conflicting interpretations regarding the evolutionary history and taxonomy of P. boisei. This work represents a critical examination of the degree of variation in the size and shape of mandibles assigned to P. boisei combining anatomical descriptions, high-resolution imaging, landmark-based 3D geometric morphometrics, and machine learning methodologies. Comparisons of ca. 60% of all original P. boisei fossil mandibles to those of living hominoids reveal the first sex estimation of individual fossils with an associated statistical likelihood, and a unique expression of sexual dimorphism in the extinct group. Further analyses reveal that the high morphological variability observed is structured independently of sexual dimorphism. In contrast, this thesis presents a novel interpretation to this variability and recognizes two distinct craniomandibular ecomorphotypes within the species' hypodigm, typified by the two most emblematic cranial specimens ascribed to P. boisei (i.e. OH 5 and KNM-ER 406). Moreover, this work discusses the potential evolutionary scenarios leading to the morphological and ecological differences underlying this partitioning with significant implications for our current understanding of the taxonomical affinities, ecological interpretations and evolutionary history of P. boisei. Finally, this thesis presents the first description of two P. boisei mandibles from the site of Koobi Fora, Kenya, and discusses these new fossil hominin specimens in the context of the ecomorphotypes identified.

Published

2022

5. The Implications of Morphology, Mechanics, and Microstructure of Teeth for Understanding Dietary Drivers in Human Evolution

Author

Macho, Gabriele A., Lee-Thorp, Julia, book editor, and Katzenberg, M. Anne, book editor

Published

2024

6. The effects of mid-to-late Pliocene climatic fluctuations on the habitat and distribution of early hominins.

Author

Trájer, A. J.

Subjects

*CLIMATE change, *PLIOCENE Epoch, *HOMINIDS, *FOSSIL hominids, *HABITATS

Abstract

The climatic fluctuations of the Pliocene played a substantial role in the emergence of Homo and Paranthropus. I studied the climatic suitability and affinity of hominins in Africa to understand how the regional effects of global climatic alternations influenced their occurrence in the mid-late Pliocene epoch. The modelled climatic suitability values indicate the existence of three potential main ranges in the continent. Late Pliocene climatic changes might result in notably fluctuating habitability conditions in the North, Central East, and Southern Africa. In the Afar Region, the range of the changing suitability values was narrower than in the other regions. Therefore, it can be assumed that Australopithecus afarensis might be more resistant to climatic fluctuations than the others. [ABSTRACT FROM AUTHOR]

Published

2023

7. The Early Hominin Foot

Author

DeSilva, Jeremy M., McNutt, Ellison J., Zipfel, Bernhard, Barrett, Louise, Series Editor, Zeininger, Angel, editor, Hatala, Kevin G., editor, Wunderlich, Roshna E., editor, and Schmitt, Daniel, editor

Published

2022

8. Expanded geographic distribution and dietary strategies of the earliest Oldowan hominins and Paranthropus.

Author

Plummer, Thomas W., Oliver, James S., Finestone, Emma M., Ditchfield, Peter W., Bishop, Laura C., Blumenthal, Scott A., Lemorini, Cristina, Caricola, Isabella, Bailey, Shara E., Herries, Andy I. R., Parkinson, Jennifer A., Whitfield, Elizabeth, Hertel, Fritz, Kinyanjui, Rahab N., Vincent, Thomas H., Youjuan Li, Louys, Julien, Frost, Stephen R., Braun, David R., and Reeves, Jonathan S.

Subjects

*PARANTHROPUS, *CARBON isotopes, *MEGAFAUNA, *PLANT cells & tissues

Abstract

The oldest Oldowan tool sites, from around 2.6 million years ago, have previously been confined to Ethiopia’s Afar Triangle. We describe sites at Nyayanga, Kenya, dated to 3.032 to 2.581 million years ago and expand this distribution by over 1300 kilometers. Furthermore, we found two hippopotamid butchery sites associated with mosaic vegetation and a C4 grazer–dominated fauna. Tool flaking proficiency was comparable with that of younger Oldowan assemblages, but pounding activities were more common. Tool use-wear and bone damage indicate plant and animal tissue processing. Paranthropus sp. teeth, the first from southwestern Kenya, possessed carbon isotopic values indicative of a diet rich in C4 foods. We argue that the earliest Oldowan was more widespread than previously known, used to process diverse foods including megafauna, and associated with Paranthropus from its onset. [ABSTRACT FROM AUTHOR]

Published

2023

9. Comparative Context of Hard-Tissue Sexual Dimorphism in Early Hominins: Implications for Alpha Taxonomy.

Author

Balolia KL and Wood B

Subjects

Animals, Female, Male, Body Size physiology, Skull anatomy & histology, Sexual Selection, Biological Evolution, Sex Characteristics, Hominidae anatomy & histology, Hominidae physiology, Hominidae classification, Fossils, Anthropology, Physical

Abstract

Sexual dimorphism is one of the main factors confounding attempts to generate sound alpha taxonomic hypotheses in the early hominin fossil record. To better understand how between-sex variation may confound alpha taxonomic assessments, we consider some of the factors that drive hard-tissue sexual dimorphism in extant primates. We review the socioecological correlates of body size sexual dimorphism, how sexual selection may be associated with craniofacial sexual dimorphism in the context of visual signaling, and how sex-specific patterns of growth and development in primates contribute to intra-specific variation. To illustrate how variation associated with inferred sexual dimorphism has the potential to confound alpha taxonomic assessments in early hominins, we focus on its impact on our understanding of a single taxon, Paranthropus boisei. We suggest that regions of the skeleton likely to be influenced by sexual selection should be avoided when generating alpha taxonomic hypotheses., (© 2025 The Author(s). Evolutionary Anthropology published by Wiley Periodicals LLC.)

Published

2025

10. The Real Paleo Diet.

Author

Ungar, Peter S.

Subjects

*FOSSIL hominids, *PALEONTOLOGY, *FOOD preferences, *FOSSIL teeth, *TOOTH abrasion, *PARANTHROPUS, *CLIMATE change

Abstract

The article focuses on research into the dietary habits of early hominids. It states an examination of fossil teeth for microscopic wear patterns was used to determine what the hominids ate and determine how climate change impacted human evolution. It comments on Liem's paradox concerning animal preferences for foods other than those they are adapted to. It mentions the use of carbon isotope ratios to determine the diet of the hominid Paranthropus boisei and found it ate sedges and grasses.

