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Humanities  2012 

The Origins of Human Modernity

DOI: 10.3390/h1010001

Keywords: human evolution, genetics, neoteny, replacement hypothesis, domestication hypothesis, brain disorder

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Abstract:

This paper addresses the development of the human species during a relatively short period in its evolutionary history, the last forty millennia of the Pleistocene. The hitherto dominant hypotheses of “modern” human origins, the replacement and various other “out of Africa” models, have recently been refuted by the findings of several disciplines, and by a more comprehensive review of the archaeological evidence. The complexity of the subject is reconsidered in the light of several relevant frames of reference, such as those provided by niche construction and gene-culture co-evolutionary theories, and particularly by the domestication hypothesis. The current cultural, genetic and paleoanthropological evidence is reviewed, as well as other germane factors, such as the role of neurodegenerative pathologies, the neotenization of humans in their most recent evolutionary history, and the question of cultural selection-based self-domestication. This comprehensive reassessment leads to a paradigmatic shift in the way recent human evolution needs to be viewed. This article explains fully how humans became what they are today.

References

[1]  P.V. Tobias. “The bearing of fossils and mitochondrial DNA on the evolution of modern humans, with a critique of the ‘mitochondrial Eve’ hypothesis.” S. Afr. Archaeol. Bull.?50?(1995): 155–167, doi:10.2307/3889064.
[2]  J.R. Searle. The Construction of Social Reality. London, UK: Allen Lane, 1995.
[3]  D. Bickerton. Adam’s Tongue: How Humans Made Language, How Language Made Humans. New York, NY, USA: Hill and Wang, 2010.
[4]  M. Schulz. “Die Regeln mache ich.” Der Spiegel?34?(2004): 128–131.
[5]  L. Harding. “History of modern man unravels as German scholar is exposed as fraud.” The Guardian; London, UK: Guardian News and Media, 2005. Available online: http://www.guardian.co.uk/science/2005/feb/19/science.sciencenews (accessed on 25 August 2011).
[6]  R.R.P. Von Zieten. “The Dating of Upper-Pleistocene Subsaharan Fossil Hominids and Their Place in Human Evolution: With Morphological and Archaeological Implications.” In Ph.D. Thesis. Los Angeles, CA, USA: University of California, 1973.
[7]  R. Protsch. “The absolute dating of Upper Pleistocene sub-Saharan fossil hominids and their place in human evolution.” J. Hum. Evol.?4?(1975): 297–322, doi:10.1016/0047-2484(75)90069-X.
[8]  R. Protsch, and H. Glowatzki. “Das absolute Alter des pal?olithischen Skeletts aus der Mittleren Klause bei Neuessing, Kreis Kelheim, Bayern.” Anthropol. Anz.?34?(1974): 140–144. 4377395
[9]  R. Protsch, and A. Semmel. “Zur Chronologie des Kelsterbach-Hominiden.” Eiszeitalter Ggw.?28?(1978): 200–210.
[10]  W. Henke, and R. Protsch. “Die Paderborner Calvaria—Ein diluvialer Homo sapiens.” Anthropol. Anz.?36?(1978): 85–108. 414655
[11]  R.L. Cann, M. Stoneking, and A.C. Wilson. “Mitochondrial DNA and human evolution.” Nature?325?(1987): 31–36, doi:10.1038/325031a0. 3025745
[12]  H. Curtis, and N.S. Barnes. Biology, 5th ed.. New York, NY, USA: Worth Publishers Inc., 1989.
[13]  T. Kuhn. The Structure of Scientific Revolutions. Chicago, IL, USA: University of Chicago Press, 1962.
[14]  I. Davidson, and W. Noble. “The archaeology of perception: Traces of depiction and language.” Curr. Anthropol.?30?(1989): 125–155, doi:10.1086/203723.
[15]  I. Davidson, and W. Noble. “Tools, humans and evolution—The relevance of the Upper Palaeolithic.” In Tools, Language and Intelligence: Evolutionary Implications. Cascais, Portugal: Wenner-Gren Foundation, 1990, pp. 1–21.
[16]  W. Noble, and I. Davidson. Human Evolution, Language and Mind: A Psychological and Archaeological Inquiry. Cambridge, UK: Cambridge University Press, 1996.
[17]  F. D’Errico, and A. Nowell. “A new look at the Berekhat Ram figurine: Implications for the origins of symbolism.” Camb. Archaeol. J.?10?(2000): 123–167.
[18]  G. Br?uer. “Pr?sapiens-Hypothese oder Afro-europ?ische Sapiens-Hypothese?” Z. Morphol. Anthropol.?75?(1984): 1–25. 6516526
[19]  C.B. Stringer, and P. Andrews. “Genetic and fossil evidence for the origin of modern humans.” Science?239?(1988): 1263–1268, doi:10.1126/science.3125610. 3125610
[20]  V. Eswaran. “A diffusion wave out of Africa.” Curr. Anthropol.?43?(2002): 749–774, doi:10.1086/342639.
[21]  F.H. Smith, I. Jankovi?, and I. Karavani?. “The assimilation model, modern human origins in Europe, and the extinction of Neandertals.” Quat. Int.?137?(2005): 7–19, doi:10.1016/j.quaint.2004.11.016.
[22]  F. Weidenreich. Apes, Giants, and Man. Chicago, IL, USA: University of Chicago Press, 1946.
[23]  J.H. Relethford. “Absence of regional affinities of Neandertal DNA with living humans does not reject multiregional evolution.” Am. J. Phys. Anthropol.?115?(2002): 95–98, doi:10.1002/ajpa.1060.
[24]  J.H. Relethford, and L.B. Jorde. “Genetic evidence for larger African population size during recent human evolution.” J. Phys. Anthropol.?108?(1999): 251–260, doi:10.1002/(SICI)1096-8644(199903)108:3<251::AID-AJPA1>3.0.CO;2-H.
[25]  E.H. Bryant, S.A. McComas, and L.M. Combs. “The effect of an experimental bottleneck on quantitative genetic variation in the housefly.” Genetics?114?(1986): 1191–1211. 17246359
[26]  L.R. Berger, S.E. Churchill, B. de Klerk, and R.L. Quinn. “Small-bodied humans from Palau, Micronesia.” PLoS One?3?(2008): e1780, doi:10.1371/journal.pone.0001780. 18347737
[27]  J. Hawks, S.-H. Lee, K. Hunley, and M. Wolpoff. “Population bottlenecks and Pleistocene human evolution.” Mol. Biol. Evol.?17?(2000): 2–22, doi:10.1093/oxfordjournals.molbev.a026233.
[28]  R.G. Bednarik, and M. Kuckenburg. Nale Tasih: Eine Flo?fahrt in Die Steinzeit. Stuttgart, Germany: Jan Thorbecke, 1999.
[29]  M.F. Hammer. “A recent common ancestry for human Y chromosomes.” Nature?378?(1995): 376–378, doi:10.1038/378376a0.
[30]  U. Gyllensten, D. Wharton, A. Josefsson, and A.C. Wilson. “Paternal inheritance of mitochondrial DNA in mice.” Nature?352?(1991): 255–257, doi:10.1038/352255a0. 1857422
[31]  P. Awadalla, A. Eyre-Walker, and J. Maynard Smith. “Linkage disequilibrium and recombination in hominid mitochondrial DNA.” Science?286?(1999): 2524–2525, doi:10.1126/science.286.5449.2524. 10617471
[32]  A.A.M. Morris, and R.N. Lightowlers. “Can paternal mtDNA be inherited?” Lancet?355?(2000): 1290–1291, doi:10.1016/S0140-6736(00)02106-1.
[33]  R.S. Williams. “Another surprise from the mitochondrial genome.” N. Engl. J. Med.?347?(2002): 609–611, doi:10.1056/NEJMe020083.
[34]  M. Schwartz, and J. Vissing. “Paternal inheritance of mitochondrial DNA.” N. Engl. J. Med.?347?(2002): 576–580, doi:10.1056/NEJMoa020350. 12192017
[35]  F. Rodriguez-Trelles, R. Tarrio, and F.J. Ayala. “Erratic overdispersion of three molecular clocks: GPDH, SOD, and XDH.” Proc. Natl. Acad. Sci. USA?98?(2001): 11405–11410, doi:10.1073/pnas.201392198.
[36]  F. Rodriguez-Trelles, R. Tarrio, and F.J. Ayala. “A methodological bias toward overestimation of molecular evolutionary time scales.” Proc. Natl. Acad. Sci. USA?99?(2002): 8112–8115, doi:10.1073/pnas.122231299.
[37]  K.K. Kidd, J.R. Kidd, S.A. Pakstis, C.M. Tishkoff, C.M. Castiglione, and G. Strugo. “Use of linkage disequilibrium to infer population histories.” Am. J. Phys. Anthropol.?22?(1996): 138.
[38]  A. Gibbons. “Calibrating the mitochondrial clock.” Science?279?(1998): 28–29, doi:10.1126/science.279.5347.28.
[39]  K. Christopherson, E. Ullian, C. Stokes, C. Mullowney, J. Hill, A. Agah, J. Lawler, D. Mosher, P. Brownstein, and B. Barres. “Thrombospondins are astrocyte-secreted proteins that promote CNS synaptogenesis.” Cell?120?(2005): 421–433, doi:10.1016/j.cell.2004.12.020.
[40]  M. Cáceres, C. Suwyn, M. Maddox, J.W. Thomas, and T.M. Preuss. “Increased cortical expression of two synaptogenic thrombospondins in human brain evolution.” Cereb. Cortex?17?(2007): 2312–2321. 17182969
[41]  E. Jablonka, and M. Lamb. Evolution in Four Dimensions: Genetic, Epigenetic, Behavioral, and Symbolic Variation in the History of Life. Cambridge, MA, USA: MIT Press, 2005.
