Your search keyword '"Pablos, Adrián"' showing total 6 results

1. Tarsals from the Sima de los Huesos Middle Pleistocene site (Atapuerca, Burgos, Spain).

Author

Pablos, Adrián and Arsuaga, Juan Luis

Published

2024

2. Metatarsals and foot phalanges from the Sima de los Huesos Middle Pleistocene site (Atapuerca, Burgos, Spain).

Author

Pablos, Adrián and Arsuaga, Juan Luis

Published

2024

3. Changes in human calcaneal morphology throughout the Pleistocene-Holocene Levant.

Author

Dann, Ariana, Pokhojaev, Ariel, Anton, Marie, Yalovitsky, Guy, Kallevag-Pelleg, Ruth, May, Hila, Pietrobelli, Annalisa, Pina, Marta, and Pablos, Adrián

Subjects

SEXUAL division of labor, BIPEDALISM, MORPHOLOGY, MIDDLE Paleolithic Period, COPPER Age, HEEL bone, PALEOLITHIC Period

Abstract

The calcaneal morphology changed considerably during human evolution to enable efficient bipedal locomotion. However, little information exists regarding its adaptation to changes in habitual activities following the transition to a sedentary lifestyle. We aimed to examine changes in calcaneal morphology during the Pleistocene-Holocene Levant in light of sexual dimorphism. We studied three archaic Homo sapiens calcanei dated to the Middle and Upper Paleolithic, 23 Natufian hunter-gatherers, 12 Pre-Pottery Neolithic early farmers, and 31 Chalcolithic farmers. The calcanei were scanned via a surface scanner and measured, and bone proportions were calculated. Measurements included the height, length, and width of various calcaneal elements. The sex of each individual was determined using methods based on calcaneal morphology. The validity of these methods was tested in those individuals who had the pelvis (92.3% agreement rate). Accordingly, the sample included 59.4% males and 40.6% females. Most calcaneal indices were sex-independent, except for the relative width, relative anterior length, and the cuboid index. Temporal trends between the Natufian and Chalcolithic periods were more pronounced among males than females. While in the proximal calcaneus, the temporal trend was similar between males and females, it differed in the distal part and articular facets. The calcanei of archaic H. sapiens exceeded the average of the Natufian hunter-gatherer for most variables, though the trend varied. To conclude, males and females were affected differently by the changing environment. The calcanei of archaic H. sapiens were better adapted for activity involving high mobility, independent of sex. During the transition to a sedentary way of life, different factors probably designed the male and female calcaneus. These could include factors related to the sexual division of labor, adaptation to lengthy standing, and changes in footwear. [ABSTRACT FROM AUTHOR]

Published

2024

4. Tarsals from the Sima de los Huesos Middle Pleistocene site (Atapuerca, Burgos, Spain).

Author

Pablos A and Arsuaga JL

Subjects

Animals, Spain, Tarsal Bones anatomy & histology, Neanderthals anatomy & histology, Humans, Male, Female, Fossils anatomy & histology, Hominidae anatomy & histology, Biological Evolution

Abstract

Here, we provide a complete, updated, and illustrated inventory, as well as a comprehensive study, of the tarsals (rearfoot) recovered from the Middle Pleistocene site of Sima de los Huesos (SH, Atapuerca, Spain) in comparison to other Homo comparative samples, both extant and fossil. The minimum number of individuals (MNI) estimated from the tarsals has been established as 15, which represents 51.7% of the 29 dental individuals identified within the SH sample. Within the SH hominin foot sample, an exclusive combination of primitive or plesiomorphic and derived or autapomorphic traits can be observed when compared with other Homo individuals/populations. Other characters are shared among SH hominins and Neandertals that might represent shared derived or autapomorphic traits for this evolutionary line, and most are likely related to robusticity (e.g., rectangular-like trochlea of the talus, broad calcanei, broad naviculars, and short lateral cuneiforms). Additionally, we observed some exclusive autapomorphic traits in the SH tarsal sample (e.g., narrow head of the talus and short intermediate cuneiforms). A few exclusive traits in SH tarsal remains are even more robust than in Neandertals (e.g., broad lateral malleolar facet in talus, more projected sustentaculum tali, and broad medial cuneiform). These traits could suggest a slightly higher level of gracilization in the tarsal bones of Neandertals compared to the SH sample that is also supported by other anatomical postcranial skeleton elements. Additionally, some paleobiological inferences are made in relation to body size (stature and body mass) and some associations are proposed within the SH sample. In conclusion, the morphology of the SH tarsi confirms an evolutionary relationship of sister groups between this population and Neandertals, probably representing a morphotype similar to the Neandertal ancestors., (© 2024 The Authors. The Anatomical Record published by Wiley Periodicals LLC on behalf of American Association for Anatomy.)