Published

2018

11. Paranthropus

Author

Clarke, Ronald J., Shen, Chen, Section editor, and Smith, Claire, editor

Published

2020

12. A new early hominin calcaneus from Kromdraai (South Africa).

Author

Harper, Christine M., Zipfel, Bernhard, DeSilva, Jeremy M., McNutt, Ellison J., Thackeray, Francis, and Braga, José

Subjects

*BIPEDALISM, *HOMO naledi, *ACHILLES tendon, *HEEL bone, *APES

Abstract

The Kromdraai site in South Africa has yielded numerous early hominin fossils since 1938. As a part of recent excavations within Unit P, a largely complete early hominin calcaneus (KW 6302) was discovered. Due to its role in locomotion, the calcaneus has the potential to reveal important form/function relationships. Here, we describe KW 6302 and analyze its preserved morphology relative to human and nonhuman ape calcanei, as well as calcanei attributed to Australopithecus afarensis, Australopithecus africanus, Australopithecus sediba, Homo naledi, and the Omo calcaneus (either Paranthropus or early Homo). KW 6302 calcaneal morphology is assessed using numerous quantitative metrics including linear measures, calcaneal robusticity index, relative lateral plantar process position, Achilles tendon length reconstruction, and a three‐dimensional geometric morphometric sliding semilandmark analysis. KW 6302 exhibits an overall calcaneal morphology that is intermediate between humans and nonhuman apes, although closer to modern humans. KW 6302 possesses many traits that indicate it was likely well‐adapted for terrestrial bipedal locomotion, including a relatively flat posterior talar facet and a large lateral plantar process that is similarly positioned to modern humans. It also retains traits that indicate that climbing may have remained a part of its locomotor repertoire, such as a relatively gracile tuber and a large peroneal trochlea. Specimens from Kromdraai have been attributed to either Paranthropus robustus or early Homo; however, there are no definitively attributed calcanei for either genus, making it difficult to taxonomically assign this specimen. KW 6302 and the Omo calcaneus, however, fall outside the range of expected variation for an extant genus, indicating that if the Omo calcaneus was Paranthropus, then KW 6302 would likely be attributed to early Homo (or vice versa). [ABSTRACT FROM AUTHOR]

Published

2022

13. Estimating origination times from the early hominin fossil record.

Author

Bobe, René and Wood, Bernard

Abstract

The age of the earliest recovered fossil evidence of a hominin taxon is all too often equated with that taxon's origination. However, the earliest known fossil record nearly always postdates, sometimes by a substantial period of time, the true origination of a taxon. Here we evaluate the first appearance records of the earliest potential hominins (Sahelanthropus, Ardipithecus, Orrorin), as well as of the genera Australopithecus, Homo, and Paranthropus, to illustrate the considerable uncertainty regarding the actual timing of origin of these taxa. By placing confidence intervals on the first appearance records of early hominin taxa, we can better evaluate patterns of hominin diversity, turnover, and potential correlations with climatic and environmental changes. [ABSTRACT FROM AUTHOR]

Published

2022

14. The Earliest South African Hominids.

Author

Clarke, Ronald J., Pickering, Travis Rayne, Heaton, Jason L., and Kuman, Kathleen

Subjects

*HOMINIDS, *GEOCHRONOMETRY, *SPELEOTHEMS, *STALACTITES & stalagmites, *SKELETON, *BONE conduction

Abstract

The earliest South African hominids (humans and their ancestral kin) belong to the genera Australopithecus, Paranthropus, and Homo, with the oldest being a ca. 3.67 million-year-old nearly complete skeleton of Australopithecus (StW 573) from Sterkfontein Caves. This skeleton has provided, for the first time in almost a century of research, the full anatomy of an Australopithecus individual with indisputably associated skull and postcranial bones that give complete limb lengths. The three genera are also found in East Africa, but scholars have disagreed on the taxonomic assignment for some fossils owing to historical preconceptions. Here we focus on the South African representatives to help clarify these debates. The uncovering of the StW 573 skeleton in situ revealed significant clues concerning events that had affected it over time and demonstrated that the associated stalagmite flowstones cannot provide direct dating of the fossil, as they are infillings of voids caused by postdepositional collapse. [ABSTRACT FROM AUTHOR]

Published

2021

15. New hominin dental remains from Olduvai Gorge (Tanzania).

Author

Riga, Alessandro, Davies, Thomas W., Azzarà, Beatrice, Boschian, Giovanni, Buzi, Costantino, Kimambo, Jackson S., Manzi, Giorgio, Masao, Fidelis T., Mgimwa, Amon, Nyambo, Happiness, Tafforeau, Paul, Jilala, Wilson, Moggi-Cecchi, Jacopo, and Cherin, Marco

Subjects

*GORGES, *PLEISTOCENE Epoch, *HOMINIDS, *SYNCHROTRONS, *TEETH

Published

2024

16. Paranthropus

Author

Kipfer, Barbara Ann

Published

2021

17. Cochlear shape distinguishes southern African early hominin taxa with unique auditory ecologies.

Author

Braga, J., Samir, C., Fradi, A., Feunteun, Y., Jakata, K., Zimmer, V. A., Zipfel, B., Thackeray, J. F., Macé, M., Wood, B. A., and Grine, F. E.

Subjects

*HOMINIDS, *PLEISTOCENE Epoch, *PARANTHROPUS, *GENETIC polymorphisms, *AUDITORY perception

Abstract

Insights into potential differences among the bony labyrinths of Plio-Pleistocene hominins may inform their evolutionary histories and sensory ecologies. We use four recently-discovered bony labyrinths from the site of Kromdraai to significantly expand the sample for Paranthropus robustus. Diffeomorphometry, which provides detailed information about cochlear shape, reveals size-independent differences in cochlear shape between P. robustus and Australopithecus africanus that exceed those among modern humans and the African apes. The cochlea of P. robustus is distinctive and relatively invariant, whereas cochlear shape in A. africanus is more variable, resembles that of early Homo, and shows a degree of morphological polymorphism comparable to that evinced by modern species. The curvature of the P. robustus cochlea is uniquely derived and is consistent with enhanced sensitivity to low-frequency sounds. Combined with evidence for selection, our findings suggest that sound perception shaped distinct ecological adaptations among southern African early hominins. [ABSTRACT FROM AUTHOR]

Published

2021

18. The Paleoecology of the Upper Ndolanya Beds, Laetoli, Tanzania, and Its Implications for Hominin Evolution

Author

Harrison, Terry, Delson, Eric, Series editor, Sargis, Eric J., Series editor, Marom, Assaf, editor, and Hovers, Erella, editor

Published

2017

19. Evolution of Hearing and Language in Fossil Hominins

Author

Quam, Rolf M., Martínez, Ignacio, Rosa, Manuel, Arsuaga, Juan Luis, Fay, Richard R., Series editor, Popper, Arthur N., Series editor, Quam, Rolf M., editor, and Ramsier, Marissa A., editor

Published

2017

20. Contracting eastern African C4 grasslands during the extinction of Paranthropus boisei.

Author

Quinn, Rhonda L. and Lepre, Christopher J.

