Your search keyword '"Radovčić J"' showing total 13 results

1. Neandertal Genetics

Author

Cooper, Alan, Poinar, Hendrik N., Pääbo, Svante, Radovc̆ić, J., Debénath, A., Caparros, Miguel, Barroso-Ruiz, Cecilio, Bertranpetit, Jaume, Nielsen-Marsh, Christina, Sykes, Bryan, and Clark, G. A.

Published

1997

2. The Neanderthal patella: topographic bone distribution and inner structural organization

Author

Beaudet, A, Bernardini, F, Cazenave, M, Mazurier, A, Radovčić, D, Radovčić, J, Tuniz, C, Volpato, V, and Macchiarelli, R

Subjects

Settore L-ANT/01 - Preistoria e Protostoria, Neandertal patella, Krapina, Regourdou

Abstract

The mammalian knee is an ”alarmingly complex joint” (Lovejoy, 2007: 326). It functionally represents a key-site where body weight is transferred to the ground and the locomotor- related stresses generated by the ground reaction are dissipated. Comparative analyses of the tibial plateau inner structure revealed an intimate relationship in extant primates between site- specific bone thickness variation and locomotion- related functional loads (Mazurier et al., 2010 ; Beaudet et al., 2012). However, within a distinct ”anthropic pattern”, expressed by a thicker cortical shell at the medial condyle associated to a strengthening of the cancellous network, some differences have been reported between the extant human and the Neanderthal conditions, the latter being characterized by a thicker articular plateau (at both medial and lateral condyles) and thicker sub-epiphyseal struts (Mazurier et al., 2010 ; Volpato et al., 2012). The patella, which is included in the knee capsule and actively takes part into the complex biomechanical dynamics at this joint, should record similar structural variation. However, while investigated in a clinical perspective (e.g., Toumi et al., 2006), its inner architecture is still unreported in fossil humans. We used X-ray microtomography to detail the structure of nine adult Neanderthal patellae from the early OIS 5e Croatian site of Krapina (spec. Pa.1., Pa.3., Pa.5. to Pa.9., and Pa.14. ; Radovčić et al., 1988) and the OIS 4 partial skeleton Regourdou 1, France (Piveteau, 1959). Acquisitions were performed at the ICTP Multidisciplinary Laboratory of Trieste (isotropic voxel size of 31.58 µm) and at the ESRF ID 17 beamline of Grenoble (45.5x45.5x45.7 µm). The modern human condition is represented by 42 specimens from 22 adult individuals of both sexes selected from the archaeological sites of Geili (Sudan) and Velia (Italy). Our preliminary 2-3D virtual analyses show that the cortico-trabecular complex, i.e. the most dense zone including the cortical shell and the adjoining portions of the supporting trabecular network, is relatively and absolutely thicker in Neanderthals, where it is associated to a higher number of interconnected plate-like structures. In all cases investigated so far, the nonarticular surface is relatively thicker. However, while in Neanderthals the structural contrast between the medial and lateral facets is marked and the thickest complex lies beneath the latter, there is no distinct pattern in the modern patellae. Finally, in terms of textural properties, the cancellous network immediately below the cortico-trabecular complex globally shows a less heterogeneous pattern in Neanderthals compared to the topographic variation recorded in the modern specimens.

Published

2013

3. Modern Human Origins

Author

Wolpoff, M. H., Spuhler, J. N., Smith, F. H., Radovcic, J., Pope, G., Frayer, D. W., Eckhardt, R., and Clark, G.

Published

1988

4. Right handed Neandertals: Vindija and beyond

Author

Frayer, D. W., Fiore, I., CARLES LALUEZA-FOX, Radovčić, J., and Bondioli, L.

