about
The stem species of our species: a place for the archaic human cranium from Ceprano, ItalyA cranium for the earliest Europeans: phylogenetic position of the hominid from Ceprano, ItalyOn the trail of the genus Homo between archaic and derived morphologiesHomo sapiens in the Americas. Overview of the earliest human expansion in the New WorldNew footprints from Laetoli (Tanzania) provide evidence for marked body size variation in early homininsA Human Deciduous Tooth and New 40Ar/39Ar Dating Results from the Middle Pleistocene Archaeological Site of Isernia La Pineta, Southern ItalyBefore the Emergence of Homo sapiens: Overview on the Early-to-Middle Pleistocene Fossil Record (with a Proposal about Homo heidelbergensis at the subspecific level)Dental evidence on the hominin dispersals during the PleistoceneEncephalization and allometric trajectories in the genus Homo: evidence from the Neandertal and modern lineagesNonalimentary tooth use in prehistory: an example from early Holocene in Central Sahara (Uan Muhuggiag, Tadrart Acacus, Libya).The Neanderthal in the karst: First dating, morphometric, and paleogenetic data on the fossil skeleton from Altamura (Italy).Dietary resilience among hunter-gatherers of Tierra del Fuego: Isotopic evidence in a diachronic perspectiveEvolution of the base of the brain in highly encephalized human species.Behavior-induced auditory exostoses in imperial Roman society: evidence from coeval urban and rural communities near Rome.Dental size and shape in the Roman imperial age: two examples from the area of Rome.Discontinuity of life conditions at the transition from the Roman imperial age to the early middle ages: Example from central Italy evaluated by pathological dento-alveolar lesions.An unusually-wide human bregmatic Wormian bone: anatomy, tomographic description, and possible significance.Digital reconstruction of the Ceprano calvarium (Italy), and implications for its interpretation.Social learning and origin of the language faculty by means of natural selection.CT-based description and phyletic evaluation of the archaic human calvarium from Ceprano, Italy.The Vindija Neanderthal scapular glenoid fossa: comparative shape analysis suggests evo-devo changes among Neanderthals.Filling the gap. Human cranial remains from Gombore II (Melka Kunture, Ethiopia; ca. 850 ka) and the origin of Homo heidelbergensis.The one-million-year-old Homo cranium from Bouri (Ethiopia): a reconsideration of its H. erectus affinities.Fractal dimension of the middle meningeal vessels: variation and evolution in Homo erectus, Neanderthals, and modern humans.Paleoneurology of an "early" Neandertal: endocranial size, shape, and features of Saccopastore 1.Midsagittal cranial shape variation in the genus Homo by geometric morphometrics.The new chronology of the Ceprano calvarium (Italy).Size and shape of human cranial sutures--a new scoring method.Porotic hyperostosis as a marker of health and nutritional conditions during childhood: studies at the transition between Imperial Rome and the Early Middle Ages.A re-appraisal of Ceprano calvaria affinities with Homo erectus, after the new reconstruction.Cranial discrete traits in the middle pleistocene humans from Sima de los Huesos (Sierra de Atapuerca, Spain). Does hypostosis represent any increase in "ontogenetic stress" along the Neanderthal lineage?Landmark-based shape analysis of the archaic Homo calvarium from Ceprano (Italy).The evolution of cranial base and face in Cercopithecoidea and Hominoidea: Modularity and morphological integration.Pleistocene magnetochronology of early hominin sites at Ceprano and Fontana Ranuccio, ItalySurvival to amputation in pre-antibiotic era: a case study from a Longobard necropolis (6th-8th centuries AD).[The mummies of the Roman age, from Giarabub (II century D.C.)]Mobility and kinship in the prehistoric Sahara: Strontium isotope analysis of Holocene human skeletons from the Acacus Mts. (southwestern Libya)A possible case of mycosis in a post-classical burial from La Selvicciola (Italy)The MIS 13 interglacial at Ceprano, Italy, in the context of Middle Pleistocene vegetation changes in southern EuropeIsotopic evidence of diet variation at the transition between classical and post-classical times in Central Italy
P50
Q21135488-1EA923AF-0407-4FFE-9FC7-EFCA2156D0CFQ22066242-B1C66F83-337D-4C20-9D4E-A14FD5A7F7F7Q26851865-DC94A8C6-36D2-4DAE-9683-C289E67BD6AFQ26859036-B8FA31D6-A5D6-4E2A-B6C7-08740940DF6EQ28587097-DDE814BD-C67B-41EC-8C1F-E1F9FBE5FF96Q28606514-D57B821D-3286-4634-AEDC-D6CBD7F25B2AQ28743424-8D94E921-0B54-4B0F-B8F0-467731B96A2CQ28757212-B192F93D-4C02-44EA-A8F3-D83606D13DDFQ28776492-9B573B04-7C61-49B7-A463-F9F6A491871CQ30884998-152CE808-4B98-4559-8972-7947D6AEC72EQ30915225-DDCC376B-337D-49F9-A757-397E9970F8BFQ33562994-838E16AD-7473-4FB5-A501-62C65DDC9BC8Q34239832-ACC70568-49EA-48C8-97AC-43761DD20347Q39250739-1C0706A6-7D5A-4815-9617-46E8CD43D6C3Q39444791-F9A5EEDC-26A1-4E2B-925A-55DC08ECCAE6Q39578295-36C39A0B-6C11-4904-8D11-B3602ECC940DQ39848532-64441429-15C9-4BC4-82F6-46E084F14A02Q42630443-433BB3D7-F803-4A20-94B8-F0100D394FC9Q43554847-E81CDEE7-CFA4-4435-A074-24717E60F77DQ45391509-838CE406-B39D-4FB8-A9DC-7F7178E8FEC1Q45831702-AF4954A5-414D-4222-B583-BCC8613490D2Q46611977-CAC403ED-2DF9-47D3-8BD8-98C1E492AD00Q46868969-E444DC63-DD32-4D01-A25D-E8A4C2D968FBQ47185756-D39B776E-A4D1-4C29-A612-50AB55CD9EA5Q47253503-A8CC883A-7840-457A-B825-674A248C00D6Q47299679-1B3C4EF2-633E-486C-A3EA-24C26324D6D7Q47362227-9C5ABA29-3EAC-4C16-AF46-D5A6F2D1E718Q47432557-642E88A1-F0A3-4CF5-BA35-E15D40D3C28FQ47593960-DBFDA0A0-BF13-4BCF-A0C9-AD9F8014E58DQ47659530-17715D56-A8AF-4BCA-A537-EAD40B680EEEQ47685315-0DA885BB-1576-481E-AACC-259BC734399DQ47823664-7B66B572-D1F0-4811-AF49-8710EF426031Q48376603-6AC88523-05EE-434A-BA7B-0AEB6595E2A3Q53959029-7FE99511-C557-40DD-8C71-0FC50E0D6558Q54426497-AFD11B9F-F3FE-4F96-9020-EFAB1D31876BQ57144949-A3BD9C70-1219-4D25-B37C-D8F32C3F6B39Q57583304-DF8486B9-2AE6-421B-B00E-FFB063FC9DD5Q57960118-42A2586C-46D2-4817-8694-02BB32DA11FBQ57960122-1B016BEA-E6F6-447F-82AF-AB61331CD001Q57960126-7552F32D-2B90-4975-B9D7-165A0054B04D