Subjects

*GRASSLANDS, *PARANTHROPUS, *BIOLOGICAL extinction, *HABITAT conservation, *BIOLOGICAL evolution

Abstract

The extinction of the Paranthropus boisei estimated to just before 1 Ma occurred when C4 grasslands dominated landscapes of the Eastern African Rift System (EARS). P. boisei has been characterized as an herbivorous C4 specialist, and paradoxically, its demise coincided with habitats favorable to its dietary ecology. Here we report new pedogenic carbonate stable carbon (δ13CPC) and oxygen (δ18OPC) values (nodules = 53, analyses = 95) from an under-sampled interval (1.4–0.7 Ma) in the Turkana Basin (Kenya), one of the most fossiliferous locales of P. boisei. We combined our new results with published δ13CPC values from the EARS dated to 3–0 Ma, conducted time-series analysis of woody cover (ƒWC), and compared the EARS ƒWC trends to regional and global paleo-environmental and -climatic datasets. Our results demonstrate that the long-term rise of C4 grasslands was punctuated by a transient but significant increase in C3 vegetation and warmer temperatures, coincident with the Mid-Pleistocene Transition (1.3–0.7 Ma) and implicating a short-term rise in pCO2. The contraction of C4 grasslands escalated dietary competition amongst the abundant C4-feeders, likely influencing P. boisei's demise. [ABSTRACT FROM AUTHOR]

Published

2021

21. Reassessment of the TM 1517 odonto‐postcranial assemblage from Kromdraai B, South Africa, and the maturational pattern of Paranthropus robustus.

Author

Cazenave, Marine, Dean, Christopher, Zanolli, Clément, Oettlé, Anna C., Hoffman, Jakobus, Tawane, Mirriam, Thackeray, Francis, and Macchiarelli, Roberto

Subjects

*PARANTHROPUS, *X-ray computed microtomography, *ROOT formation, *DEVELOPMENTAL biology, *GROWTH plate

Abstract

Objectives: The Pleistocene taxon Paranthropus robustus was established in 1938 following the discovery at Kromdraai B, South Africa, of the partial cranium TM 1517a and associated mandible TM 1517b. Shortly thereafter, a distal humerus (TM 1517g), a proximal ulna (TM 1517e), and a distal hallucial phalanx (TM 1517k) were collected nearby at the site, and were considered to be associated with the holotype. TM 1517a‐b represents an immature individual; however, no analysis of the potentially associated postcranial elements has investigated the presence of any endostructural remnant of recent epiphyseal closure. This study aims at tentatively detecting such traces in the three postcranial specimens from Kromdraai B. Materials and Methods: By using μXCT techniques, we assessed the developmental stage of the TM 1517b's C‐M3 roots and investigated the inner structure of TM 1517g, TM 1517e, and TM 1517k. Results: The M2 shows incompletely closed root apices and the M3 a half‐completed root formation stage. The distal humerus was likely completely fused, while the proximal ulna and the distal hallucial phalanx preserve endosteal traces of the diaphyseo‐epiphyseal fusion process. Discussion In the hominin fossil record, there are few unambiguously associated craniodental and postcranial remains sampling immature individuals, an essential condition for assessing the taxon‐specific maturational patterns. Our findings corroborate the original association of the craniodental and postcranial remains representing the P. robustus type specimen. As with other Plio‐Pleistocene hominins, the odonto‐postcranial maturational pattern of TM 1517 more closely fits an African great ape rather than the extant human pattern. [ABSTRACT FROM AUTHOR]

Published

2020

22. Paranthropus

Author

Shackelford, Todd K, editor and Weekes-Shackelford, Viviana A, editor

Published

2021

23. Fossil tooth fractures and microscopic detail of enamel offer new clues about human diet and evolution

Author

Towle, Ian, Loch, Carolina, and Loho, Thomas

Published

2021

24. Temporal and Stratigraphic Framework for Paleoanthropology Sites Within East-Central Area 130, Koobi Fora, Kenya

Author

Sara Mana, Sidney Hemming, Dennis V. Kent, and Christopher J. Lepre

Subjects

tuff, Orange Tuff, paleomagnetism, 40Ar/39Ar dating, KNM-ER 1805 and 1806, Paranthropus, Science

Abstract

In the Koobi Fora region of the northeast Lake Turkana Basin (Kenya) dozens of archeological sites have been studied for decades in order to understand the behavior of Early Pleistocene hominins. Data collected from these sites have been important for demonstrating the manufacture styles of Oldowan stone-tool users, hominin dietary preferences, and processes of Early Stone Age site formation. A particularly rich locality is collection Area 130. Area 130 is noteworthy for hominin fossils KNM-ER 1805 (Homo) and 1806 (Paranthropus) as well as the FxJj 18 site complex, which represents one of the type localities for the Developed Oldowan of Koobi Fora. However, despite research beginning in the late 1960s, and several revisions to the stratigraphy and dating of the Koobi Fora Formation, few published studies provide a detailed chronostratigraphy for Area 130. The lack of a detailed chronostratigraphy has contributed to conflicting interpretations for the dates of the hominin fossils and archaeological sites. Here we present new geochronologic and paleomagnetic data to develop a chronostratigraphic framework that allows us to directly assess the age of the sediments, fossils, and artifacts from Area 130. Individual pumices from the Orange Tuff marker level and a previously unnamed tuff exposed near the FxJj 18 archaeological site complex (referred here as the FxJj 18 tuff) were analyzed for high-precision single crystal 40Ar/39Ar dating and dated at 1.763 ± 0.007 Ma and 1.520 ± 0.005 Ma respectively. Concurrently, we collected orientated paleomagnetic samples from stratigraphic levels of the KBS Member in Area 130 and used them to develop a magnetostratigraphic section. Our findings can be used to refine the sequence and chronology of the archaeological and fossils sites from Area 130 and other penecontemporaneous sites within the Lake Turkana Basin. Our data show that the first appearance of the Developed Oldowan for Koobi Fora does not correlate with any obvious evolutionary changes represented by the local hominin hypodigm nor with the arrival of a cognitively advanced hominin. Therefore we speculate that the advent of this more sophisticated type of stone tool was a response to a change in the diet of the genus Homo.

Published

2019

25. Meet Your Exotic, Extinct Close Relative.

Author

Wood, Bernard and Williams, Alexis

Subjects

*PARANTHROPUS, *AUSTRALOPITHECINES, *FOSSIL hominids, *FOSSIL hominid craniology, *HUMAN beings

Abstract

The article focuses on Paranthropus boisei, which belonged to the hominins that lived in East African and was believed to be an extinct but close relative of modern humans. Topics discussed include its distinctive physical features that included a smaller brain and a massive set of molar and premolar teeth and additional evidence of the hominin from East Africa, particularly in Koobi Fora in Kenya.