Subjects

Handedness, Labial striations, Language capability, Croatia, stomatognathic system

Abstract

Seven Vindija (Croatia) Neandertal teeth, dated ~32, 000 years ago, were analyzed to determine patterning of scratches on the anterior teeth. Oblique scratches exclusively on the labial faces of incisors and canines represent a distinctive pattern, characteristic of hand directed, non-masticatory activities. At Vindija and elsewhere these scratches reveal activities, which were performed primarily with the right hand. The late Neandertals from Vindija, combined with other studies, show that European Neandertals were predominately right-handed with a ratio 15:2 (88.2%), a frequency similar to living people. Studies of teeth from Atapuerca extend this modern ratio to more than 500, 000 years ago and increase the frequency of righthanders in the European fossil record to almost 94%. Species-wide, preferential right-handedness is a defining feature of modern Homo sapiens, tied to brain laterality and language with the ~9:1 ratio of right- to lefthanders - a reflection of the link between left hemispheric dominance and language. Up-to-date behavioral and anatomical studies of Neandertal fossils and the recent discovery of their possession of the FOXP2 gene indicate Neandertals (and, very likely, their European ancestors) had linguistic capacities similar to living humans.

Published

2010

5. Dental evidence for ontogenetic differences between modern humans and Neanderthals

Author

Smith, Tanya, Tafforeau, P., Reid, D. J., Pouech, J., Lazzari, V., Zermeno, J. P., Guatelli-Steinberg, D., Olejniczak, A. J., Hoffman, A., Radovcic, J., Makaremi, M., Toussaint, M., Stringer, C., and Hublin, J.-J.

Subjects

hominin ontogeny, human evolution, modern human origins, tooth growth, biological rhythm

Abstract

Humans have an unusual life history, with an early weaning age, long childhood, late first reproduction, short interbirth intervals, and long lifespan. In contrast, great apes wean later, reproduce earlier, and have longer intervals between births. Despite 80 y of speculation, the origins of these developmental patterns in Homo sapiens remain unknown. Because they record daily growth during formation, teeth provide important insights, revealing that australopithecines and early Homo had more rapid ontogenies than recent humans. Dental development in later Homo species has been intensely debated, most notably the issue of whether Neanderthals and H. sapiens differ. Here we apply synchrotron virtual histology to a geographically and temporally diverse sample of Middle Paleolithic juveniles, including Neanderthals, to assess tooth formation and calculate age at death from dental microstructure. We find that most Neanderthal tooth crowns grew more rapidly than modern human teeth, resulting in significantly faster dental maturation. In contrast, Middle Paleolithic H. sapiens juveniles show greater similarity to recent humans. These findings are consistent with recent cranial and molecular evidence for subtle developmental differences between Neanderthals and H. sapiens. When compared with earlier hominin taxa, both Neanderthals and H. sapiens have extended the duration of dental development. This period of dental immaturity is particularly prolonged in modern humans., Human Evolutionary Biology

Published

2010

6. Surface analysis of an eagle talon from Krapina.

Author

Radovčić D, Birarda G, Sršen AO, Vaccari L, Radovčić J, and Frayer DW

Abstract

The Krapina white-tailed eagle talons represent a kind of jewelry worn by Krapina Neandertals some 130,000 years ago. New inspection of one Krapina talon (386.1) revealed a fiber, sealed by a thin silicate coating, adhering to the surface within a wide cut mark, as well as concentrated traces of occasional spots of red and yellow pigment and some black stains. We analyzed the fiber and small portions of pigmented areas by non-invasive, infrared synchrotron beam. Different areas were targeted, revealing the protein nature of the fiber, identified as of animal origin. Targeted areas revealed intra- and inter-strand aggregation indicating the fiber to be collagen losing its original triple α-helix conformation, further confirming the diagenetic decay of the original collagen structure and the antiquity of the fiber. It is possible that the fiber is a remnant of the leather or sinew string binding the talons together. Spectroscopic analysis of the pigments in two isolated areas confirmed two types of ochre and that the dark spots are charcoal remnants. Applying novel non-invasive technologies provides new possibilities to further test the hypothesis of using prehistoric objects for symbolic purposes.

