First description of the Cro-Magnon 1 endocast and study of brain variation and evolution in anatomically modern Homo sapiens

Grimaud-Hervé D (1997) L’évolution de l’encéphale chez Homo erectus et Homo sapiens: exemples de l’Asie et de l’Europe, Cahiers de Paléoanthropologie, CNRS, Paris, 406p

Holloway RL, Broadfield DC, Yuan MS (2004) The human fossil record: brain endocasts, paleoneurological evidence. Wiley, Hoboken, New Jersey, 315p

Sousa de A, Wood B (2007) The hominin fossil record and the emergence of the modern human central nervous system. In: Kaas JA (ed) Evolution of nervous systems: a comprehensive reference, Vol. 4: the evolution of primate nervous systems. Elsevier, Oxford, pp 291–336

Lartet L (1868) Une sépulture des troglodytes du Périgord. Bull Soc Anthropol Paris 3:335–349

Broca P (1868) Sur les crânes et ossements des Eyzies. Bull Soc Anthropol Paris 3:350–392

Broca P (1868) Description sommaire des restes humains découverts dans les grottes de Cro-Magnon près de Les Eyzies. Ann Sci Nat Zool Paléontol 10:145–155

Discussion collective (Bertillon, Pruner-Bey, Lagneau, Broca, Welcker, Hamy, de Mortillet, Gaussin, Bertrand, Halleguen, Girod) (1868) Sur les crânes et les ossements des Eyzies. Bull Soc Anthropol Paris 3:416–446, 454–514, 554–78

Quatrefages de A, Hamy E (1874) La race de Cro-Magnon dans l’espace et dans le temps. Bull Soc Anthropol Paris 9:260–266

Blanckaert C (2010) Les « trois glorieuses de 1859 » [Broca, Boucher de Perthes, Darwin] et la genèse du concept de races historiques. Bull Mem Soc Anthropol Paris 22:3–16

Vallois HV, Billy G (1965a) Nouvelles recherches sur les hommes fossiles de l’abri de Cro-Magnon. L’anthropologie 61:47–74

Vallois HV, Billy G (1965b) Nouvelles recherches sur les hommes fossiles de l’abri de Cro-Magnon. L’anthropologie 61:249–272

Gambier D (1986) Etude des os d’enfants du gisement aurignacien de Cro-Magnon, Les Eyzies (Dordogne). Bull Mém Soc Anthropol Paris 3:13–25

Pales L (1930) Paléopathologie et pathologie comparative, Masson, Paris

Dastugue J (1967) Pathologie des hommes fossiles de l’abri de Cro-Magnon. L’anthropologie 71:479–492

Thillaud PL (1981) L’histiocytose X au Paléolithique (sujet no1 de Cro-Magnon), problématique du diagnostic ostéo-archéologique. L’anthropologie 885:219–239

Movius HL (1969) The abri of Cro-Magnon, Les Eyzies (Dordogne) and the probable age of the contained burials on the basis of the evidence of the nearby abri Pataud. Anur Estud Atlant 15:323–344

Henry-Gambier D (2002) Les fossiles de Cro-Magnon (Les Eyzies-de-Tayac, Dordogne), nouvelles données sur leur position chronologique et leur attribution culturelle. Bull Mém Soc Anthropol Paris 14:89–112

Henneberg M (1998) Evolution of the human brain: is bigger better? Clin Exp Pharmacol Physiol 25:745–749

Holloway RL (2008) The Human Brain Evolving: A Personal Retrospective. Ann Rev Anthropol 37(1):1–19

McDougall I, Brown FH, Fleagle JG (2005) Stratigraphic placement and age of modern humans from Kibish, Ethiopia. Nature 433:733–736

White TD, Asfaw B, DeGusta D, et al (2003) Pleistocene Homo sapiens from Middle Awash, Ethiopia. Nature 423:742–747

Crevecoeur I, Rougier H, Grine F, Froment A (2009) Modern human cranial diversity in the Late Pleistocene of Africa and Eurasia: evidence from Nazlet Khater, Peştera cu Oase, and Hofmeyr. Am J Phys Anthropol 140:347–358

Schwartz JH, Tatersall I (2010) Fossil evidence for the origin of Homo sapiens. Yrbk Phys Anthropol 143:94–121

Wu X, Wu L, Que J, Wang Y (2008) The brain morphology of Homo Liujiang cranium fossil by three-dimensional computed tomography. Chin Sci Bull 53:2513–2519

Storm P (1995) The evolutionary significance of the Wajak skulls. Scripta Geologica 110:1–247