Published

2020

26. Taxonomic variation in the supraorbital region of catarrhine primates.

Author

White, Suzanna, Soligo, Christophe, Pope, Matt, and Hillson, Simon

Subjects

*BIOLOGICAL classification, *HOMINIDS, *PRIMATES, *AUSTRALOPITHECINES, *PARANTHROPUS

Abstract

Objectives: This study aimed to test the taxonomic utility of the catarrhine supraorbital region using 3D geometric morphometrics, with the aim of establishing its potential use in elucidating the position of more debated hominin groups. Materials and Methods: 230 3D coordinates were used to record the supraorbital morphology of two datasets: one containing 460 non‐hominin catarrhine primates from species and subspecies of Gorilla, Pan, Papio, and Macaca; and the other containing 55 Pleistocene hominins from Homo, Australopithecus, and Paranthropus. Principal component analyses in tangent, form, and allometry‐free shape space were used to assess differentiation of taxa, with biological distinctiveness of taxa being established using step‐wise discriminant analysis with subsampling. Results: Results indicated that the recorded supraorbital morphology could be used to separate non‐hominin catarrhine primate genera, species, and subspecies, although accuracy was found to decrease with decreasing Linnaean rank. In addition, analyses in tangent space were found to produce the highest accuracy when classifying primates of known taxonomy. Biological distinctiveness of the middle and later Homo species was comparable to or higher than that of the non‐hominin primates, and relatively lower for the earlier groups of Homo. Discussion: This study indicates that the supraorbital region preserves taxonomic information that can be used to delineate between closely related groups, both within hominins and wider catarrhine primates. Therefore, this region may be used to provide insight when assessing the taxonomic affiliation of disputed hominin specimens. [ABSTRACT FROM AUTHOR]

Published

2020

27. The inner ear of the Paranthropus specimen DNH 22 from Drimolen, South Africa.

Author

Beaudet, Amélie

Subjects

*PARANTHROPUS, *INNER ear, *SEMICIRCULAR canals, *COCHLEA

Abstract

Objectives: Morphological variation within the southern African hypodigm of Paranthropus has been the focus of major interest since the earliest discoveries in the "Cradle of Humankind." Given the relevance of the bony labyrinth for investigating fossil primate paleobiodiversity, this article aims to provide additional evidence for assessing the degree of regional variation within Paranthropus through the comparative analysis of the inner ear of DNH 22. Materials and methods: As comparative material, 18 southern African hominin specimens from Sterkfontein, Swartkrans, and Makapansgat (plus published data from Kromdraai B), attributed to Australopithecus, early Homo or Paranthropus, as well as 10 extant human and 10 extant common chimpanzee specimens are investigated. A landmark‐based geometric morphometric method is applied for quantitatively assessing labyrinthine morphology. Additionally, cochlear parameters and oval window area are measured. Results: In terms of semicircular canal and cochlear shape, DNH 22 most resembles the Paranthropus specimen SKW 18 from Swartkrans. Both specimens differ from the other Paranthropus specimens investigated in this study by an anteroposteriorly large posterior semicircular canal and a cochlea with loose turns in the apical portion. Conversely, the oval window area in DNH 22 closely fits the range observed in Paranthropus from Swartkrans and Kromdraai B. Discussion: The inner ear of the DNH 22 specimen represents a unique opportunity to provide further insight into the early hominin labyrinthine variation pattern. In particular, the description of DNH 22 raises critical questions on the diversity of the vestibular system and evolutionary pattern of the auditory apparatus in Paranthropus. [ABSTRACT FROM AUTHOR]

Published

2019

28. First metatarsal trabecular bone structure in extant hominoids and Swartkrans hominins.

Author

Komza, Klara and Skinner, Matthew M.

Abstract

Changes in first metatarsal (MT1) morphology within the hominin clade are crucial for reconstructing the evolution of a forefoot adapted for human-like gait. Studies of the external morphology of the MT1 in humans, non-human apes, and fossil hominins have documented changes in its robusticity, epiphyseal shape and its articulation with the medial cuneiform. Here, we test whether trabecular structure in the MT1 reflects different loading patterns in the forefoot across extant large apes and humans, and within this comparative context, infer locomotor behavior in two fossil hominins from Swartkrans, South Africa. Microtomographic scans were collected from the MT1 of Pongo sp. (n = 6), Gorilla gorilla (n = 10), Pan troglodytes (n = 10), Homo sapiens (n = 11), as well as SKX 5017 (Paranthropus robustus), and SK 1813 (Hominin gen. sp. indet.). Trabecular structure was quantified within the head and base using a 'whole-epiphysis' approach with medtool 4.2. We found that modern humans displayed relatively higher bone volume fraction (BV/TV) in the dorsal region of each epiphysis and a higher overall degree of anisotropy (DA), whereas great apes showed higher BV/TV in the plantar regions, reflecting dorsiflexion at the metatarsophalangeal (MTP) joint in the former and plantarflexion in the latter. Both fossils displayed low DA, with SKX 5017 showing a hyper-dorsal concentration of trabecular bone in the head (similar to humans), while SK 1813 showed a more central trabecular distribution not seen in either humans or non-human apes. Additionally, we found differences between non-human apes, modern humans, and the fossil taxa in trabecular spacing (Tb.Sp.), number (Tb.N.), and thickness (Tb.th.). While low DA in both fossils suggests increased mobility of the MT1, differences in their trabecular distributions could indicate variable locomotion in these Pleistocene hominins (recognizing that the juvenile status of SK 1813 is a potential confounding factor). In particular, evidence for consistent loading in hyper-dorsiflexion in SKX 5017 would suggest locomotor behaviors beyond human-like toe off during terrestrial locomotion. [ABSTRACT FROM AUTHOR]

Published

2019

29. Who ate OH80 (Olduvai Gorge, Tanzania)? A geometric-morphometric analysis of surface bone modifications of a Paranthropus boisei skeleton.

Author

Aramendi, Julia, Arriaza, Mari Carmen, Yravedra, José, Maté-González, Miguel Ángel, Ortega, María Cruz, Courtenay, Lloyd A., González-Aguilera, Diego, Gidna, Agness, Mabulla, Audax, Baquedano, Enrique, and Domínguez-Rodrigo, Manuel

Subjects

*ANALYSIS of bones, *SURFACE analysis, *GORGES, *SKELETON, *TRACE fossils, *PALEONTOLOGICAL excavations, *MORPHOMETRICS

Abstract

Olduvai Gorge (Tanzania) is one of the key areas for the study of human origins, given the sheer abundance of archaeological and paleontological sites discovered. Several of these archaeological sites have yielded numerous hominin fossils and traces of their activities, thus offering invaluable insights into the nature and origins of human behavior. Nevertheless, certain taphonomic discussions that have been of great importance for the study of the South African cave sites have remained unnoticed in East Africa. One of these issues revolves around the interpretation of Paranthropus as a common prey of predators. In this paper, we analyze the postcranial remains of OH80, a partial skeleton of a Paranthropus boisei discovered at the BK site (Bell Korongo, Bed II of Olduvai Gorge, Tanzania) in 2010. Some of the specimens of this skeleton have been reported to show surface modifications tentatively associated to the action of carnivores. Here, several pits observed on OH80-12, the Paranthropus boisei femur, were digitally reconstructed and analyzed through geometric morphometrics to determine the nature of the marks. The OH80-12 marks are compared with a modern sample of percussion marks and several carnivore tooth pits, since the action of both agents has previously been identified at the site and can sometimes result in equifinality problems. Alongside already published geometric morphometric tests, here we present a very newly developed approach based on the combination of geometric morphometric data and the training of machine learning algorithms. Both methodologies highlight that OH80 was consumed by carnivores, being a felid the most likely modifying agent. [ABSTRACT FROM AUTHOR]

Published

2019

30. Inference of Diets of Early Hominins from Primate Molar Form and Microwear.

Author

Ungar, P. S.