Published

2020

7. Over 100 years of Krapina: New insights into the Neanderthal thorax from the study of rib cross-sectional morphology.

Author

García-Martínez D, Radovčić D, Radovčić J, Cofran Z, Rosas A, and Bastir M

Subjects

Animals, Anthropology, Physical, Biological Evolution, Croatia, Female, Hominidae anatomy & histology, Humans, Male, Principal Component Analysis, Fossils anatomy & histology, Neanderthals anatomy & histology, Ribs anatomy & histology, Thorax anatomy & histology

Abstract

The Krapina costal sample was studied by Gorjanović-Kramberger in the early twentieth century. He pointed out unique features in the sample such as the rounder rib cross-section, which was recently confirmed in other Neanderthal specimens. Round rib cross-sections are characteristic of Homo ergaster, suggesting this may be plesiomorphic for Pleistocene Homo, but it is unknown whether Homo antecessor also had this rib shape. Furthermore, the influence of allometry on the cross-sectional shape of ribs is still unknown. The large costal sample from Krapina allows us to address these issues. We quantified cross-section morphology at the midshaft throughout a closed curve of one landmark and nine sliding semilandmarks in the Krapina costal remains (n = 7), as well as in other Neanderthals (n = 50), H. antecessor (n = 3) and modern humans, both fossil (n = 12) and recent (n = 160). We used principal components analysis and mean comparisons to explore interspecific differences, regression analysis to investigate allometry, and partial least squares analysis to examine covariation of cross-section shape and overall rib morphology. Neanderthal cross-sections tended to be larger than those of recent humans except for the Krapina and Tabun remains. Regarding shape, inter-group differences were found only in the diaphragmatic thorax, where Neanderthal and H. antecessor ribs were statistically significantly rounder than those of modern humans. Allometry accounted for covariation of size on shape, but the Neandertal and modern human trajectories had different slopes. While our results based on the Krapina costal sample are similar to previous findings, we also make several new insights: 1) the cross-section morphology observed in Neanderthals was probably present in H. antecessor, albeit less marked; 2) the distinct roundness of Neanderthal cross-sections is not related to size; 3) rounder cross-sections are correlated with ribs presenting less curvature in cranial view and a low degree of torsion in recent humans. These results are important for the interpretation of fragmentary Neanderthal costal remains, and the fact that the differences are marked only in the diaphragmatic thorax could have implications for breathing kinematics., (Copyright © 2018 Elsevier Ltd. All rights reserved.)

Published

2018

8. Cochlear labyrinth volume in Krapina Neandertals.

Author

Beals ME, Frayer DW, Radovčić J, and Hill CA

Subjects

Animals, Anthropology, Physical, Tomography, X-Ray Computed, Cochlea anatomy & histology, Fossils, Neanderthals anatomy & histology

Abstract

Research with extant primate taxa suggests that cochlear labyrinth volume is functionally related to the range of audible frequencies. Specifically, cochlear volume is negatively correlated with both the high and low frequency limits of hearing so that the smaller the cochlea, the higher the normal range of audible frequencies. The close anatomical relationship between the membranous cochlea and the bony cochlear labyrinth allows for the determination of cochlear size from fossil specimens. This study compares Krapina Neandertal cochlear volumes to extant taxa cochlear volumes. Cochlear volumes were acquired from high-resolution computed tomography scans of temporal bones of Krapina Neandertals, chimpanzees, gorillas, and modern humans. We find that Krapina Neandertals' cochlear volumes are similar to modern Homo sapiens and are significantly larger than chimpanzee and gorilla cochlear volumes. The measured cochlear volume in Krapina Neandertals suggests they had a range of audible frequencies similar to the modern human range., (Copyright © 2015 Elsevier Ltd. All rights reserved.)