[42]  G. Gutierrez, D. Sanchez, and A. Marin. “A reanalysis of the ancient mitochondrial DNA sequences recovered from Neandertal bones.” Mol. Biol. Evol.?19?(2002): 1359–1366, doi:10.1093/oxfordjournals.molbev.a004197.
[43]  M.W. Walberg, and D.A. Clayton. “Sequence and properties of the human KB cell and mouse L cell D-loop regions of mitochondrial DNA.” Nucleic Acids Res.?9?(1981): 5411–5421, doi:10.1093/nar/9.20.5411.
[44]  A. Torroni, M.T. Lott, M.F. Cabell, Y.-S. Chen, L. Lavergne, and D.C. Wallace. “MtDNA and the origin of Caucasians: Identification of ancient Caucasian-specific haplogroups, one of which is prone to a recurrent somatic duplication in the D-loop region.” Am. J. Hum. Genet.?55?(1994): 760–752. 7942855
[45]  H. Zischler, H. Geisert, A. von Haeseler, and S. P??bo. “A nuclear ‘fossil’ of the mitochondrial D-loop and the origin of modern humans.” Nature?378?(1995): 489–492, doi:10.1038/378489a0. 7477404
[46]  M. Pruvost, R. Schwarz, B.V. Correia, S. Champlot, S. Braguier, N. Morel, Y. Fernandez-Jalvo, T. Grange, and E.-M. Geigl. “Freshly excavated fossil bones are best for amplification of ancient DNA.” Proc. Natl. Acad. Sci. USA?104?(2007): 739–744, doi:10.1073/pnas.0610257104. 17210911
[47]  J. Hardy, A. Pittman, A. Myers, K. Gwinn-Hardy, H.C. Fung, R. de Silva, M. Hutton, and J. Duckworth. “Evidence suggesting that Homo neanderthalensis contributed the H2 MAPT haplotype to Homo sapiens.” Biochem. Soc. Trans.?33?(2005): 582–585, doi:10.1042/BST0330582.
[48]  D. Garrigan, Z. Mobasher, T. Severson, J.A. Wilder, and M.F. Hammer. “Evidence for archaic Asian an-cestry on the human X chromosome.” Mol. Biol. Evol.?22?(2005): 189–192. 15483323
[49]  A.R. Templeton. “Haplotype trees and modern human origins.” Yearb. Phys. Anthropol.?48?(2005): 33–59.
[50]  R.E. Green, J. Krause, S.E. Ptak, A.W. Briggs, M.T. Ronan, J.F. Simons, L. Du, M. Egholm, J.M. Rothberg, M. Paunovic, and S. P??bo. “Analysis of one million base pairs of Neanderthal DNA.” Nature?444?(2006): 330–336, doi:10.1038/nature05336. 17108958
[51]  R.E. Green, J. Krause, A.W. Briggs, T. Maricic, U. Stenzel, M. Kircher, N. Patterson, H. Li, W. Zhai, Hsi-Yang, and et al. “A draft sequence of the Neandertal genome.” Science?328?(2010): 710–722, doi:10.1126/science.1188021. 20448178
[52]  A. Gibbons. “Close encounters of the prehistoric kind.” Science?328?(2010): 680–684, doi:10.1126/science.328.5979.680. 20448163
[53]  M. Krings, A. Stone, R.W. Schmitz, H. Krainitzki, M. Stoneking, and S. P??bo. “Neandertal DNA sequences and the origin of modern humans.” Cell?90?(1997): 19–30, doi:10.1016/S0092-8674(00)80310-4.
[54]  S. P??bo. “Extraction, characterization, molecular cloning, and enzymatic amplification.” Proc. Natl. Acad. Sci. USA?86?(1989): 1939–1943, doi:10.1073/pnas.86.6.1939.
[55]  R. Higuchi, B. Bowman, M. Freiberger, O.A. Ryder, and A.C. Wilson. “DNA sequences from the quagga, and extinct member of the horse family.” Nature?312?(1984): 282–284, doi:10.1038/312282a0. 6504142
[56]  S. P??bo. “Molecular cloning and ancient Egyptian mummy DNA.” Nature?314?(1985): 644–645, doi:10.1038/314644a0. 3990798
[57]  A. Cooper, C. Mourer-Chauvirp, G.K. Chambers, A. von Haeseler, A.C. Wilson, and S. P??bo. “Independent origins of New Zealand moas and kiwis.” Proc. Natl. Acad. Sci. USA?89?(1992): 8741–8744, doi:10.1073/pnas.89.18.8741. 1528888
[58]  J.P. Noonan, M. Hofreiter, D. Smith, J.R. Priest, N. Rohland, G. Rabeder, J. Krause, J.C. Detter, S. P??bo, and E.M. Rubin. “Genomic sequencing of Pleistocene cave bears.” Science?309?(2005): 597–599, doi:10.1126/science.1113485. 15933159
[59]  S. P??bo, H. Poinar, D. Serra, V. Jaenicke-Després, J. Hebler, N. Rohland, M. Kuch, J. Krause, L. Vigilant, and M. Hofreiter. “Genetic analyses from ancient DNA.” Annu. Rev. Genet.?38?(2004): 645–679, doi:10.1146/annurev.genet.37.110801.143214.
[60]  M. Pruvost, T. Grange, and E.-M. Geigl. “Minimizing DNA contamination by using UNG-coupled quantitative real time PCR on degraded DNA samples: Application to DNA studies.” BioTechniques?38?(2005): 569–575, doi:10.2144/05384ST03. 15884675
[61]  L. Orlando, and C. H?nni. “Du nouveau pour l’AND ancien.” Méd. Sci.?8-9?(2008): I-XVI.
[62]  J.P. Jolivet, and M. Henry. De la Solution à L’oxyde, Condensation des Cations en Solution Aqueuse, Chimie de Surface des Oxides. Paris, France: InterEditions CNRS, 1994.
[63]  T. Lindhal, and B. Nyberg. “Rate depurination of native deoxyribonucleic acid.” Biochemistry?11?(1972): 3610–3618, doi:10.1021/bi00769a018. 4626532
[64]  E.M. Golenberg, A. Bickel, and P. Weihs. “Effect of highly fragmented DNA on PCR.” Nucleic Acids Res.?24?(1996): 5026–5033, doi:10.1093/nar/24.24.5026.
[65]  G. Gutierrez, and A. Marin. “The most ancient DNA recovered from amber-preserved specimen may not be as ancient as it seems.” Mol. Biol. Evol.?15?(1998): 926–929, doi:10.1093/oxfordjournals.molbev.a025998.
[66]  E.-M. Geigl. “Why ancient DNA research needs taphonomy.” In Biosphere to Lithosphere: New Studies in Vertebrate Taphonomy. Edited by T. O’Connor. Oxford, UK: Oxbow Books, 2005, pp. 79–86.
[67]  L. Carlier, J. Couprie, A. le Maire, L. Guilhaudis, I. Milazzo, M. Gondry, D. Davoust, B. Gilquin, and S. Zinn-Justin. “Solution structure of the region 51-160 of human KIN17 reveals an atypical winged helix domain.” Protein Sci.?16?(2007): 2750–2755, doi:10.1110/ps.073079107.
[68]  R.G. Bednarik. “Only time will tell: A review of the methodology of direct rock art dating.” Archaeometry?38?(1996): 1–13, doi:10.1111/j.1475-4754.1996.tb00757.x.
[69]  R.G. Bednarik. “The dating of rock art: A critique.” J. Archaeol. Sci.?29?(2002): 1213–1233, doi:10.1006/jasc.2001.0711.
[70]  A. Watchman. “A universal standard for reporting the ages of petroglyphs and rock paintings.” In Dating and the Earliest Known Rock Art. Edited by M. Strecker, and P. Bahn. Oxford, UK: Oxbow Books, 1999, pp. 1–3.
[71]  J. Walser, and A. Furano. “The mutational spectrum of non-CpG DNA varies with CpG content.” Genome Res.,?2010, doi:10.1101/gr.103283.109.
[72]  E. Strauss. “Can mitochondrial clocks keep time?” Science?283?(1999): 1435–1438, doi:10.1126/science.283.5407.1435.
[73]  A.R. Templeton. “Gene lineages and human evolution.” Science?272?(1996): 1363. 8650555
[74]  A. Templeton. “Out of Africa again and again.” Nature?416?(2002): 45–51, doi:10.1038/416045a.
[75]  H.-P. Schulz. “The lithic industry from layers IV-V, Susiluola Cave, western Finland, dated to the Eemian interglacial.” Préhistoire Européenne?16-17?(2002): 7–23.
[76]  H.-P. Schulz, B. Eriksson, H. Hirvas, P. Huhta, H. Jungner, P. Purhonen, P. Ukkonen, and T. Rankama. “Excavations at Susiluola Cave.” Suomen Mus.?109?(2002): 5–45.
[77]  P. Pavlov, J.I. Svendsen, and S. Indrelid. “Human presence in the European Arctic nearly 40,000 years ago.” Nature?413?(2001): 64–67, doi:10.1038/35092552.
[78]  C. Gamble. The Palaeolithic Societies of Europe. Cambridge, UK: Cambridge University Press, 1999.
[79]  R.G. Bednarik. “Antiquity and authorship of the Chauvet rock art.” Rock Art Res.?24?(2007): 21–34.
[80]  R.G. Bednarik. “Palaeoart and archaeological myths.” Camb. Archaeol. J.?2?(1992): 27–43, doi:10.1017/S0959774300000457.
[81]  R.G. Bednarik. “The Pleistocene art of Asia.” J. World Prehistory?8?(1994): 351–375, doi:10.1007/BF02221090.
