Your search keyword '"Manzi, G"' showing total 7 results

1. Unexpectedly rapid evolution of mandibular shape in hominins

Author

Raia, P., primary, Boggioni, M., additional, Carotenuto, F., additional, Castiglione, S., additional, Di Febbraro, M., additional, Di Vincenzo, F., additional, Melchionna, M., additional, Mondanaro, A., additional, Papini, A., additional, Profico, A., additional, Serio, C., additional, Veneziano, A., additional, Vero, V. A., additional, Rook, L., additional, Meloro, C., additional, and Manzi, G., additional

Published

2018

2. Ancestral mitochondrial N lineage from the Neolithic 'green' Sahara

Author

Elena Pilli, Alessandra Modi, Safaa Mataich, Martina Lari, Stefania Vai, Mary Anne Tafuri, David Caramelli, Stefania Sarno, Donata Luiselli, Savino di Lernia, Alexander Hübner, Marina Gallinaro, Giorgio Manzi, Vai S., Sarno S., Lari M., Luiselli D., Manzi G., Gallinaro M., Mataich S., Hubner A., Modi A., Pilli E., Tafuri M.A., Caramelli D., and di Lernia S.

Subjects

0301 basic medicine, Adult, Mitochondrial DNA, Haplogroup N, Genetic Linkage, genome sequence, lcsh:Medicine, Population genetics, migration, DNA, Mitochondrial, Haplogroup, Article, DNA, climate, Africa, 03 medical and health sciences, 0302 clinical medicine, Mitochondrial genome, Humans, Genetic variability, lcsh:Science, Holocene, Phylogeny, Libya central Sahara, Ancestral lineage, Neolithic pastoral culture, Multidisciplinary, Ancient DNA, Fossils, lcsh:R, Haplotype, Skull, Mitochondria, 030104 developmental biology, Geography, Archaeology, Haplotypes, Evolutionary biology, Genome, Mitochondrial, lcsh:Q, Female, 030217 neurology & neurosurgery

Abstract

Because Africa’s climate hampers DNA preservation, knowledge of its genetic variability is mainly restricted to modern samples, even though population genetics dynamics and back-migrations from Eurasia may have modified haplotype frequencies, masking ancient genetic scenarios. Thanks to improved methodologies, ancient genetic data for the African continent are now increasingly available, starting to fill in the gap. Here we present newly obtained mitochondrial genomes from two ~7000-year-old individuals from Takarkori rockshelter, Libya, representing the earliest and first genetic data for the Sahara region. These individuals carry a novel mutation motif linked to the haplogroup N root. Our result demonstrates the presence of an ancestral lineage of the N haplogroup in the Holocene “Green Sahara”, associated to a Middle Pastoral (Neolithic) context.

Published

2018

3. Mapping sexual dimorphism signal in the human cranium.

Author

Del Bove A, Menéndez L, Manzi G, Moggi-Cecchi J, Lorenzo C, and Profico A

Subjects

Humans, Mastoid, Nose, Sexual Behavior, Occipital Bone, Sex Characteristics, Skull anatomy & histology

Abstract

The study of sexual dimorphism in human crania has important applications in the fields of human evolution and human osteology. Current, the identification of sex from cranial morphology relies on manual visual inspection of identifiable anatomical features, which can lead to bias due to user's expertise. We developed a landmark-based approach to automatically map the sexual dimorphism signal on the human cranium. We used a sex-known sample of 228 individuals from different geographical locations to identify which cranial regions are most sexually dimorphic taking into account shape, form and size. Our results, which align with standard protocols, show that glabellar and supraciliary regions, the mastoid process and the nasal region are the most sexually dimorphic traits (with an accuracy of 73%). The accuracy increased to 77% if they were considered together. Surprisingly the occipital external protuberance resulted to be not sexually dimorphic but mainly related to variations in size. Our approach here applied could be expanded to map other variable signals on skeletal morphology., (© 2023. Springer Nature Limited.)

Published

2023

4. Bone density and genomic analysis unfold cold adaptation mechanisms of ancient inhabitants of Tierra del Fuego.

Author

Watanabe M, Risi R, Tafuri MA, Silvestri V, D'Andrea D, Raimondo D, Rea S, Di Vincenzo F, Profico A, Tuccinardi D, Sciuto R, Basciani S, Mariani S, Lubrano C, Cinti S, Ottini L, Manzi G, and Gnessi L

Subjects

Adipose Tissue, Brown cytology, Adipose Tissue, Brown physiology, Body Remains, Cell Differentiation genetics, Chile, Gene Expression genetics, Genetic Variation, Homeodomain Proteins genetics, Humans, Up-Regulation genetics, Acclimatization genetics, Adaptation, Physiological genetics, Bone Density genetics, Cold Temperature, Ecology, Gene-Environment Interaction, Genomics

Abstract

The Fuegians, ancient inhabitants of Tierra del Fuego, are an exemplary case of a cold-adapted population, since they were capable of living in extreme climatic conditions without any adequate clothing. However, the mechanisms of their extraordinary resistance to cold remain enigmatic. Brown adipose tissue (BAT) plays a crucial role in this kind of adaptation, besides having a protective role on the detrimental effect of low temperatures on bone structure. Skeletal remains of 12 adult Fuegians, collected in the second half of XIX century, were analyzed for bone mineral density and structure. We show that, despite the unfavorable climate, bone mineral density of Fuegians was close to that seen in modern humans living in temperate zones. Furthermore, we report significant differences between Fuegians and other cold-adapted populations in the frequency of the Homeobox protein Hox-C4 (HOXC4) rs190771160 variant, a gene involved in BAT differentiation, whose identified variant is predicted to upregulate HOXC4 expression. Greater BAT accumulation might therefore explain the Fuegians extreme cold-resistance and the protection against major cold-related damage. These results increase our understanding of how ecological challenges have been important drivers of human-environment interactions during Humankind history., (© 2021. The Author(s).)