Published

2016

9. Evidence for Neandertal jewelry: modified white-tailed eagle claws at Krapina.

Author

Radovčić D, Sršen AO, Radovčić J, and Frayer DW

Subjects

Animals, Anthropology, Cultural, Archaeology, Croatia, Eagles anatomy & histology, Eagles classification, Fossils, Hoof and Claw, Neanderthals

Abstract

We describe eight, mostly complete white-tailed eagle (Haliaëtus [Haliaeetus] albicilla) talons from the Krapina Neandertal site in present-day Croatia, dating to approximately 130 kyrs ago. Four talons bear multiple, edge-smoothed cut marks; eight show polishing facets and/or abrasion. Three of the largest talons have small notches at roughly the same place along the plantar surface, interrupting the proximal margin of the talon blade. These features suggest they were part of a jewelry assemblage, --- the manipulations a consequence of mounting the talons in a necklace or bracelet. An associated phalanx articulates with one of the talons and has numerous cut marks, some of which are smoothed. These white-tailed eagle bones, discovered more than 100 years ago, all derive from a single level at Krapina and represent more talons than found in the entire European Mousterian period. Presence of eight talons indicates that the Krapina Neandertals acquired and curated eagle talons for some kind of symbolic purpose. Some have argued that Neandertals lacked symbolic ability or copied this behavior from modern humans. These remains clearly show that the Krapina Neandertals made jewelry well before the appearance of modern humans in Europe, extending ornament production and symbolic activity early into the European Mousterian.

Published

2015

10. Brief communication: Investigation of the semicircular canal variation in the Krapina Neandertals.

Author

Hill CA, Radovčić J, and Frayer DW

Subjects

Animals, Imaging, Three-Dimensional, Semicircular Canals diagnostic imaging, Temporal Bone anatomy & histology, Temporal Bone diagnostic imaging, Tomography, X-Ray Computed, Neanderthals anatomy & histology, Semicircular Canals anatomy & histology

Abstract

Previous studies comparing bony labyrinth morphology in geographically-dispersed samples of Neandertals and modern Homo sapiens (H. sapiens) showed that Neandertals generally have smaller semicircular canals than modern H. sapiens (Hublin et al., ; Spoor et al., ; Glantz et al., ). Here we analyze the morphology of a single group of Neandertal specimens from one locale, the Krapina site, to determine the intraspecific variation in Neandertal semicircular canal sizes. Dimensions of the semicircular canals were collected from computed tomography scans of nine temporal bones. With the rare exception, the dimensions of the semicircular canals in the Krapina sample are similar to those previously reported across a geographically-dispersed sample of Neandertals, further supporting previous studies that suggest low levels of variation in the semicircular canals for Neandertals., (Copyright © 2014 Wiley Periodicals, Inc.)

Published

2014

11. Fibrous dysplasia in a 120,000+ year old Neandertal from Krapina, Croatia.

Author

Monge J, Kricun M, Radovčić J, Radovčić D, Mann A, and Frayer DW

Subjects

Animals, Croatia, Fibrous Dysplasia of Bone pathology, Fossils, Ribs diagnostic imaging, Ribs pathology, X-Ray Microtomography, Fibrous Dysplasia of Bone diagnostic imaging, Neanderthals

Abstract

We describe the first definitive case of a fibrous dysplastic neoplasm in a Neandertal rib (120.71) from the site of Krapina in present-day Croatia. The tumor predates other evidence for these kinds of tumor by well over 100,000 years. Tumors of any sort are a rare occurrence in recent archaeological periods or in living primates, but especially in the human fossil record. Several studies have surveyed bone diseases in past human populations and living primates and fibrous dysplasias occur in a low incidence. Within the class of bone tumors of the rib, fibrous dysplasia is present in living humans at a higher frequency than other bone tumors. The bony features leading to our diagnosis are described in detail. In living humans effects of the neoplasm present a broad spectrum of symptoms, from asymptomatic to debilitating. Given the incomplete nature of this rib and the lack of associated skeletal elements, we resist commenting on the health effects the tumor had on the individual. Yet, the occurrence of this neoplasm shows that at least one Neandertal suffered a common bone tumor found in modern humans.