Détroit F (2002) Origine et évolution des Homo sapiens en Asie du Sud-Est: descriptions et analyses morphométriques de nouveaux fossiles, Ph.D. Dissertation, Muséum national d’Histoire naturelle, Paris, France, 444p

Antón SC, Weinstein KJ (1999) Artificial cranial deformation and fossil Australians revisited. J Hum Evol 36:195–209

Kranioti F, Holloway R, Senck S, et al (2011) Virtual assessment of the endocranial morphology of the early modern European fossil calvaria from Ciocliovina, Romania. Anat Rec 194:1083–1092

Rougier H, Milota Ş, Rodrigo R, et al (2007) Peştera cu Oase 2 and the cranial morphology of early modern europeans. Proc Natl Acad Sci 4:1165–1170

Trinkaus E, Moldovan O, Milota Ş, et al (2003) An early modern human from the Peştera cu Oase, Romania. Proc Natl Acad Sci 100:11231–11236

Badawi-Fayad J, Yazbeck C, Balzeau A, et al (2005) Multidetector row CT scanning in Paleoanthropology at various tube current settings and scanning mode. Surg Radiol Anat 27:536–543

Balzeau A (2005) Spécificités des caractères morphologiques internes du squelette céphalique chez Homo erectus, Ph.D. Dissertation, Muséum national d’Histoire naturelle, Paris, France, 394p

Balzeau A, Jacob T, Indriati E (2002) Structures crâniennes internes de l’Homo erectus Sambungmacan 1 (Java, Indonésie). CR Palevol 1:305–310

Balzeau A, Grimaud-Hervé D, Jacob T (2005) Internal cranial features of the Mojokerto child fossil (East Java, Indonesia). J Hum Evol 48:535–553

Balzeau A, Gilissen E, Wendelen W, Coudyzer W (2009) Internal cranial anatomy of the type specimen of Pan paniscus and available data for study. J Hum Evol 56:205–208

Harvati K, Gunz P, Grigorescu D (2007) Cioclovina (Romania): affinities of an early modern European. J Hum Evol 53:732–746

Grimaud-Hervé D, Lordkipanidze D (2010) The fossil hominid brains of Dmanisi: D 2280 and D 2282. In: Broadfield D, Yuan M, Schick K, Toth N (eds) The human brain evolving: paleoneurological studies in honour of Ralph L. Holloway. Stone Age Institute Publication Series, Indiana, pp 59–82

Balzeau A, Holloway RL, Grimaud-Hervé D (2012) Variations and asymmetries in regional brain surface in the genus Homo. J Hum Evol 62:696–706

Hammer O, Harper DAT, Ryan PD (2001) PAST: Palaeontological Statistics Software Package for education and data analysis. Palaeontol Electron 4(1):9

Miller RL, Kahn JS (1962) Statistical analysis in the geological sciences. John Wiley & Sons, New York, 483p

Smith RJ (2009) Use and misuse of the reduced major axis for line-fitting. Am J Phys Anthropol 140:476–486

Sokal RR, Braumann CA (1980) Significance tests for coefficients of variation and variability profiles. Syst Zool 29:50–66

Wood B, Lieberman DE (2001) Craniodental variation in Paranthropus boisei: a developmental and functional perspective. Am J Phys Anthropol 116:13–25

Rice WR (1989) Analyzing tables of statistical tests. Evolution 43:223–225

Palmer AR (1994) Fluctuating asymmetry analyses: a primer. In: Markow TA (ed) Developmental instability: its origins and evolutionary implications. Kluwer, Dordrecht, Netherlands pp 335–364

Combès B, Hennessy R, Waddington J, Roberts N, Prima S (2008) Automatic symmetry plane estimation of bilateral objects in point clouds. IEEE Conference on Computer Vision and Pattern Recognition (CVPR’2008), June 2008, Anchorage, United States

Combès B, Prima S (2010) An efficient EM-ICP algorithm for symmetric consistent non-linear registration of point sets. 13th International Conference on Medical Image Computing and Computer-Assisted Intervention (MICCAI’2010), September 2010, Beijing, China

Dempster AP, Laird NM, Rubin DB (1977) Maximum likelihood from incomplete data via the EM algorithm. J Royal Stat Soc 39 (1):1–38

Holloway RL, de la Coste-Lareymondie MC (1982) Brain endocast asymmetry in pongids and hominids: some preliminary findings on the paleontology of cerebral dominance. Am J Phys Anthropol 58:101–110.