[82]  R.G. Bednarik. “The earliest evidence of palaeoart.” Rock Art Res.?20?(2003): 89–135.
[83]  F. Felgenhauer. “Das Pal?olithikum von Willendorf in der Wachau, Nieder?sterreich. Vorbericht über die monographische Bearbeitung.” Forsch. Fortschr.?33?(1959): 152–155.
[84]  V. Cabrera Valdés, and J. Bischoff. “Accelerator 14C dates for early Upper Palaeolithic (basal Aurignacian) at El Castillo Cave (Spain).” J. Archaeol. Sci.?16?(1989): 577–584, doi:10.1016/0305-4403(89)90023-X.
[85]  J.L. Bischoff, K.R. Ludwig, J.F. Garcia, E. Carbonell, M. Vaquero, T.W. Stafford, and A.J.T. Jull. “Dating of the basal Aurignacian sandwich at Abric Romani (Catalunya, Spain) by radiocarbon and uranium series.” J. Archaeol. Sci.?21?(1994): 541–551, doi:10.1006/jasc.1994.1053.
[86]  J. González Echegaray, L.G. Freeman, I. Barandiaran, J.M. Apellaniz, K. Butzer, C. Fuentes Vidarte, B. Madariaga, J.A. Gonzalez Morales, and A. Leroi-Gourhan. La Cueva de El Pendo. Madrid, Spain: Bibliotheca Praehistorica Hispana, 1980.
[87]  F. Bordes, and J. Labrot. “La stratigraphie du gisement de Roc de Combe (Lot) et ses implications.” Bull. Soc. Préhist. Fran?.?64?(1967): 15–28, doi:10.3406/bspf.1967.4097.
[88]  F. Champagne, and R. Espitalié. La Piage, Site Préhistorique Sur Lot; No. 15. Paris, France: Mémoires de la Société Préhistorique Fran?aise, 1981.
[89]  M. Vaquero, M. Esteban, E. Allué, J. Vallverdú, E. Carbonell, and J.L. Bischoff. “Middle Palaeolithic refugium, or archaeological misconception? A new U-series and radiocarbon chronology of Abric Agut (Capellades, Spain).” J. Archaeol. Sci.?29?(2002): 953–958, doi:10.1006/jasc.2001.0794.
[90]  R.G. Bednarik. “Traces of cultural continuity in Middle and Upper Palaeolithic material evidence.” Origini?18?(1995): 47–67.
[91]  A. Palma di Cesnola. “Le leptolithique archa?que en Italie.” In Périgordien et Gravettien en Europe. Edited by B. Klíma. Nice, France: Congrès IX, Colloque XV; UISPP, 1976, pp. 66–99.
[92]  A. Palma di Cesnola. “L’Uluzzien: Faciès italien du Leptolithique archa?que.” L’Anthropologie?93?(1989): 783–811.
[93]  S.L. Kuhn, and A. Bietti. “The late middle and early Upper Paleolithic in Italy.” In The Geography of Neandertals and Modern Humans in Europe and the Greater Mediterranean. Edited by O. Bar-Yosef, and D. Pilbeam. Cambridge, MA, USA: Peabody Museum of Archaeology and Ethnology, 2000, pp. 49–76.
[94]  S.L. Kuhn, and M.C. Stiner. “The antiquity of hunter-gatherers.” In Hunter-Gatherers: An Interdisciplinary Perspective. Edited by C. Panter-Brick, R.H. Layton, and P. Rowley-Conwy. Cambridge, UK: Cambridge University Press, 2001, pp. 99–142.
[95]  O. Abel. “Das Lebensbild der eiszeitlichen Tierwelt der Drachenh?hle bei Mixnitz.” In Die Drachenh?hle bei Mixnitz. Edited by O. Abel, and G. Kyrle. Vienna, Austria: Spel?ologische Monographien, 1931, Volume 7-9, pp. 885–920.
[96]  E. B?chler. Das Alpine Pal?olithikum der Schweiz. Basle, Switzerland: Monographien zur Ur- und Frühgeschichte der Schweiz, 1940, Volume 2.
[97]  J. Bayer. “Wildkirchlikultur.” Eiszeit und Urgeschichte?6?(1929): 142.
[98]  R.G. Bednarik. “Wall markings of the cave bear.” Stud. Speleol.?9?(1993): 51–70.
[99]  S. Brodar. “Zur Frage der H?hlenb?renjagd und des H?hlenb?renkults in den pal?olithischen fundstellen Jugoslawiens.” Quart?r?9?(1957): 147–159.
[100]  H. Cramer. “Der Lebensraum des eiszeitlichen H?hlenb?ren und die ‘H?hlenb?renjagdkultur’.” Z. Dtsch. Geol. Ges.?93?(1941): 181–196.
[101]  G. Kyrle. “Die H?hlenb?renj?gerstation.” In Die Drachenh?hle bei Mixnitz. Edited by O. Abel, and G. Kyrle. Vienna, Austria: Spel?ologische Monographien, 1931, pp. 804–962. Band 7-9.
[102]  M. Malez. “Das Pal?olithikum der Veternicah?hle und der B?renkult.” Quart?r?11?(1959): 171–188.
[103]  L. Vértes. “Die Rolle des H?hlenb?ren im ungarischen Pal?olithikum.” Quart?r?11?(1959): 151–170.
[104]  L.F. Zotz. Altsteinzeitkunde Mitteleuropas. Stuttgart, Germany: F. Enke, 1951.
[105]  J. Svoboda. “The Bohunician.” In La Mutation. Edited by J.K. Koz?owski. Liège, Belgium: ERAUL, 1990, pp. 169–192.
[106]  J. Svoboda. “The complex origin of the Upper Paleolithic in the Czech and Slovak Republics.” In Before Lascaux: The Complete Record of the Early Upper Paleolithic. Edited by H. Knecht, A. Pike-Tay, and R. White. Boca Raton, FL, USA: CRC Press, 1993, pp. 23–36.
[107]  M. Anikovich. “Early Upper Paleolithic cultures of eastern Europe.” J. World Prehistory?6?(2005): 205–245, doi:10.1007/BF00975550.
[108]  P.L. Allsworth-Jones. “The Szeletian: Main trends, recent results, and problems for resolution.” In The Pleistocene Perspective. Edited by M. Day, R. Foley, and R. W. London, UK: Allen and Unwin, 1986, pp. 1–25.
[109]  N. Kyparissi-Apostolika. Theopetra Cave. Twelve Years of Excavation and Research 1987-1998. Athens, Greece: Institute for Aegean Prehistory, 2000.
[110]  Y. Facorellis, N. Kyparissi-Apostolika, and Y. Maniatis. “The cave of Theopetra, Kalambaka: Radiocarbon evidence for 50,000 years of human presence.” Radiocarbon?43?(2001): 1029–1048.
[111]  J.K. Koz?owski. “A multiaspectual approach to the origins of the Upper Palaeolithic in Europe.” In The Emergence of Modern Humans. An Archaeological Perspective. Edited by P. Mellars. Edinburgh, UK: Edinburgh University Press, 1990, pp. 419–438.
[112]  M.C. Stiner. Honor Among Thieves. A Zooarchaeological Study of Neandertal Ecology. Princeton, NJ, USA: Princeton University Press, 1994.
[113]  S.L. Kuhn. Mousterian Lithic Technology. An Ecological Perspective. Princeton, NJ, USA: Princeton University Press, 1995.
[114]  J. Riel-Salvatore, and G.A. Clark. “Grave markers. Middle and Early Upper Paleolithic burials and the use of chronotypology in contemporary Paleolithic research.” Curr. Anthropol.?42?(2001): 449–479, doi:10.1086/321801.
[115]  F.G. Fedele, and B. Giaccio. “Paleolithic cultural change in western Eurasia across the 40,000 BP timeline: Continuities and environmental forcing.” In Exploring the Mind of Ancient Man. Festschrift to Robert G. Bednarik. Edited by P. Chenna Reddy. New Delhi, India: Research India Press, 2007, pp. 292–316.
[116]  R.G. Bednarik, G. Kumar, A. Watchman, and R.G. Roberts. “Preliminary results of the EIP project.” Rock Art Res.?22?(2005): 147–197.
[117]  X. Gao, and C.J. Norton. “A critique of the Chinese ‘Middle Palaeolithic’.” Antiquity?76?(2002): 397–412.
[118]  P.B. Beaumont, and R.G. Bednarik. “On a search for ancestral rock art in the southeastern Kalahari, South Africa.” In Pré actes du congrès, IFRAO Ariège 2010, Pleistocene art of Africa, DVD. Lacombe, Tarascon-sur-Arège, France, 2010. (in press).
[119]  G. Br?uer. “New evidence of the transitional period between Neanderthal and modern man.” J. Hum. Evol.?10?(1981): 467–474, doi:10.1016/S0047-2484(81)80093-0.
[120]  G. Br?uer. “A craniological approach to the origin of anatomically modern Homo sapiens in Africa and implications for the appearance of modern Europeans.” In The Origins of Modern Humans: A World Survey of the Fossil Evidence. Edited by F.H. Smith, and F. Spencer. New York, NY, USA: Alan R. Liss, 1984, pp. 327–410.
[121]  G. Br?uer. “The evolution of modern humans: A comparison of the African and non-African evidence.” In The Human Revolution: Behavioural and Biological Perspectives on the Origins of Modern Humans. Edited by P. Mellars, and C. Stringer. Edinburgh, UK: Edinburgh University Press, 1989, pp. 123–154.
[122]  C.B. Stringer. “Human evolution and biological adaptation in the Pleistocene.” In Hominid Evolution and Community Ecology: Prehistoric Human Adaptation in Biological Perspective. Edited by R. Foley. London, UK: Academic Press, 1984, pp. 55–83.