Subjects

TEETH, TOOTH abrasion, AUSTRALOPITHECINES, HOMINIDS, SIZE of teeth, MOLARS, MASTICATION, ANIMAL feeding

Abstract

Paleontologists use fossil teeth to reconstruct the diets of early hominins and other extinct species. Some evidence is adaptive: nature selects for tooth size, shape, and structure best suited to specific food types. Other evidence includes traces left by actual foods eaten, such as microscopic tooth wear. This critical review considers how molars work, how they are used, and how occlusal topography and dental microwear can be used to infer diet and food preferences in the past, particularly for hominins of the Pliocene and early Pleistocene. Understanding that cheek teeth function as guides for chewing and tools for fracturing allows us to characterize aspects of occlusal form that reflect mechanical properties of foods to which a species is adapted. Living primates that often eat leaves, for example, have longer crests and more sloping occlusal surfaces than those that prefer hard foods. Studies of feeding ecology have shown, however, that tooth shape does not always correspond to preferred food items. It often follows mechanically challenging foods whether eaten often or rarely. Other lines of evidence that reflect actual tooth use are required to work out food preferences. Microwear textures, for example, reflect foods eaten by individuals in the past such that hard seeds and bone tend to leave complex, pitted surface textures, whereas tough leaves and meat more often leave anisotropic ones covered in long, parallel scratches. The study of fossil hominin molars shows how these various attributes are combined to infer diet and food preference in the past. A trend in occlusal morphology suggests decreased dietary specialization from Australopithecus to early Homo, and increasing dispersion in microwear complexity values is consistent with this. On the other hand, occlusal morphology may suggest dietary specialization in Paranthropus, although different species of this genus have different microwear texture patterns despite similar craniodental adaptations. [ABSTRACT FROM AUTHOR]

Published

2019

31. facing the past.

Author

BARONE, JENNIFER

Subjects

*HUMAN evolution, *SCULPTURE, *PARANTHROPUS, *HOMO erectus

Abstract

A photo essay on human evolution is presented showing images of sculpted re-creations of the ancient humans Rudapithecus, Paranthropus, Homo erectus, and others made by paleoartist John Gurche.

Published

2010

32. Biomechanical and taxonomic diversity in the Early Pleistocene in East Africa: Structural analysis of a recently discovered femur shaft from Olduvai Gorge (bed I).

Author

Aramendi, Julia, Mabulla, Audax, Baquedano, Enrique, and Domínguez-Rodrigo, Manuel

Subjects

*PLEISTOCENE Epoch, *FEMUR, *FOSSILS, *HUMAN skeleton, *FOSSIL hominids, *BONE shafts, *GORGES, *BIPEDALISM

Abstract

Recent Plio-Pleistocene hominin findings have revealed the complexity of human evolutionary history and the difficulties involved in its interpretation. Moreover, the study of hominin long bone remains is particularly problematic, since it commonly depends on the analysis of fragmentary skeletal elements that in many cases are merely represented by small diaphyseal portions and appear in an isolated fashion in the fossil record. Nevertheless, the study of the postcranial skeleton is particularly important to ascertain locomotor patterns. Here we report on the discovery of a robust hominin femoral fragment (OH 84) at the site of Amin Mturi Korongo dated to 1.84 Ma (Olduvai Bed I). External anatomy and internal bone structure of OH 84 were analyzed and compared with previously published data for modern humans and chimpanzees, as well as for Australopithecus , Paranthropus and Homo specimens ranging from the Late Pliocene to Late Pleistocene. Biomechanical analyses based on transverse cross-sections and the comparison of OH 84 with another robust Olduvai specimen (OH 80) suggest that OH 84 might be tentatively allocated to Paranthropus boisei. More importantly, the identification of a unique combination of traits in OH 84 could indicate both terrestrial bipedalism and an arboreal component in the locomotor repertoire of this individual. If interpreted correctly, OH 84 could thus add to the already mounting evidence of substantial locomotor diversity among Early Pleistocene hominins. Likewise, our results also highlight the difficulties in accurately interpreting the link between form and function in the human fossil record based on fragmentary remains, and ultimately in distinguishing between coeval hominin groups due to the heterogeneous pattern of inter- and intraspecific morphological variability detected among fossil femora. [ABSTRACT FROM AUTHOR]

Published

2024

33. Paranthropus

Author

Clarke, Ronald J. and Smith, Claire, editor

Published

2014

34. Some Ruminations on Australopith Diets

Author

Sponheimer, Matt, Delson, Eric, Series editor, Sargis, Eric J., Series editor, Reed, Kaye E., editor, Fleagle, John G., editor, and Leakey, Richard E., editor

Published

2013

35. The Biogeographic Implications of Early Hominin Phylogeny

Author

Strait, David S., Delson, Eric, Series editor, Sargis, Eric J., Series editor, Reed, Kaye E., editor, Fleagle, John G., editor, and Leakey, Richard E., editor

Published

2013

36. The Alpha Taxonomy of Australopithecus africanus

Author

Grine, Frederick E., Delson, Eric, Series editor, Sargis, Eric J., Series editor, Reed, Kaye E., editor, Fleagle, John G., editor, and Leakey, Richard E., editor

Published

2013

37. Paranthropus paradoxes: patterns of morphological variation in East African 'robust australopithecines'

Author

Nadal Urias, Lucia

Subjects

Sexual dimorphism, Variation, Paranthropus, Human evolution

Abstract

The genus Paranthropus represents an iconic taxon in the hominin fossil record. Its early discovery, together with its morphological distinctiveness, have defined this genus as a unique hominin lineage parallel to our own. Paranthropus boisei, who lived in East Africa between 2.3 and 1.4 million years ago, stands out amongst ‘robust australopithecines’ for its hyper expression of the megadont features diagnostic of the genus, while its vast dental and mandibular hypodigm makes it the best represented species in the early hominin fossil record. Yet, while megadont traits allow the clear identification of fossils as Paranthropus rather than Homo or Australopithecus, their expression is far from homogenous. This has resulted in a paradox of a seemingly morphologically ‘well-defined’ species that, nevertheless, encompasses a large intraspecific variability that does not always respect this definition. This paradox has been at the centre of conflicting interpretations regarding the evolutionary history and taxonomy of P. boisei. This work represents a critical examination of the degree of variation in the size and shape of mandibles assigned to P. boisei combining anatomical descriptions, high-resolution imaging, landmark-based 3D geometric morphometrics, and machine learning methodologies. Comparisons of ca. 60% of all original P. boisei fossil mandibles to those of living hominoids reveal the first sex estimation of individual fossils with an associated statistical likelihood, and a unique expression of sexual dimorphism in the extinct group. Further analyses reveal that the high morphological variability observed is structured independently of sexual dimorphism. In contrast, this thesis presents a novel interpretation to this variability and recognizes two distinct craniomandibular ecomorphotypes within the species’ hypodigm, typified by the two most emblematic cranial specimens ascribed to P. boisei (i.e. OH 5 and KNM-ER 406). Moreover, this work discusses the potential evolutionary scenarios leading to the morphological and ecological differences underlying this partitioning with significant implications for our current understanding of the taxonomical affinities, ecological interpretations and evolutionary history of P. boisei. Finally, this thesis presents the first description of two P. boisei mandibles from the site of Koobi Fora, Kenya, and discusses these new fossil hominin specimens in the context of the ecomorphotypes identified., CONACYT - Cambridge Trust Scholarship

Published

2023

38. Humeral anatomy of the KNM-ER 47000 upper limb skeleton from Ileret, Kenya: Implications for taxonomic identification.