Balzeau A, Gilissen E, Grimaud-Hervé D (2012) Shared pattern of quantified endocranial shape asymmetries among anatomically modern humans, great apes and fossil hominins. Plos One 7(1): e29581

Beals KL, Smith CL, Dodd SM (1984) Brain size, cranial morphology, climate, and time machines. Curr Anthropol 25:301–330

Balzeau A, Crevecoeur I, Rougier H, et al (2010) Applications of imaging methodologies to paleoanthropology: beneficial results relating to the preservation, management and development of collections. CR Palevol 9:265–275

Tillier AM (1977) La pneumatisation du massif craniofacial chez les hommes actuels et fossiles. Bull Mem Soc Anthropol Paris XIII(4):177–189

O’Higgins P, Bastir M, Kupczik K (2006) Shaping the human face. Int Congr Ser 1296:55–73

Balzeau A, Badawi-Fayad J (2005) La morphologie externe et interne de la région sus-orbitaire est-elle corrélée à des contraintes biomécaniques ? Analyses structurelles des populations d’Homo sapiens d’Afalou Bou Rhummel (Algérie) et de Taforalt (Maroc). Bull Mem Soc Anthropol Paris 17:185–197

Zollikofer CPE, Ponce de León MS, Schmitz RW, Stringer CB (2008) New insights into mid-late Pleistocene fossil hominin paranasal sinus morphology. Anat Rec 291:1506–1516

Balzeau A, Grimaud-Hervé D (2006) Cranial base morphology and temporal bone pneumatization in Asian Homo erectus. J Hum Evol 51:350–359

Balzeau A, Radovčić J (2008) Variation and modalities of growth and development of the temporal bone pneumatization in Neandertals. J Hum Evol 54:546–567

Holloway RL (1981) Volumetric and asymmetry determinations on recent hominid endocasts: Spy I and II, Djebel Ihroud I, and the Salé Homo erectus specimens, with some notes on neandertal brain size. Am J Phys Anthropol 55:385–393

Holloway RL (1981) The Indonesian Homo erectus brain endocasts revisited. Am J Phys Anthropol 55:503–521

LeMay M (1976) Morphological cerebral asymmetries of modern man, fossil man and nonhuman primate. Ann NY Acad Sci 280:349–366

LeMay M (1977) Asymmetries of the skull and handedness. J Neurol Sci 32:243–253

LeMay M, Billig MS, Geschwind N (1982) Asymmetries of the brains and skulls of nonhuman primates. In: Falk D, Armstrong E (eds) Primate brain evolution. Methods and concepts. Plenum Press, New York, pp 263–277

LeMay M, Kido DK (1978) Asymmetries of the cerebral hemispheres on computed tomograms. J Comput Assist Tomogr 2:471–476

Galaburda AM, LeMay M, Kemper TL, et al (1978) Right-left asymmetries in the brain. Science 199:852–856

Kertesz A, Black SE, Polk M, et al (1986) Cerebral asymmetries on magnetic resonance imaging. Cortex 22:117–127

Kertesz A, Polk M, Black SE, et al (1990) Sex, handedness, and the morphometry of cerebral asymmetries on magnetic resonance imaging. Brain Res 530:40–48

Falk D, Hildebolt C, Cheverud J, et al (1990) Cortical asymmetries in frontal lobes of rhesus monkeys (Macaca mulatta). Brain Res 512:40–45

Cain DP, Wada JA (1979) An anatomical asymmetry in the baboon brain. Brain Behav Evol 16:222–226

Cheverud J, Falk D, Hildebolt C, et al (1990) Heritability and association of cortical petalias in rhesus macaques (Macaca mulatta). Brain Behav Evol 35:368–372

LeMay M (1985) Asymmetries of the brains and skulls of nonhuman primates. In: Glick SD (ed) Cerebral lateralization in nonhuman species. Academic Press, New York, pp 233–245

Hopkins WD, Marino L (2000) Asymmetries in cerebral width in nonhuman primate brains as revealed by magnetic resonance imaging (MRI). Neuropsychologia 38:493–499

Pilcher DL, Hammock EAD, Hopkins WD (2001) Cerebral volumetric asymmetries in non-human primates: a magnetic resonance imaging study. Laterality 6:165–179

Tobias PV (1987) The brain of Homo habilis: a new level of organization in cerebral evolution. J Hum Evol 16:741–761

Geschwind DH, Miller BL, DeCarli C, et al (2002) Heritability of lobar brain volumes in twin supports genetic models of cerebral laterality and handedness. Proc Natl Acad Sci 99:3176–3181

Balzeau A, Grimaud-Hervé D, Gilissen E (2011) Where are inion and endinion? Variations of the exo- and endocranial morphology of the occipital bone during hominin evolution. J Hum Evol 61:488–502

Toga AW, Thompson PM (2001) Maps of the brain. Anat Rec 265:37–53