[123]  C.B. Stringer. “The fate of the Neanderthals.” Nat. Hist.?93?(1984): 6–12.
[124]  C.B. Stringer. “Middle Pleistocene hominid variability and the origin of Late Pleistocene humans.” In Ancestors: The Hard Evidence. Edited by E. Delson. New York, NY, USA: Alan R. Liss, 1985, pp. 289–295.
[125]  C.B. Stringer. “The origin of early modern humans: A comparison of the European and non-European evidence.” In The Human Revolution: Behavioural and Biological Perspectives on the Origins of Modern Humans. Edited by P. Mellars, and C. Stringer. Edinburgh, UK: Edinburgh University Press, 1989, pp. 232–244.
[126]  P. Mellars, and C. Stringer. Introduction. In The Human Revolution: Behavioural and Biological Perspectives on the Origins of Modern Humans. Edinburgh, UK: Edinburgh University Press, 1989, pp. 1–14.
[127]  J. Wainscoat. “Out of the garden of Eden.” Nature?325?(1987): 13, doi:10.1038/325013a0.
[128]  J.S. Wainscoat, A.V.S. Hill, A.L. Boyce, J. Flint, M. Hernandez, S.L. Thein, J.M. Old, J.R. Lynch, A.G. Falusi, D.J. Weatherall, and et al. “Evolutionary relationships of human populations from an analysis of nuclear DNA polymorphisms.” Nature?319?(1986): 491–493, doi:10.1038/319491a0. 3003580
[129]  S.E. Churchill, and F.H. Smith. “A modern human humerus from the early Aurignacian of Vogelherdh?hle (Stetten, Germany).” Am. J. Phys. Anthropol.?112?(2000): 251–273, doi:10.1002/(SICI)1096-8644(2000)112:2<251::AID-AJPA10>3.0.CO;2-G.
[130]  S.E. Churchill, and F.H. Smith. “Makers of the early Aurignacian of Europe.” Am. J. Phys. Anthropol.?113?(2000): 61–115, doi:10.1002/1096-8644(2000)43:31+<61::AID-AJPA4>3.0.CO;2-3.
[131]  A. Czarnetzki. “Zur entwicklung des Menschen in Südwestdeutschland.” In Urgeschichte in Baden-Württemberg. Edited by H. Müller Beck. Stuttgart, Germany: Konrad Theiss, 1983, pp. 217–240.
[132]  W. Gieseler. Die Fossilgeschichte des Menschen. Stuttgart, Germany: Konrad Theiss, 1974.
[133]  N.J. Conard, P.M. Grootes, and F.H. Smith. “Unexpectedly recent dates for human remains from Vogelherd.” Nature?430?(2004): 198–201, doi:10.1038/nature02690.
[134]  D. Sonneville-Bordes. “De Position-stratigraphique et chronologique relative des restes humains du Palaéolithique supérieur entre Loire et Pyrénées.” Ann. Paléontol.?45?(1959): 19–51.
[135]  H.L. Movius. “The Abri of Cro-Magnon, Les Eyzies (Dordogne) and the probable age of the contained burials on the basis of the nearby Abri Pataud.” Anu. Estud. Atl.?15?(1969): 323–344.
[136]  D. Henry-Gambier. “Les fossiles de Cro-Magnon (Les-Eyzies-de-Tayac, Dordogne): Nouvelles données sur leur position chronologique et leur attribution culturelle.” Bull. Mém. Soc. D’Anthropol. Paris?14?(2002): 89–112.
[137]  R. White. “Comment on Bednarik, R.G., ‘Concept-mediated markings in the Lower Palaeolithic’.” Curr. Anthropol.?36?(1995): 623–625.
[138]  R.G. Bednarik. “Concept-mediated marking in the Lower Palaeolithic.” Curr. Anthropol.?36?(1995): 605–634, doi:10.1086/204406.
[139]  J. Szombathy. “Die diluvialen Menschenreste aus der Fürst-Johanns-H?hle bei Lautsch in M?hren.” Die Eiszeit?2?(1925): 1-34, 73-95.
[140]  J. Smy?ka. “Litovel a okolí za prav?ku.” Prav?k?3?(1907): 140–150.
[141]  J. Knies. “Novy nález diluviálního ?lov?ka u Mlad?e na Morav?.” V?stník klubu p?írodov?dného v Prost?jov??7?(1906): 1–19.
[142]  J. Smy?ka. “Nálezy diluviálního ?lověka v Mlad?i u Litovle na Moravě.” Obzor Prehistoricky?1?(1922): 111–120.
[143]  J. Smy?ka. “Kdy p?i?el první ?lověk do litovelského kraje.” In Vlastivědny sborník st?ední a severní Moravy III. Litovel, Czech Republic: p?íloha Olomoucko a Litovelsko, 1925, pp. 6–7.
[144]  E. Weiser. Reise und Wanderbuch, 2nd ed.. Freudenthal, Germany: Ernst Feld, 1928.
[145]  J. Jelínek. “Historie, identifikace a vyznam mlade?skych antropologickych nález? z po?átku mladého paleolitu.” Anthropologie?25?(1987): 51–69.
[146]  J.A. Svoboda, J. van der Plicht, and V. Kuzelka. “Upper Palaeolithic and Mesolithic human fossils from Moravia and Bohemia (Czech Republic): Some new 14C dates.” Antiquity?76?(2002): 957–962.
[147]  R.G. Bednarik. “The cave art of Mlade? cave, Czech Republic.” Rock Art Res.?23?(2006): 207–216.
[148]  E.M. Wild, M. Teschler-Nicola, W. Kutschera, P. Steier, E. Trinkaus, and W. Wanek. “Direct dating of early Upper Palaeolithic human remains from Mlade?.” Nature?435?(2005): 332–335, doi:10.1038/nature03585. 15902255
[149]  F.H. Smith. “Upper Pleistocene hominid evolution in south-central Europe: A review of the evidence and analysis of trends.” Curr. Anthropol.?23?(1982): 667–686, doi:10.1086/202920.
[150]  F.H. Smith. “Continuity and change in the origin of modern Homo sapiens.” Z. Morphol. Anthropol.?75?(1985): 197–222. 3919508
[151]  D.W. Frayer. “Cranial variation at Mlade? and the relationship between Mousterian and Upper Palaeolithic hominids.” Anthropologie?23?(1986): 243–256.
[152]  E. Trinkaus, and M. Le May. “Occipital bunning among Later Pleistocene hominids.” Am. J. Phys. Anthropol.?57?(1982): 27–35, doi:10.1002/ajpa.1330570106.
[153]  J. Jelínek, M.H. Wolpoff, and D.W. Frayer. “Evolutionary significance of the quarry cave specimens from Mlade?.” Anthropologie?43?(2005): 215–228.
[154]  G. Br?uer. “Die morphologischen Affinit?ten des jungpleistoz?nen Strinbeins aus dem Elbmündungsgebiet bei Hahn?fersand.” Z. Morphol. Anthropol.?71?(1980): 1–42. 7003940
[155]  T. Terberger, and M. Street. “Jungpal?olithische Menschenreste im westlichen Mitteleuropa und ihr Kontex.” In Erkenntnisj?ger: Kultur und Umwelt des Frühen Menschen. Edited by J.M. Burdukiewicz, L. Fiedler, W.-D. Heinrich, A. Justus, and E. Brühl. Halle, Germany: Ver?ffentlichungen des Landesamtes für Arch?ologie Sachsen-Anhalt–Landesmuseum für Vorgeschichte, 2003, Volume 57/2, pp. 579–591.
[156]  W. Henke, and H. Rothe. Pal?oanthropologie. Berlin, Germany: Wiley-VCH Verlag GmbH, 1994.
[157]  F.H. Smith, E. Trinkaus, P.B. Pettitt, I. Karavani?, and M. Paunovi?. “Direct radiocarbon dates for Vindija G1 and Velika Pe?ina Late Pleistocene hominid remains.” Proc. Natl. Acad. Sci. USA?96?(1999): 12281–12286, doi:10.1073/pnas.96.22.12281.
[158]  E. Trinkaus, O. Moldovan, ?. Milota, A. B?lgar, L. Sarcina, S. Athreya, S.E. Bailey, R. Rodrigo, G. Mircea, T. Higham, and et al. “An early modern human from the Pe?tera cu Oase, Romania.” Proc. Natl. Acad. Sci. USA?100?(2003): 11231–11236, doi:10.1073/pnas.2035108100. 14504393
[159]  R. Rodrigo, M. Gherase, L. Sarcin?, O. Moldovan, R.G. Constantin, C. Franciscus, P.E. Zollikofer, M. Ponce de León, and et al. “Pe?tera cu Oase 2 and the cranial morphology of early modern Europeans.” Proc. Natl. Acad. Sci. USA?104?(2007): 1165–1170, doi:10.1073/pnas.0610538104. 17227863
[160]  A. Soficaru, A. Dobo?, and E. Trinkaus. “Early modern humans from the Pe?tera Muierii, Baia de Fier, Romania.” Proc. Natl. Acad. Sci. USA?103?(2006): 17196–171201, doi:10.1073/pnas.0608443103.
[161]  P. Geay. “Sur la découverte d’un squelette aurignacien en Charente-Maritime.” Bull. Soc. Préhistoroque Fran?aise?54?(1957): 193–197, doi:10.3406/bspf.1957.5985.
[162]  H. Klaatsch, and O. Hauser. “Homo Aurignaciensis Hauseri.” Pr?historische Z.?1?(1910): 273–338, doi:10.1515/prhz.1910.1.3-4.273.
[163]  M. Perpère. “L’aurignacien en Poitou-Charentes (étude des Collections D’industries Lithiques).” Ph.D. Thesis, University of Paris, Paris, France, 1971.