Author

Lague, Michael R., Chirchir, Habiba, Green, David J., Mbua, Emma, Harris, John W.K., Braun, David R., Griffin, Nicole L., and Richmond, Brian G.

Subjects

*FOSSIL hominids, *SKELETON, *TAXONOMY, *HOMINIDS, *ANATOMY

Abstract

Abstract KNM-ER 47000 is a fossil hominin upper limb skeleton from the Koobi Fora Formation, Kenya (FwJj14E, Area 1A) that includes portions of the scapula, humerus, ulna, and hand. Dated to ∼1.52 Ma, the skeleton could potentially belong to one of multiple hominin species that have been documented in the Turkana Basin during this time, including Homo habilis , Homo erectus , and Paranthropus boisei. Although the skeleton lacks associated craniodental material, the partial humerus (described here) preserves anatomical regions (i.e., distal diaphysis, elbow joint) that are informative for taxonomic identification among early Pleistocene hominins. In this study, we analyze distal diaphyseal morphology and the shape of the elbow region to determine whether KNM-ER 47000 can be confidently attributed to a particular species. The morphology of the KNM-ER 47000 humerus (designated KNM-ER 47000B) is compared to that of other early Pleistocene hominin fossil humeri via the application of multivariate ordination techniques to both two-dimensional landmark data (diaphysis) and scale-free linear shape data (elbow). Distance metrics reflecting shape dissimilarity between KNM-ER 47000B and other fossils (and species average shapes) are assessed in the context of intraspecific variation within modern hominid species (Homo sapiens , Pan troglodytes , Gorilla gorilla , Pongo pygmaeus). Our comparative analyses strongly support attribution of KNM-ER 47000 to P. boisei. Compared to four other partial skeletons that have (justifiably or not) been attributed to P. boisei , KNM-ER 47000 provides the most complete picture of upper limb anatomy in a single individual. The taxonomic identification of KNM-ER 47000 makes the skeleton an important resource for testing future hypotheses related to P. boisei upper limb function and the taxonomy of isolated early Pleistocene hominin remains. [ABSTRACT FROM AUTHOR]

Published

2019

39. Cross-sectional properties of the humeral diaphysis of Paranthropus boisei: Implications for upper limb function.

Author

Lague, Michael R., Chirchir, Habiba, Green, David J., Mbua, Emma, Harris, John W.K., Braun, David R., Griffin, Nicole L., and Richmond, Brian G.

Subjects

*PARANTHROPUS, *EXTREMITIES (Anatomy), *BONE shafts, *AUSTRALOPITHECINES, *ANATOMY

Abstract

Abstract A ∼1.52 Ma adult upper limb skeleton of Paranthropus boisei (KNM-ER 47000) recovered from the Koobi Fora Formation, Kenya (FwJj14E, Area 1A) includes most of the distal half of a right humerus (designated KNM-ER 47000B). Natural transverse fractures through the diaphysis of KNM-ER 470000B provide unobstructed views of cortical bone at two sections typically used for analyzing cross-sectional properties of hominids (i.e., 35% and 50% of humerus length from the distal end). Here we assess cross-sectional properties of KNM-ER 47000B and two other P. boisei humeri (OH 80-10, KNM-ER 739). Cross-sectional properties for P. boisei associated with bending/torsional strength (section moduli) and relative cortical thickness (%CA; percent cortical area) are compared to those reported for nonhuman hominids, AL 288-1 (Australopithecus afarensis), and multiple species of fossil and modern Homo. Polar section moduli (Z p) are assessed relative to a mechanically relevant measure of body size (i.e., the product of mass [M] and humerus length [HL]). At both diaphyseal sections, P. boisei exhibits %CA that is high among extant hominids (both human and nonhuman) and similar to that observed among specimens of Pleistocene Homo. High values for Z p relative to size (M × HL) indicate that P. boisei had humeral bending strength greater than that of modern humans and Neanderthals and similar to that of great apes, A. afarensis , and Homo habilis. Such high humeral strength is consistent with other skeletal features of P. boisei (reviewed here) that suggest routine use of powerful upper limbs for arboreal climbing. [ABSTRACT FROM AUTHOR]

Published

2019

40. Dietary versatility of Early Pleistocene hominins.

Author

Lüdecke, Tina, Kullmer, Ottmar, Wacker, Ulrike, Sandrock, Oliver, Fiebig, Jens, Schrenk, Friedemann, and Mulch, Andreas

Subjects

*DIET research, *FOSSIL hominids, *PLEISTOCENE Epoch, *PALEOPEDOLOGY, *HOMO rudolfensis, *PARANTHROPUS, *FOOD, HISTORY of Malawi

Abstract

New geochemical data from the Malawi Rift (Chiwondo Beds, Karonga Basin) fill a major spatial gap in our knowledge of hominin adaptations on a continental scale. Oxygen (δ18O), carbon (δ13C), and clumped (Δ47) isotope data on paleosols, hominins, and selected fauna elucidate an unexpected diversity in the Pleistocene hominin diet in the various habitats of the East African Rift System (EARS). Food sources of early Homo and Paranthropus thriving in relatively cool and wet wooded savanna ecosystems along the western shore of paleolake Malawi contained a large fraction of C3 plant material. Complementary water consumption reconstructions suggest that ca. 2.4 Ma, early Homo (Homo rudolfensis) and Paranthropus (Paranthropus boisei) remained rather stationary near freshwater sources along the lake margins. Time-equivalent Paranthropus aethiopicus from the Eastern Rift further north in the EARS consumed a higher fraction of C4 resources, an adaptation that grew more pronounced with increasing openness of the savanna setting after 2 Ma, while Homo maintained a high versatility. However, southern African Paranthropus robustus had, similar to the Malawi Rift individuals, C3-dominated feeding strategies throughout the Early Pleistocene. Collectively, the stable isotope and faunal data presented here document that early Homo and Paranthropus were dietary opportunists and able to cope with a wide range of paleohabitats, which clearly demonstrates their high behavioral flexibility in the African Early Pleistocene. [ABSTRACT FROM AUTHOR]

Published

2018

41. Scapular anatomy of Paranthropus boisei from Ileret, Kenya.

Author

Green, David J., Chirchir, Habiba, Mbua, Emma, Harris, John W.K., Braun, David R., Griffin, Nicole L., and Richmond, Brian G.