Published

2021

5. Strontium and oxygen isotopes as indicators of Longobards mobility in Italy: an investigation at Povegliano Veronese.

Author

Francisci G, Micarelli I, Iacumin P, Castorina F, Di Vincenzo F, Di Matteo M, Giostra C, Manzi G, and Tafuri MA

Subjects

Animals, Archaeology methods, Body Remains anatomy & histology, Burial history, Cattle, Female, Goats, History, Ancient, Horses, Humans, Italy, Male, Oxygen Isotopes analysis, Sheep, Domestic, Strontium Isotopes analysis, Swine, Body Remains chemistry, Bone and Bones chemistry, Human Migration history, Roman World history, Tooth chemistry

Abstract

The arrival of the Longobards in Northern Italy in 568 CE marked a period of renewed political stability in the Peninsula after the collapse of the Western Roman Empire. The trajectory of the spread of Longobards in Italy across the Alps and into the South is known from many literary sources. However, their mobility and residence patterns at a population level remain to be fully understood. Here we present a multi-isotopic analysis ( 87 Sr/ 86 Sr and 18 O/ 16 O) of 39 humans and 14 animals buried at the Longobard necropolis of Povegliano Veronese (VR, Italy; 6th-8th century CE), to address mode and tempo of the spread of this population in the Peninsula. The geographical location of Povegliano Veronese plays a key role: the site lies along the Via Postumia, which was one of the main ancient Roman roads of Northern Italy, representing an important route in post-classical Italy. The integration of isotopic data with the archaeological evidence allowed us to determine the presence of individuals from at least three different regions of origin, building a diachronic map of the dynamics of mobility of this group in northern Italy.

Published

2020

6. Ancestral mitochondrial N lineage from the Neolithic 'green' Sahara.

Author

Vai S, Sarno S, Lari M, Luiselli D, Manzi G, Gallinaro M, Mataich S, Hübner A, Modi A, Pilli E, Tafuri MA, Caramelli D, and di Lernia S

Subjects

Adult, Archaeology, DNA, Mitochondrial chemistry, DNA, Mitochondrial classification, DNA, Mitochondrial genetics, Female, Fossils, Genetic Linkage, Genome, Mitochondrial, Haplotypes, Humans, Mitochondria classification, Phylogeny, Skull metabolism, Mitochondria genetics

Abstract

Because Africa's climate hampers DNA preservation, knowledge of its genetic variability is mainly restricted to modern samples, even though population genetics dynamics and back-migrations from Eurasia may have modified haplotype frequencies, masking ancient genetic scenarios. Thanks to improved methodologies, ancient genetic data for the African continent are now increasingly available, starting to fill in the gap. Here we present newly obtained mitochondrial genomes from two ~7000-year-old individuals from Takarkori rockshelter, Libya, representing the earliest and first genetic data for the Sahara region. These individuals carry a novel mutation motif linked to the haplogroup N root. Our result demonstrates the presence of an ancestral lineage of the N haplogroup in the Holocene "Green Sahara", associated to a Middle Pastoral (Neolithic) context.

Published

2019

7. Digital reconstruction of the Ceprano calvarium (Italy), and implications for its interpretation.

Author

Di Vincenzo F, Profico A, Bernardini F, Cerroni V, Dreossi D, Schlager S, Zaio P, Benazzi S, Biddittu I, Rubini M, Tuniz C, and Manzi G

Subjects

Animals, Fossils, Hominidae classification, Humans, Italy, Paleontology, Skull diagnostic imaging, Biological Evolution, Hominidae anatomy & histology, Image Processing, Computer-Assisted methods, Skull anatomy & histology, Tomography, X-Ray Computed methods

Abstract

The Ceprano calvarium was discovered in fragments on March 1994 near the town of Ceprano in southern Latium (Italy), embedded in Middle Pleistocene layers. After reconstruction, its morphological features suggests that the specimen belongs to an archaic variant of H. heidelbergensis, representing a proxy for the last common ancestor of the diverging clades that respectively led to H. neanderthalensis and H. sapiens. Unfortunately, the calvarium was taphonomically damaged. The postero-lateral vault, in particular, appears deformed and this postmortem damage may have influenced previous interpretations. Specifically, there is a depression on the fragmented left parietal, while the right cranial wall is warped and angulated. This deformation affected the shape of the occipital squama, producing an inclination of the transverse occipital torus. In this paper, after X-ray microtomography (μCT) of both the calvarium and several additional fragments, we analyze consistency and pattern of the taphonomic deformation that affected the specimen, before the computer-assisted retrodeformation has been performed; this has also provided the opportunity to reappraise early attempts at restoration. As a result, we offer a revised interpretation for the Ceprano calvarium's original shape, now free from the previous uncertainties, along with insight for its complex depositional and taphonomic history.

Published

2017