[164]  G. Asmus. “Kritische Bemerkungen und neue Gesichtspunkte zur jungpal?olithischen Bestattung von Combe-Capelle, Périgord.” Eiszeitalter Ggw.?15?(1964): 181–186.
[165]  M. Perpère. “Les grands gisements aurignaciens du Poitou.” L’Anthropologie?77?(1973): 683–716.
[166]  F.V. Ramirez Rozzi, F. d’Errico, M. Vanhaeren, P.M. Grootes, B. Kerautret, and V. Dujardin. “Cutmarked human remains bearing Neandertal features and modern human remains associated with the Aurignacian at Les Rois.” J. Anthropol. Sci.?87?(2009): 153–185. 19663173
[167]  E. Trinkaus. “European early modern humans and the fate of the Neandertals.” Proc. Natl. Acad. Sci. USA?104?(2007): 7367–7372, doi:10.1073/pnas.0702214104.
[168]  H. Shang, H. Tong, S. Zhang, F. Chen, and E. Trinkaus. “An early modern human from Tianyuan Cave, Zhoukoudian, China.” Proc. Natl. Acad. Sci. USA?104?(2007): 6573–6578, doi:10.1073/pnas.0702169104. 17416672
[169]  I. McDougall, F.H. Brown, and J.G. Fleagle. “Stratigraphic placement and age of modern humans from Kibish, Ethiopia.” Nature?433?(2005): 733–736, doi:10.1038/nature03258. 15716951
[170]  T.D. White, B. Asfaw, D. DeGusta, H. Gilbert, G.D. Richards, G. Suwa, and F.C. Howell. “Pleistocene Homo sapiens from Middle Awash, Ethiopia.” Nature?425?(2003): 742–747.
[171]  T. Terberger. “Endmesolithische Funde von Drigge, Lkr. Rügen—Kannibalen auf Rügen?” Jahrb. Bodendenkmalpflege Mecklenburg-Vorpommern?46?(1998): 7–44.
[172]  R. Lewin. Human Evolution: An Illustrated Introduction. Oxford, UK: Blackwell Publishing, 2005.
[173]  J. Hawks. “Have Neanderthals left us their genes?” In Human Evolution: Abstracts of Papers Presented at the 1997 Cold Spring Harbor Symposium on Human Evolution Arranged by L. L. Cavalli-Sforza and J. D. Watson. Edited by L. Cavalli-Sforza. Cold Spring Harbor, NY, USA: Cold Spring Harbor Laboratory, 1997, p. 81.
[174]  D.W. Frayer. “Evolution at the European edge: Neanderthal and Upper Paleolithic relationships.” Préhist. Européenne?2?(1993): 9–69.
[175]  D.W. Frayer. “Perspectives on Neandertals as ancestors.” In Conceptual Issues in Modern Human Origins Research. Edited by G.A. Clark, and C.M. Willermet. New York, NY, USA: Aldine de Gruyter, 1998, pp. 220–234.
[176]  D.W. Frayer, M.H. Wolpoff, A.G. Thorne, F.H. Smith, and G.G. Pope. “Getting it straight.” Am. Anthropol.?96?(1994): 424–438, doi:10.1525/aa.1994.96.2.02a00090.
[177]  R. White. “Technological and social dimensions of Aurignacian-age body ornaments across Europe.” In Before Lascaux: The Complex Record of the Early Upper Palaeolithic. Edited by H. Knecht, A. Pike-Tay, and R. White. Boca Raton, FL, USA: CRC Press, 1993, pp. 277–299.
[178]  J.-J. Hublin, F. Spoor, M. Braun, F. Zonneveld, and S. Condemi. “A late Neanderthal associated with Upper Palaeolithic artefacts.” Nature?381?(1996): 224–226, doi:10.1038/381224a0. 8622762
[179]  I. Karavanic, and H. Smith. “The Middle/Upper Palaeolithic interface and the relationship of Neanderthals and early modern humans in the Hrvatsko Zagorje, Croatia.” J. Hum. Evol.?34?(1998): 223–248, doi:10.1006/jhev.1997.0192.
[180]  V. Gábori-Csánk. Le Jankovichien: Une Civilisation Paléolithiques en Hongrie. Liège, Belgium: ERAUL 53, 1993.
[181]  O.N. Bader. Sungir: Verkhnepaleoliticheskaya Stoyanka. Moscow, Russia: Izdatel’stvo “Nauka”, 1978.
[182]  F.H. Smith, and G. Ranyard. “Evolution of the supraorbital region in Upper Pleistocene fossil hominids from south-central Europe.” Am. J. Phys. Anthropol.?53?(1980): 589–610, doi:10.1002/ajpa.1330530414.
[183]  M. Wolpoff. Paleoanthropology, 2nd ed.. New York, NY, USA: McGraw-Hill, 1999.
[184]  T. Higham, C.B. Ramsey, I. Karavani?, F.H. Smith, and E. Trinkaus. “Revised direct radiocarbon dating of the Vindija G1 Upper Paleolithic Neandertals.” Proc. Natl. Acad. Sci. USA?103?(2006): 553–557, doi:10.1073/pnas.0510005103. 16407102
[185]  J.C.M. Ahern, I. Karavanic, M. Paunovi?, I. Jankovi?, and F.H. Smith. “New discoveries and interpretations of fossil hominids and artifacts from Vindija Cave, Croatia.” J. Hum. Evol.?46?(2004): 25–65.
[186]  F. D’Errico. “Comment on Bednarik, R.G., ‘Concept-mediated markings of the Lower Palaeolithic’.” Curr. Anthropol.?36?(1995): 618–620.
[187]  P. Mellars. “The impossible coincidence. A single-species model for the origins of modern human behavior in Europe.” Evol. Anthropol.?14?(2005): 12–27, doi:10.1002/evan.20037.
[188]  S. Oyama. Evolution’s Eye: A Systems View of the Biology-Culture Divide. Durham, NC, USA: Duke University Press, 2000.
[189]  S. Oyama, P.E. Griffiths, and R.D. Gray. Cycles of Contingency: Developmental Systems and Evolution. Cambridge, MA, USA: MIT Press, 2001.
[190]  F.J. Odling-Smee, K.N. Laland, and M.W. Feldman. Niche Construction: The Neglected Process in Evolution. Princeton, NJ, USA: Princeton University Press, 2003.
[191]  R.G. Bednarik. “On the cognitive development of hominids.” Man Environ.?15?(1990): 1–7.
[192]  K. Laland, J. Odling-Smee, and M.W. Feldman. “Niche construction, biological evolution and cultural change.” Behav. Brain Sci.?23?(2000): 131–175, doi:10.1017/S0140525X00002417.
[193]  J.B. Silk. “Social component of fitness in primate groups.” Science?317?(2007): 1347–1351, doi:10.1126/science.1140734.
[194]  T. Dobzhansky. Mankind Evolving: The Evolution of the Human Species. New Haven, CT, USA: Yale University Press, 1962.
[195]  T. Dobzhansky. “On the evolutionary uniqueness of man.” In Evolutionary Biology. Edited by T. Dobzhansky, M.K. Hecht, and W.C. Steere. New York, NY, USA: Appleton-Century-Crofts, 1972, pp. 415–430.
[196]  R. Boyd, and P.J. Richerson. The Origin and Evolution of Cultures. New York, NY, USA: Oxford University Press, 2005.
[197]  P.J. Richerson, and R. Boyd. Not by Genes Alone: How Culture Transformed Human Evolution. Chicago, IL, USA: University of Chicago Press, 2005.
[198]  A. Fuentes. Evolution of Human Behavior. New York, NY, USA; Oxford, UK: Oxford University Press, 2009.
[199]  J.G. Mendel. “Versuche über Pflanzen-Hybriden.” Verh. Naturforsch. Ver. Brünn?4?(1866): 3–47.
[200]  R.G. Bednarik. “The mythical moderns.” J. World Prehistory?21?(2008): 85–102, doi:10.1007/s10963-008-9009-8.
[201]  R.G. Bednarik. “Children as Pleistocene artists.” Rock Art Res.?25?(2008): 173–182.
[202]  R.G. Bednarik. “The domestication of humans.” Anthropologie?46?(2008): 1–17.
[203]  L.C. Aiello, and P. Wheeler. “The expensive-tissue hypothesis: The brain and the digestive system in human and primate evolution.” Curr. Anthropol.?36?(1995): 199–221, doi:10.1086/204350.
[204]  M. Biesele. Women Like Meat. The Folklore and Foraging Ideology of the Kalahari Ju/’Hoan. Johannesburg, South Africa: Witwatersrand University Press, 1993.
[205]  T. Deacon. The Symbolic Species. New York, NY, USA: Norton, 1997.
[206]  C. Boehm. “Egalitarian society and reverse dominance hierarchy.” Curr. Anthropol.?34?(1993): 227–254, doi:10.1086/204166.
[207]  C. Boehm. Hierarchy of the Forest: The Evolution of Egalitarian Behavior. Cambridge, MA, USA: Harvard University Press, 1999.
[208]  K. Grammer, and R. Thornhill. “Human facial attractiveness and sexual selection: The role of symmetry and averageness.” J. Comp. Psychol.?108?(1994): 233–242, doi:10.1037/0735-7036.108.3.233.
[209]  T.K. Shackelford, and R.J. Larsen. “Facial asymmetry as an indicator of psychological, emotional, and physiological distress.” J. Pers. Soc. Psychol.?72?(1997): 456–466, doi:10.1037/0022-3514.72.2.456.
[210]  D.M. Jones. “Sexual selection, physical attractiveness and facial neoteny: Cross-cultural evidence and implications.” Curr. Anthropol.?36?(1995): 723–748, doi:10.1086/204427.