Subjects

*PARANTHROPUS, *HOMINIDS

Abstract

Abstract KNM-ER 47000A is a new 1.52 Ma hominin scapular fossil belonging to an associated partial skeleton from the Koobi Fora Formation, Kenya (FwJj14E, Area 1A). This fossil effectively doubles the record of Early Pleistocene scapulae from East Africa, with KNM-WT 15000 (early African Homo erectus) preserving the only other known scapula to date. KNM-ER 47000A consists of a complete glenoid cavity preserving a portion of the scapular spine and neck, the proximal half of the acromion, and a majority of the axillary border. A sufficient amount of anatomy is preserved to compare KNM-ER 47000A with scapulae of several Australopithecus species, extinct Homo , and living hominoids. The glenohumeral joint of KNM-ER 47000A is more laterally oriented than those of great apes and Australopithecus , aligning it closely with KNM-WT 15000 and modern humans. While this morphology does not imply a strong commitment to arboreality, its scapular spine is obliquely oriented—as in gorillas and some Australopithecus fossils—particularly when compared to the more horizontal orientation seen in KNM-WT 15000 and modern humans. Such a spine orientation suggests a narrow yet long infraspinous region, a feature that has been attributed to suspensory taxa. Accordingly, the morphology of KNM-ER 47000A presents conflicting behavioral implications. Nonetheless, a multivariate consideration of the available scapular traits aligns KNM-ER 47000A and Australopithecus with great apes, whereas KNM-WT 15000 resembles modern humans. The scapular morphology of KNM-ER 47000A is unique among fossil and extant hominoids and its morphological differences from KNM-WT 15000 strengthen the attribution of KNM-ER 47000 to Paranthropus boisei as opposed to early Homo. As the first evidence of scapular morphology in P. boisei , KNM-ER 47000A provides important new information on variation in hominin shoulder and upper limb anatomy from this critical period of hominin evolutionary history. [ABSTRACT FROM AUTHOR]

Published

2018

42. Ancient teeth, phenetic affinities, and African hominins: Another look at where Homo naledi fits in.

Author

Irish, Joel D., Bailey, Shara E., Guatelli-Steinberg, Debbie, Delezene, Lucas K., and Berger, Lee R.

Subjects

*HOMINIDS, *ANTHROPOMETRY, *QUANTITATIVE research, *PARANTHROPUS, *HOMO erectus

Abstract

A new species of Homo , Homo naledi , was described in 2015 based on the hominin skeletal remains from the Dinaledi Chamber of the Rising Star cave system, South Africa. Subsequent craniodental comparative analyses, both phenetic and cladistic, served to support its taxonomic distinctiveness. Here we provide a new quantitative analysis, where up to 78 nonmetric crown and root traits of the permanent dentition were compared among samples of H. naledi (including remains from the recently discovered Lesedi Chamber) and eight other species from Africa: Australopithecus afarensis , Australopithecus africanus , Paranthropus boisei , Paranthropus robustus , Homo habilis , Homo erectus , Middle Pleistocene Homo sp., and Pleistocene and Holocene Homo sapiens . By using the mean measure of divergence distance statistic, phenetic affinities were calculated among samples to evaluate interspecific relatedness. The objective was to compare the results with those previously obtained, to assess further the taxonomic validity of the Rising Star hominin species. In accordance with earlier findings, H. naledi appears most similar dentally to the other African Homo samples. However, the former species is characterized by its retention and full expression of features relating to the main cusps, as well as the root numbers, with a near absence of accessory traits—including many that, based on various cladistic studies, are plesiomorphic in both extinct and extant African hominins. As such, the present findings provide additional support for the taxonomic validity of H. naledi as a distinct species of Homo . [ABSTRACT FROM AUTHOR]

Published

2018

43. Cranial vault thickness variation and inner structural organization in the StW 578 hominin cranium from Jacovec Cavern, South Africa.

Author

Beaudet, Amélie, Carlson, Kristian J., Clarke, Ronald J., de Beer, Frikkie, Dhaene, Jelle, Heaton, Jason L., Pickering, Travis R., and Stratford, Dominic

Subjects

*FOSSIL hominids, *CRANIOLOGY, *ARCHAEOLOGICAL human remains, *AUSTRALOPITHECINES, CRADLE of Humankind World Heritage Site (South Africa)

Abstract

The Sterkfontein Caves site is one of the richest early hominin fossil localities in Africa. More specifically, the fossiliferous deposits within the lower-lying Jacovec Cavern have yielded valuable hominin remains; prominent among them is the Australopithecus partial cranium StW 578. Due to the fragmentary nature of the braincase, the specimen has not yet been formally assigned to a species. In this context, we employ microtomography to quantify cranial thickness and composition of StW 578 in order to assess its taxonomic affinity. As comparative material, we investigate 10 South African hominin cranial specimens from Sterkfontein (StW 505, Sts 5, Sts 25, Sts 71), Swartkrans (SK 46, SK 48, SK 49) and Makapansgat (MLD 1, MLD 10, MLD 37/38), attributed to either Australopithecus or Paranthropus , as well as 10 extant human and 10 extant chimpanzee crania. Thickness variation in and structural arrangement of the inner and outer cortical tables and the diploë are automatically assessed at regular intervals along one parasagittal and one coronal section. Additionally, topographic cranial vault thickness distribution is visualized using color maps. Comparisons highlight an absolutely and relatively thickened condition of the StW 578 cranial vault versus those of other South African Plio-Pleistocene hominins. Moreover, in StW 578, as well as in the Australopithecus specimens Sts 5 and Sts 71 from Sterkfontein, the diploic layer contributes substantially to cumulative vault thickness (i.e., >60%). Within the comparative sample investigated here, StW 505 and Sts 71 from Sterkfontein Member 4, both attributed to Australopithecus , most closely resemble StW 578 in terms of cranial vault thickness values, tissue proportions, and two- and three-dimensional distributions. Including additional Plio-Pleistocene Australopithecus and Paranthropus crania from South and East Africa in future studies would further help establish morphological variability in these hominin taxa. [ABSTRACT FROM AUTHOR]

Published

2018

44. Human-like hip joint loading in Australopithecus africanus and Paranthropus robustus.

Author

Ryan, Timothy M., Carlson, Kristian J., Gordon, Adam D., Jablonski, Nina, Shaw, Colin N., and Stock, Jay T.