Published

2013

12. Variation in enamel thickness within the genus Homo.

Author

Smith TM, Olejniczak AJ, Zermeno JP, Tafforeau P, Skinner MM, Hoffmann A, Radovčić J, Toussaint M, Kruszynski R, Menter C, Moggi-Cecchi J, Glasmacher UA, Kullmer O, Schrenk F, Stringer C, and Hublin JJ

Subjects

Animals, Dental Enamel diagnostic imaging, Dentin anatomy & histology, Dentin diagnostic imaging, Dentition, Permanent, Fossils, Humans, Molar diagnostic imaging, X-Ray Microtomography, Dental Enamel anatomy & histology, Hominidae anatomy & histology, Molar anatomy & histology, Paleodontology

Abstract

Recent humans and their fossil relatives are classified as having thick molar enamel, one of very few dental traits that distinguish hominins from living African apes. However, little is known about enamel thickness in the earliest members of the genus Homo, and recent studies of later Homo report considerable intra- and inter-specific variation. In order to assess taxonomic, geographic, and temporal trends in enamel thickness, we applied micro-computed tomographic imaging to 150 fossil Homo teeth spanning two million years. Early Homo postcanine teeth from Africa and Asia show highly variable average and relative enamel thickness (AET and RET) values. Three molars from South Africa exceed Homo AET and RET ranges, resembling the hyper thick Paranthropus condition. Most later Homo groups (archaic European and north African Homo, and fossil and recent Homo sapiens) possess absolutely and relatively thick enamel across the entire dentition. In contrast, Neanderthals show relatively thin enamel in their incisors, canines, premolars, and molars, although incisor AET values are similar to H. sapiens. Comparisons of recent and fossil H. sapiens reveal that dental size reduction has led to a disproportionate decrease in coronal dentine compared with enamel (although both are reduced), leading to relatively thicker enamel in recent humans. General characterizations of hominins as having 'thick enamel' thus oversimplify a surprisingly variable craniodental trait with limited taxonomic utility within a genus. Moreover, estimates of dental attrition rates employed in paleodemographic reconstruction may be biased when this variation is not considered. Additional research is necessary to reconstruct hominin dietary ecology since thick enamel is not a prerequisite for hard-object feeding, and it is present in most later Homo species despite advances in technology and food processing., (Copyright © 2012 Elsevier Ltd. All rights reserved.)

Published

2012

13. More than 500,000 years of right-handedness in Europe.

Author

Frayer DW, Lozano M, Bermúdez de Castro JM, Carbonell E, Arsuaga JL, Radovčić J, Fiore I, and Bondioli L

Subjects

Animals, Europe, Face, Humans, Language, Neanderthals, Spain, Tooth Wear, Biological Evolution, Fossils, Functional Laterality

Abstract

Considerable research supports the high frequency of right-handedness in living Homo sapiens, with worldwide rates of approximately nine right- for every one left-hander. Right-handedness appears to be a uniquely human trait, as no other primate species, no matter how proficient in tool use, shows frequencies even close to the strong right bias typical of humans (Cashmore, Uomini, & Chapelain, 2008; McGrew & Marchant 1997; Steele & Uomini, 2009). Here we review our research on human fossils from Sima de los Huesos (Atapuerca, Spain) and their likely descendants, the European Neandertals. We document hand preference in fossils by scratch patterns that occur on the labial (lip) face of incisors and canines, and contend that these patterns provide a reliable means for identifying predominant hand use in these samples. Manipulatory marks on the anterior teeth show a persistent pattern of right-handed actions, implying that the modern human pattern of dominant right-handedness extends deep into the European past.

Published

2012