[211]  D.M. Jones. “An evolutionary perspective on physical attractiveness.” Evol. Anthropol.?5?(1996): 97–109, doi:10.1002/(SICI)1520-6505(1996)5:3<97::AID-EVAN5>3.0.CO;2-T.
[212]  B. Delluc, and G. Delluc. “Les manifestations graphiques aurignaciens sur support rocheux des environs des Eyzies (Dordogne).” Gallia Préhistoire?21?(1978): 213–438, doi:10.3406/galip.1978.1593.
[213]  L. Chiotti, B. Delluc, and G. Delluc. “Art et parure aurignaciens de l’abri Pataud (Les Eyzies-de-Tayac, Dordogne, France) dans le contexte aurignacien Périgord.” In Les Chemins de L’art Aurignacien en Europe—Das Aurignacien und die Anf?nge der Kunst in Europa. Edited by H. Floss, and N. Rouquerol. Aurignac, France: éditions Musée-forum Aurignac, 2007, pp. 171–186.
[214]  R.G. Bednarik. “The Galgenberg figurine from Krems, Austria.” Rock Art Res.?6?(1989): 118–125.
[215]  N.J. Conard. “A female figurine from the basal Aurignacian of Hohle Fels cave in southwestern Germany.” Nature?459?(2009): 248–252, doi:10.1038/nature07995.
[216]  P. Mellars. “Origins of the female image.” Nature?459?(2009): 176–177, doi:10.1038/459176a.
[217]  K.N. Laland. “Sexual selection with a culturally transmitted mating preference.” Theor. Popul. Biol.?45?(1994): 1–15, doi:10.1006/tpbi.1994.1001.
[218]  L.L. Cavalli-Sforza, and M.W. Feldman. “Cultural vs. biological inheritance.” Am. J. Hum. Genet.?25?(1973): 618–637. 4797967
[219]  M.W. Feldman, and L.L. Cavalli-Sforza. “On the theory of evolution under genetic and cultural transmission with application to the lactose absorption problem.” In Mathematical Evolutionary Theory. Edited by M.W. Feldman. Princeton, USA, NJ: Princeton University Press, 1989, pp. 145–173.
[220]  K. Aoki, and M.W. Feldman. “Recessive hereditary deafness, assortative mating, and persistence of a sign language.” Theor. Popul. Biol.?39?(1991): 358–372, doi:10.1016/0040-5809(91)90029-F.
[221]  W.H. Durham. Coevolution: Genes, Culture, and Human Diversity. Stanford, CA, USA: Stanford University Press, 1991.
[222]  J.B.S. Haldane. The Causes of Evolution. Edited by London Longmans Green & Co.:. New York, NY, USA: Harper Brothers, 1932.
[223]  G.R. De Beer. Embryos and Ancestors. Oxford, UK: Oxford University Press, 1940.
[224]  M.F. Ashley Montagu. An Introduction to Physical Anthropology. Springfield, IL, USA: Thomas, 1960.
[225]  C.R. Badcock. The Psychoanalysis of Culture. Oxford, UK: Basil Blackwell, 1980.
[226]  G.R. De Beer. Embryology and Evolution. Oxford, UK: Oxford University Press, 1930.
[227]  W.R. Leonard. “Food for thought: Dietary change was a driving force in human evolution.” Sci. Am.?287?(2002): 106–115, doi:10.1038/scientificamerican1202-106.
[228]  W.R. Leonard, and M.L. Robertson. “Nutritional requirements and human evolution: A bioenergetics model.” Am. J. Hum. Biol.?4?(1992): 179–195, doi:10.1002/ajhb.1310040204.
[229]  W.R. Leonard, and M.L. Robertson. “Evolutionary perspectives on human nutrition: The influence of brain and body size on diet and metabolism.” Am. J. Hum. Biol.?6?(1994): 77–88, doi:10.1002/ajhb.1310060111.
[230]  W.R. Leonard, and M.L. Robertson. “Comparative primate energetics and hominid evolution.” Am. J. Phys. Anthropol.?102?(1997): 265–281, doi:10.1002/(SICI)1096-8644(199702)102:2<265::AID-AJPA8>3.0.CO;2-X.
[231]  P. Andolfatto. “Adaptive hitchhiking effects on genome variability.” Curr. Opin. Genet. Dev.?11?(2001): 635–641, doi:10.1016/S0959-437X(00)00246-X.
[232]  J. Lu, T. Tang, H. Tang, J. Huang, S. Shi, and C.-I. Wu. “The accumulation of deleterious mutations in rice genomes: A hypothesis on the cost of domestication.” Trends Genet.?22?(2006): 126–131, doi:10.1016/j.tig.2006.01.004.
[233]  D.C. Rubinsztein, W. Amos, J. Leggo, S. Goodburn, R.S. Ramesar, J. Old, R. Dontrop, R. McMahon, D.E. Barton, and M.A. Ferguson-Smith. “Mutational bias provides a model for the evolution of Huntington’s disease and predicts a general increase in disease prevalence.” Nat. Genet.?7?(1994): 525–530, doi:10.1038/ng0894-525.
[234]  L.C. Walker, and L.C. Cork. “The neurobiology of aging in nonhuman primates.” In Alzheimer’s Disease, 2nd. Edited by R.D. Terry, R. Katzman, K.L. Bick, and S.S. Sisodia. New York, NY, USA: Lippincott Williams and Wilkins, 1999, pp. 233–243.
[235]  M.V. Olson, and A. Varki. “Sequencing the chimpanzee genome: Insights into human evolution and disease.” Nat. Rev. Genet.?4?(2003): 20–28, doi:10.1038/nrg981.
[236]  R.G. Bednarik, and P.A. Helvenston. “The nexus between neurodegeneration and advanced cognitive abilities.” Anthropos?106. (in press)?(2011).
[237]  C.C. Sherwood, A.D. Gordon, J.S. Allen, K.A. Phillips, J.M. Erwin, P.R. Hof, and W.D. Hopkins. “Aging of the cerebral cortex differs between humans and chimpanzees.” Proc. Natl. Acad. Sci. USA,?2011, doi:10.1073/pnas.1016709108.
[238]  M. Marvanová, J. Ménager, E. Bezard, R.E. Bontrop, L. Pradier, and G. Wong. “Microarray analysis of nonhuman primates: Validation of experimental models in neurological disorders.” FASEB J.?17?(2003): 929–931. 12626435
[239]  W. Enard, P. Khaitovich, J. Klose1, F. Heissig, S. Z?llner, P. Giavalisco, K. Nieselt-Struwe, E. Muchmore, A. Varki, R. Ravid, and et al. “Intra- and interspecific variation in primate gene expression patterns.” Science?296?(2002): 340–343, doi:10.1126/science.1068996. 11951044
[240]  G. Arora, N. Polavarapu, and J.F. McDonald. “Did natural selection for increased cognitive ability in humans lead to an elevated risk for cancer?” Med. Hypotheses?73?(2009): 453–436, doi:10.1016/j.mehy.2009.03.035. 19409719
[241]  D. Horrobin. The Madness of Adam and Eve: How Schizophrenia Shaped Humanity. London, UK: Bantam Press, 2002.
[242]  S.W. Gangestad, and R.W. Yeo. “Behavioral genetic variation, adaptation and maladaptation: An evolutionary perspective.” Trends Cognit. Sci.?1?(1997): 103–108, doi:10.1016/S1364-6613(97)89056-0.
[243]  M.C. Keller, and G. Miller. “Resolving the paradox of common, harmful, heritable mental disorders: Which evolutionary genetic models work best?” Beha. Brain Sci.?29?(2006): 385–452.
[244]  M.C. Keller. “The evolutionary persistence of genes that increase mental disorders risk.” Curr. Dir. Psychol. Sci.?17?(2008): 395–399, doi:10.1111/j.1467-8721.2008.00613.x.
[245]  M.M. Brown, C. Kaplan, L.A. Jason, and C.B. Keys. “Subgroups of chronic fatigue syndrome based on psychiatric disorder onset and current psychiatric status.” Health?2?(2010): 90–96, doi:10.4236/health.2010.22015.
[246]  J.M. Castellano, J Kim, F.R. Stewart, H. Jiang, R.B. DeMattos, B.W. Patterson, A.M Fagan, J.C. Morris, K.G. Mawuenyega, C. Cruchaga, and et al. “Human apoE isoforms differentially regulate blain amyloid-β peptide clearance.” Sci. Transl. Med.?3?(2011): 89, doi:10.1126/scitranslmed.3002156.
[247]  B.T. Hyman, G.W. van Hoesen, A.R. Damasio, and C.L. Barnes. “Alzheimer’s disease: Cell-specific pathology isolates the hippocampal formation.” Science?225?(1984): 1168–1170, doi:10.1126/science.6474172. 6474172
[248]  D.A. Smith. “Imaging the progression of Alzheimer pathology through the brain.” Proc. Natl. Acad. Sci. USA?99?(2002): 4135–4137, doi:10.1073/pnas.082107399. 11929987
[249]  W.W. Seeley, D.A. Carlin, and J.M. Allman. “Early frontotemporal dementia targets neurons unique to apes and humans.” Ann. Neurol.?60?(2006): 660–667, doi:10.1002/ana.21055. 17187353
[250]  W.W. Seeley, J.M. Allman, D.A. Carlin, R.K. Crawford, M.N. Macedo, M.D. Greicius, S.J. Dearmond, and B.L. Miller. “Divergent social functioning in behavioral variant frontotemporal dementia and Alzheimer disease: Reciprocal networks and neuronal evolution.” Alzheimer Dis. Assoc. Disord.?21?(2007): S50–S57, doi:10.1097/WAD.0b013e31815c0f14.