Published

2024

5. Metatarsals and foot phalanges from the Sima de los Huesos Middle Pleistocene site (Atapuerca, Burgos, Spain).

Author

Pablos A and Arsuaga JL

Subjects

Animals, Spain, Humans, Biological Evolution, Neanderthals anatomy & histology, Toe Phalanges anatomy & histology, Fossils anatomy & histology, Metatarsal Bones anatomy & histology, Hominidae anatomy & histology, Hominidae physiology

Abstract

This study provides a complete, updated and illustrated inventory, as well as a comprehensive study, of the metatarsals and foot phalanges (forefoot) recovered from the Middle Pleistocene site of Sima de los Huesos (SH, Atapuerca, Spain) in comparison to other Homo comparative samples, both extant and fossils. This current updated review has established a minimum number of individuals (MNI) of 17, which represent 58.6% of the 29 dental individuals identified within the SH sample. An exclusive or autoapomorphic combination of traits can be recognized within the SH hominin foot sample. A few traits appear primitive or plesiomorphic when compared with earlier Homo individuals and other recent modern humans. There are other metrical and morphological traits that SH hominins and Neandertals have in common that sometimes represent shared derived traits in this evolutionary line, most of which are probably related to robusticity. Furthermore, some exclusive autoapomorphic traits are observed in the SH sample: a very broad first metatarsal, long and broad hallucal proximal foot phalanges and possibly extremely robust lateral distal foot phalanges compared to those of Neandertals and modern humans. In these last traits, the SH metatarsals and pedal phalanges are even more robust than in Neandertals. They are herein named as "hyper-Neandertal" traits, which could suggest a slight gracilization process in this evolutionary line, at least in the hallux toe. Finally, some paleobiological inferences are made in relation to body size (stature and body mass) and some associations are proposed within the SH sample., (© 2024 The Authors. The Anatomical Record published by Wiley Periodicals LLC on behalf of American Association for Anatomy.)

Published

2024

6. Nobody's land? The oldest evidence of early Upper Paleolithic settlements in inland Iberia.

Author

Sala N, Alcaraz-Castaño M, Arriolabengoa M, Martínez-Pillado V, Pantoja-Pérez A, Rodríguez-Hidalgo A, Téllez E, Cubas M, Castillo S, Arnold LJ, Demuro M, Duval M, Arteaga-Brieba A, Llamazares J, Ochando J, Cuenca-Bescós G, Marín-Arroyo AB, Seijo MM, Luque L, Alonso-Llamazares C, Arlegi M, Rodríguez-Almagro M, Calvo-Simal C, Izquierdo B, Cuartero F, Torres-Iglesias L, Agudo-Pérez L, Arribas A, Carrión JS, Magri D, Zhao JX, and Pablos A

Subjects

Humans, Animals, Fossils, Archaeology, Spain, History, Ancient, Population Dynamics, Climate, Neanderthals

Abstract

The Iberian Peninsula is a key region for unraveling human settlement histories of Eurasia during the period spanning the decline of Neandertals and the emergence of anatomically modern humans (AMH). There is no evidence of human occupation in central Iberia after the disappearance of Neandertals ~42,000 years ago until approximately 26,000 years ago, rendering the region "nobody's land" during the Aurignacian period. The Abrigo de la Malia provides irrefutable evidence of human settlements dating back to 36,200 to 31,760 calibrated years before the present (cal B.P.) This site also records additional levels of occupation around 32,420 to 26,260 cal B.P., suggesting repeated settlement of this territory. Our multiproxy examination identifies a change in climate trending toward colder and more arid conditions. However, this climatic deterioration does not appear to have affected AMH subsistence strategies or their capacity to inhabit this region. These findings reveal the ability of AMH groups to colonize regions hitherto considered uninhabitable, reopening the debate on early Upper Paleolithic population dynamics of southwestern Europe.

Published

2024