Subjects

*HIP joint, *AUSTRALOPITHECUS africanus, *PARANTHROPUS, *PHYSIOLOGICAL adaptation, *BIPEDALISM

Abstract

Adaptations indicative of habitual bipedalism are present in the earliest recognized hominins. However, debate persists about various aspects of bipedal locomotor behavior in fossil hominins, including the nature of gait kinematics, locomotor variability across different species, and the degree to which various australopith species engaged in arboreal behaviors. In this study, we analyze variation in trabecular bone structure of the femoral head using a sample of modern humans, extant non-human hominoids, baboons, and fossil hominins attributed to Australopithecus africanus , Paranthropus robustus , and the genus Homo . We use μCT data to characterize the fabric anisotropy, material orientation, and bone volume fraction of trabecular bone to reconstruct hip joint loading conditions in these fossil hominins. Femoral head trabecular bone fabric structure in australopiths is more similar to that of modern humans and Pleistocene Homo than extant apes, indicating that these australopith individuals walked with human-like hip kinematics, including a more limited range of habitual hip joint postures (e.g., a more extended hip) during bipedalism. Our results also indicate that australopiths have robust femoral head trabecular bone, suggesting overall increased loading of the musculoskeletal system comparable to that imposed by extant apes. These results provide new evidence of human-like bipedal locomotion in Pliocene hominins, even while other aspects of their musculoskeletal systems retain ape-like characteristics. [ABSTRACT FROM AUTHOR]

Published

2018

45. Civettictis braini nov. sp. (Mammalia: Carnivora), a new viverrid from the hominin-bearing site of Kromdraai (Gauteng, South Africa).

Author

Fourvel, Jean-Baptiste

Subjects

*VIVERRIDAE, *PARANTHROPUS, *ARCHAEOLOGICAL excavations, *PALEOECOLOGY, KROMDRAAI Cave (South Africa)

Abstract

A new Plio-Pleistocene viverrid species is described based on two newly discovered maxillae (KW 10141 and KW 10383) from the recent excavations at the hominin-bearing site of Kromdraai (Gauteng, South Africa). This major site allows us to address the conundrum of Paranthropus and Homo origins in South Africa and presents a highly diverse carnivore spectrum (at least 22 species) including herpestids and viverrids. Civettictis braini nov. sp. is a viverrid species comparable in size to the extant African civet Civettictis civetta (Schreber, 1776). However C. braini nov. sp. differs significantly from the extant species in its dental proportions. Its canine and three premolars (P1–P3) are relatively robust, while its carnassials (P4) and two molars (M1, M2) are extremely reduced. This new species supplements our knowledge on carnivore taxonomic diversity and paleoecology in Southern Africa about 2 millions of years ago. [ABSTRACT FROM AUTHOR]

Published

2018

46. Microwear textures of Australopithecus africanus and Paranthropus robustus molars in relation to paleoenvironment and diet.

Author

Peterson, Alexandria, Abella, Elicia F., Grine, Frederick E., Teaford, Mark F., and Ungar, Peter S.

Subjects

*PRIMATE feeding habits, *PALEOENVIRONMENTAL studies, *MECHANICAL wear, *AUSTRALOPITHECUS africanus, *PARANTHROPUS, *MOLARS

Abstract

The importance of diet in primate ecology has motivated the use of a variety of methods to reconstruct dietary habits of extinct hominin taxa. Dental microwear is one such approach that preserves evidence from consumed food items. This study is based on 44 specimens of Australopithecus africanus from Makapansgat and Sterkfontein, and 66 specimens of Paranthropus robustus from Swartkrans, Kromdraai and Drimolen. These samples enable examination of potential differences between the two assemblages of A. africanus , and among the various assemblages of P. robustus in relation to the paleoenvironmental reconstructions that have been proffered for each fossil site. Sixteen microwear texture variables were recorded for each specimen from digital elevation models generated using a white-light confocal profiler. Only two of these differ significantly between the Makapansgat and Sterkfontein samples of A. africanus . None of the microwear texture variables differs significantly among the samples of P. robustus . On the other hand, P. robustus has significantly higher values than A. africanus for 11 variables related to feature complexity, size, and depth; P. robustus exhibits rougher surfaces that comprise larger, deeper features. In contrast, A. africanus has smoother, simpler wear surfaces with smaller, shallower and more anisotropic features. As for possible habitat differences among the various sites, only a relatively small number of subtle differences are evident between the specimens of A. africanus from Makapansgat and Sterkfontein, and there are none among the specimens of P. robustus from various deposits. As such, it is reasonable to conclude that, while subtle differences in microwear textures may reflect differences in background habitats, the wear fabric differences between P. robustus and A. africanus are most reasonably interpreted as having been driven by dietary differences. [ABSTRACT FROM AUTHOR]

Published

2018

47. New taphonomic analysis of large-bodied primate assemblage from Cooper's D, Bloubank Valley, South Africa

Author

Val, Aurore, Taru, Philip, and Steininger, Christine

Published

2014

48. Should an also-ran in human evolution get more respect?

Author

Gibbons, Ann

Subjects

*STONE implements, *OLDOWAN culture, *PARANTHROPUS, *HOMINIDS, *HUMAN evolution

Abstract

The article informs about a recently discovered 2.8-million-year-old ancient tools in Kenya which are the oldest known examples of the Oldowan toolkit, a technological breakthrough long thought to be a defining hallmark of the Homo genus. It mentions that the discovery suggests that the large-toothed Paranthropus hominin, an 'also-ran' in human evolution, may have made or at least used tools that are fueling an expanding view of tool-making abilities of hominins.

Published

2023

49. CONSIDER THE CRANIUMS.

Author

POWELL, ERIC A.

Subjects

*SKULL, *PARANTHROPUS, *ARCHAEOLOGY

Abstract

The article reports on the two-million-year-old skull, dubbed DNH 155, unearthed in the Drimolen Main Quarry north of Johannesburg, South Africa, as of May 2021, which belongs to the earliest known and best-preserved member of the species Paranthropus robustus, a small-brained hominin that lived around the same time as Homo erectus, the direct ancestor of humans.

Published

2021

50. Pattern and process in hominin brain size evolution are scale-dependent.

Author

Du, Andrew, Zipkin, Andrew M., Hatala, Kevin G., Renner, Elizabeth, Baker, Jennifer L., Bianchi, Serena, Bernal, Kallista H., and Wood, Bernard A.

Subjects

*HOMINIDS, *SIZE of brain, *HYPOTHESIS, *AUSTRALOPITHECINES, *PARANTHROPUS

Abstract

A large brain is a defining feature ofmodern humans, yet there is no consensus regarding the patterns, rates and processes involved in hominin brain size evolution. We use a reliable proxy for brain size in fossils, endocranial volume (ECV), to better understand how brain size evolved at both clade- and lineage-level scales. For the hominin clade overall, the dominant signal is consistent with a gradual increase in brain size. This gradual trend appears to have been generated primarily by processes operating within hypothesized lineages--64% or 88% depending on whether one uses a more or less speciose taxonomy, respectively. These processeswere supplemented by the appearance in the fossil record of larger-brained Homo species and the subsequent disappearance of smaller-brained Australopithecus and Paranthropus taxa. When the estimated rate of within-lineage ECV increase is compared to an exponential model that operationalizes generation-scale evolutionary processes, it suggests that the observed data were the result of episodes of directional selection interspersed with periods of stasis and/or drift; all of this occurs on too fine a timescale to be resolved by the current human fossil record, thus producing apparent gradual trends within lineages. Our findings provide a quantitative basis for developing and testing scale-explicit hypotheses about the factors that led brain size to increase during hominin evolution. [ABSTRACT FROM AUTHOR]

Published

2018