[251]  J.M. Schwartz, and S. Begley. The Mind and the Brain: Neuroplasticity and the Power of Mental Force. New York, NY, USA: HarperCollins, 2002.
[252]  F.K. Goodwin, and K.R. Jamison. Manic Depressive Illness. Oxford, UK: Oxford University Press, 1990.
[253]  N. Craddock, and I. Jones. “Genetics of bipolar disorder: Review article.” J. Med. Genet.?26?(1999): 585–594.
[254]  J.J. Schildkraut. “The catecholamine hypothesis of affective disorders: A review of supporting evidence.” Am. J. Psychiatry?122?(1965): 509–528. 5319766
[255]  M.P. Vawter, W.J. Freed, and J.E. Kleinman. “Neuropathology of bipolar disorder.” Biol. Psychiatr.?48?(2000): 486–504, doi:10.1016/S0006-3223(00)00978-1.
[256]  G. Rajkowska. “Reductions in neuronal and glial density characterize the dorsolateral prefrontal cortex in bipolar disorder.” Biol. Psychiatr.?49?(2009): 741–752, doi:10.1016/S0006-3223(01)01080-0.
[257]  J. Hwang, I.K. Lyoo, S.R. Dager, S.D. Friedman, J.S. Oh, J.Y. Lee, S.J. Kim, D.L. Dunner, and P.F. Renshaw. “Basal ganglia shape alterations in bipolar disorder.” Am. J. Psychiatr.?163?(2006): 276–285, doi:10.1176/appi.ajp.163.2.276.
[258]  M. Preisig, F. Ferrero, and A. Malafosse. “Monoamine oxidase a and tryptophan hydroxylase gene polymorphisms: Are they associated in bipolar disorder?” Am. J. Pharmacogenet.?5?(2005): 45–52, doi:10.2165/00129785-200505010-00004.
[259]  N. Kuroki, M.E. Shenton, D.F. Salisbury, Y. Hirayasu, T. Onitsuka, H. Ersner-Hershfield, D. Yurgelun-Todd, R. Kikinis, F.A. Jolesz, and R.W. McCarley. “Middle and inferior temporal gyrus gray matter volume abnormalities in first-episode schizophrenia: An MRI study.” Am. J. Psychiatr.?163?(2006): 2103–2110, doi:10.1176/appi.ajp.163.12.2103.
[260]  P.J. Harrison. “The neuropathology of schizophrenia: A critical review of the data and their interpretation.” Brain?122?(1999): 593–624, doi:10.1093/brain/122.4.593.
[261]  D.H. Mathalon, and J.M. Ford. “Divergent approaches converge on frontal lobe dysfunction in schizophrenia.” Am. J. Psychiatr.?154?(2008): 944–948, doi:10.1176/appi.ajp.2008.08050735.
[262]  J.M. McClellan, E. Susser, and M.C. King. “Schizophrenia: A common disease caused by multiple rare alleles.” Br. J. Psychiatr.?190?(2007): 194–199, doi:10.1192/bjp.bp.106.025585.
[263]  C.A. Tamminga, G.K. Thaker, R. Buchanan, B. Kirkpatrick, L.D. Alphs, T.N. Chase, and W.T. Carpenter. “Limbic system abnormalities identified in schizophrenia using PET with fluorodeoxyglucose.” Arch. Gen. Psychiatr.?49?(1992): 522–530, doi:10.1001/archpsyc.1992.01820070016003.
[264]  H.J. Cho, I. Meira-Lima, Q. Cordeiro, L. Michelon, P.C. Sham, H. Vallada, and D.A. Collier. “Population-based and family-based studies on the serotonin transporter gene polymorphisms and bipolar disorder: A systematic review and meta-analysis.” Mol. Psychiatr.?10?(2005): 771–781, doi:10.1038/sj.mp.4001663.
[265]  D. Li, D.A. Collier, and L. He. “Meta-analysis shows strong positive association of the neuregulin 1 (NRG1) gene with schizophrenia.” Hum. Mol. Genet.?15?(2006): 1995–2002, doi:10.1093/hmg/ddl122.
[266]  M. Sailor, B. Fischl, D. Salat, C. Tempelmann, E. Busa, N. Bodammer, H.-J. Heinzel, and A. Dale. “Focal cortical thinning of the cerebral cortex in multiple sclerosis.” Brain?126?(2003): 1734–1744, doi:10.1093/brain/awg175.
[267]  C.E. Lumsden. “The neuropathology of multiple sclerosis.” In Handook of Clinical Neurology. Edited by P.J. Vinken, and G.W. Bruyn. Amsterdam, The Netherlands: North-Holland, 1970, Volume 9, pp. 217–309.
[268]  C. Wegner, and P.M. Mathews. “A new view of the cortex, new insights into multiple sclerosis.” Brain?126?(2003): 1810–1821.
[269]  J.M. Allman, K.K. Watson, N.A. Tetreault, and A.Y. Hakeem. “Intuition and autism: A possible role for von Economo neurons.” Trends Cognit. Sci.?9?(2005): 367–373, doi:10.1016/j.tics.2005.06.008.
[270]  D.P. Kennedy, K. Semendeferi, and E. Courchesne. “No reduction of spindle neuron number in the frontoinsular cortex in autism.” Brain Cognit.?64?(2007): 124–129, doi:10.1016/j.bandc.2007.01.007.
[271]  C. Hughes, I. Soares-Boucaud, J. Hochmann, and U. Frith. “Social behaviour in pervasive developmental disorders: Effects of informant, group and ‘theory-of-mind’.” Eur. Child Adolesc. Psychiatr.?6?(1997): 191–198.
[272]  D.F. Benson, and D. Blumer. Psychiatric Aspects of Neurologic Disease. New York, NY, USA: Grune and Stratton, 1975.
[273]  F.O. Volle, and P.A. Heron-Helvenston. Epilepsy and You. Springfield, IL, USA: Charles C. Thomas Publishing Company, 1979.
[274]  A.R. Damasio, D. Tranel, and H. Damasio. “Individuals with sociopathic behavior caused by frontal damage fail to respond autonomically to social stimuli.” Behav. Brain Res.?41?(1990): 81–94, doi:10.1016/0166-4328(90)90144-4.
[275]  K. Brodmann. “Neue Ergebnisse über die vergleichende histologische Lokalisation der Grosshirnrinde mit besonderer Berücksichtigung des Stirnhirns.” Anat. Anz.?41?(1912): 157–216.
[276]  K. Semendeferi. “Advances in the study of hominoid brain evolution: Magnetic resonance imaging (MRI) and a 3-D reconstruction.” In Evolutionary Anatomy of the Primate Cerebral Cortex. Edited by D. Falk, and K.R. Gibson. Cambridge, UK: Cambridge University Press, 2001.
[277]  A.R. Damasio. “The frontal lobes.” In Clinical Neuropsychology. Edited by K. Heilman, and H. Valenstein. Oxford, UK: Oxford University Press, 1985, pp. 339–375.
[278]  D. Hodgson, and P.A. Helvenston. “The emergence of the representation of animals in palaeoart: Insights from evolution and the cognitive, limbic and visual systems of the human brain.” Rock Art Res.?23?(2006): 3–40.
[279]  E.A. Nimchinsky, E. Gilissen, J.M. Allman, D.P. Perl, J.M. Erwin, and P. Hof. “A neuronal morphologic type unique to humans and great apes.” Proc. Natl. Acad. Sci. USA?96?(1999): 5268–5273, doi:10.1073/pnas.96.9.5268. 10220455
[280]  K.K. Watson, T.K. Kones, and J.M. Allman. “Dendritic architecture of the von Economo neurons.” Neuroscience?141?(2006): 1107–1112, doi:10.1016/j.neuroscience.2006.04.084.
[281]  J. Allman, A. Hakeem, and K. Watson. “Two phylogenetic specializations in the human brain.” Neuroscientist?4?(2002): 335–345.
[282]  M. Hayashi. “Spindle neurons in the anterior cingulate cortex of humans and great apes.” In Cognitive Development in Chimps. Edited by T. Matsuzawa, M. Tomonaga, and M. Tanaka. Tokyo, Japan: Springer-Verlag, 2006, pp. 64–74.
[283]  D. Sridharan, D.J. Levitin, and V. Menon. “A critical role for the right fronto-insular cortex in switching between central-executive and default-mode networks.” Proc. Natl. Acad. Sci. USA?105?(2008): 12569–12574, doi:10.1073/pnas.0800005105.
[284]  T.M. Preuss, and G.Q. Coleman. “Human-specific organization of primary visual cortex: Alternating compartments of dense Cat-301 and calbindin immunoreacitivity in layer 4A.” Cereb. Cortex?12?(2002): 671–691, doi:10.1093/cercor/12.7.671.
[285]  D. Buxhoeveden, and M.F. Casanova. “The minicolumn and evolution of the brain.” Brain Behav. Evol.?60?(2002): 125–151, doi:10.1159/000065935.
[286]  C.C. Sherwood, J.K. Rilling, R.L. Holloway, and P.R. Hof. “Evolution of the brain in humans: Specializations in a comparative perspective.” In Encyclopedia of Neuroscience. Edited by M.D. Binder, N. Hirokawa, and U. Windhorst. Berlin, Germany: Springer, 2009, pp. 1334–1338.
[287]  E.M. Ullian, S.K. Sapperstein, K.S. Christopherson, and B. Barres. “Control of synapse number by glia.” Science?291?(2001): 569–570. 11229391
[288]  E.M. Ullian, B.T. Harris, A. Wu, J.R. Chan, and B.A. Barres. “Schwann cells and astrocytes induce synapse formation by spinal motor neurons in culture.” Mol. Cell. Neurosci.?25?(2004): 241–251, doi:10.1016/j.mcn.2003.10.011.
[289]  B.A. Barres. “The mystery and magic of glia: A perspective on their roles in health and disease.” Neuron?60?(2008): 430–440, doi:10.1016/j.neuron.2008.10.013.
[290]  P.R. Hof, and E. van der Gucht. “Structure of the cerebral cortex of the humpback whale. Megaptera novaeangliae (Cetacea, Mysticeti, Balaenopteridae).” Anat. Rec.?290?(2007): 1–31, doi:10.1002/ar.20407.
[291]  C. Butti, C.C. Sherwood, A.Y. Hakeem, and J.M. Allman. “Total number and volume of von Economo neurons in the cerebral cortex of cetaceans.” J. Comp. Neurol.?515?(2009): 243–259, doi:10.1002/cne.22055.
[292]  A.Y. Hakeem, C.C. Sherwood, C.J. Bonar, C. Butti, P.R. Hof, and J.M. Allman. “Von Economo neurons in the elephant brain.” Anat. Rec.?292?(2009): 242–248, doi:10.1002/ar.20829.
[293]  J. Allman, A. Hakeem, J.M. Erwin, E. Nimchinsky, and P. Hof. “The anterior cingulate cortex: The evolution of an interface between emotion and cognition.” Ann. New York Acad. Sci.?935?(2001): 107–117.
[294]  E.A. Nimchinsky, B.A. Vogt, J.H. Morrison, and P.R. Hof. “Spindle neurons of the human anterior cingulate cortex.” J. Comp. Neurol.?355?(1995): 27–37, doi:10.1002/cne.903550106.
[295]  K. Semendeferi. “Evolution of the Hominoid Prefrontal Cortex: A Quantitative and Image Analysis of Areas 13 and 10.” Ph.D. Dissertation, University of Iowa, Iowa City, IA, USA, 1994.
[296]  L. Heimer, G.W. Van Hoesen, M. Trimble, and D.S. Zahm. Anatomy of Neuropsychiatry: The New Anatomy of the Basal Forebrain and Its Implications for Neuropsychiatric Illness. Burlington, NJ, USA: Academic Press, 2007.
[297]  M.S. Mega, and J. Cummings. “The cingulate and cingulate syndromes.” In Contemporary Behavioural Neurology. Edited by M.R. Trimble, and J.L. Cummings. Oxford, UK: Butterworths, 1997, pp. 189–214.
[298]  R. Adolphs, D. Tranel, H. Damasio, and A.R. Damasio. “Impaired recognition of emotion in facial expression following bilateral damage in the human amygdala.” Nature?372?(1994): 669–672, doi:10.1038/372669a0.
[299]  R.D. Adolphs, D. Tranel, S. Hamann, A.W. Young, A.J. Calder, E.A. Phelps, A. Anderson, G.P. Lee, and A.R. Damasio. “Recognition of facial emotion in nine subjects with bilateral amygdala damage.” Neuropsychologia?37?(1999): 1111–1117, doi:10.1016/S0028-3932(99)00039-1.
[300]  L.M. Frank, E.N. Brown, and M.A. Wilson. “Trajectory encoding in the hippocampus and entorhinal cortex.” Neuron?27?(2000): 169–178, doi:10.1016/S0896-6273(00)00018-0.
[301]  P. Gloor. “Experiential phenomena of temporal lobe epilepsy.” Brain?113?(1990): 1673–1694, doi:10.1093/brain/113.6.1673.
[302]  P. Gloor. “Role of the amygdala in temporal lobe epilepsy.” In The Amygdala. Edited by A.P. Aggleton. New York, NY, USA: Wiley-Liss Press, 1992.
[303]  T.M. Preuss. “The discovery of cerebral diversity: An unwelcome scientific revolution.” In Evolutionary Anatomy of the Primate Cerebral Cortex. Edited by D. Falk, and K.R. Gibson. Cambridge, MA, USA: Cambridge University Press, 2001, pp. 138–164.
[304]  T.M. Preuss, and J.H. Kaas. “Human brain evolution.” In Fundamental Neuroscience. Edited by F.E. Bloom, S.C. Landes, J.L. Robert, L.R. Squire, and M.J. Zigmond. San Diego, CA, USA: Academic Press, 1999, pp. 1283–1311.
[305]  R.L. Holloway. “Toward a synthetic theory of human brain evolution.” In Origins of the Human Brain. Edited by J.P. Changeaux, and J. Chavillon. Oxford, UK: Clarendon Press, 1995, pp. 42–55.
[306]  R.L. Holloway. “Evolution of the human brain.” In Handbook of Human Symbolic Evolution. Edited by A. Lock, and C. Peters. Oxford, UK: Clarendon Press, 1996, pp. 74–116.
[307]  R.L. Holloway. “Revisiting australopithecine visual striate cortex: Newer data from chimpanzee and human brains suggest it could have been reduced during australopithecine times.” In Evolutionary Anatomy of the Primate Cerebral Cortex. Edited by D. Falk, and K.R. Gibson. New York, NY, USA: Cambridge University Press, 2001, pp. 177–186.
[308]  R.-A. Rathelot, and P.L. Strick. “Subdivisions of primary motor cortex based on cortico-motoneuronal cells.” Proc. Natl. Acad. Sci. USA?106?(2009): 918–923, doi:10.1073/pnas.0808362106.
[309]  H.C. Leiner, A.L. Leiner, and R.S. Dow. “Human brain map.” In The Cerebellum and Cognition. Edited by J.D. Schmahmann. San Diego, CA, USA: Academic Press, 1995, p. 244.
[310]  R.-A. Mueller, and E. Courchesne. “The cerebellum: So much more.” Science?181?(1998): 879–880.
[311]  N. Geschwind, and W. Levitsky. “Human brain: Left-right asymmetries in temporal speech region.” Science?161?(1968): 186–187, doi:10.1126/science.161.3837.186. 5657070
[312]  P.J. Gannon, R.L. Holloway, D.C. Broadfield, and A.R. Braun. “Asymmetry of chimpanzee planum temporale: Humanlike pattern of Wernicke’s brain language area homolog.” Science?279?(1998): 220–222, doi:10.1126/science.279.5348.220.
[313]  P.J. Gannon, N.M. Kheck, and P.R. Hof. “Language areas of the hominoid brain: A dynamic communicative shift on the upper east side planum.” In Evolutionary Anatomy of the Primate Cerebral Cortex. Edited by D. Falk, and K.R. Gibson. New York, NY, USA: Cambridge University Press, 2001, pp. 216–240.
[314]  I. Stepniewska, T.M. Preuss, and J.H. Kaas. “Architectonics, somatotopic organization and ipsilateral cortical connections of the primary motor area (M1) of owl monkeys.” J. Comp. Neurol.?330?(1993): 238–271, doi:10.1002/cne.903300207.
[315]  D. Buxhoeveden, W. Lefkowitz, P. Loats, and E. Armstrong. “The linear organization of cell columns in human and nonhuman anthropoid Tpt cortex.” Anat. Embryol.?194?(1996): 23–36. 8800420
[316]  H.J. Jerison. Evolution of the Brain and Intelligence. New York, NY, USA: Academic Press, 1973.
[317]  B. Kolb, and I.Q. Whishaw. Fundamentals of Human Neuropsychology, 6th ed.. New York, NY, USA: Worth Publishing Co., 2008.
[318]  R. Martin. “Scaling of the mammalian brain: The maternal energy hypothesis.” News Physiol. Sci.?11?(1996): 149–156.
[319]  S.M. Blinkov, and I.I. Glezer. The Human Brain in Figures and Tables: A Quantitative Handbook. New York, NY, USA: Basic Books, Inc., Plenum Press, 1968.
[320]  K. Semendeferi. “The evolution of the frontal lobes: A volumetric analysis based on three-dimensional reconstruction’s of magnetic resonance scans of human and ape brains.” J. Hum. Evol.?32?(1997): 375–388, doi:10.1006/jhev.1996.0099.
[321]  P.M. Kaskan, and B.L. Finley. “Encephalization and its developmental structure: How many ways can a brain get big.” In Evolutionary Anatomy of the Primate Cerebral Cortex. Edited by D. Falk, and K.R. Gibson. New York, NY, USA: Cambridge University Press, 2001, pp. 14–29.
[322]  P. Rakic, and D.R. Kornack. “Neocortical expansion and elaboration during primate evolution: A view from neuroembryology.” In Evolutionary Anatomy of the Primate Cerebral Cortex. Edited by D. Falk, and K.R. Gibson. New York, NY, USA: Cambridge University Press, 2001, pp. 30–56.
[323]  R. Ochse. Before the Gates of Excellence: The Determinants of Creative Genius. Cambridge, UK: Cambridge University Press, 1990.
[324]  R.G. Bednarik. “Neurophysiology and palaeoart.” AURA Newsl.?25?(2008): 6–16.
[325]  E.H. Hare. “Schizophrenia as a recent disease.” Br. J. Psychiatr.?153?(1988): 521–531, doi:10.1192/bjp.153.4.521.
[326]  B.F. Voight, S. Kudaravalli, X. Wen, and J.K. Pritchard. “A map of recent positive selection in the human genome.” PLoS Biol.?4?(2006): e72, doi:10.1371/journal.pbio.0040072.
[327]  S. Wright. “The evolution of dominance.” Am. Nat.?63?(1929): 556–561, doi:10.1086/280290.
[328]  M. Kimura. “Evolutionary rate at the molecular level.” Nature?217?(1968): 624–626, doi:10.1038/217624a0.
[329]  M. Kimura. The Neutral Theory of Molecular Evolution. Cambridge, UK: Cambridge University Press, 1983.
[330]  D.T. Suzuki, A.J.F. Griffiths, J.H. Miller, and R.C. Lewontin. An Introduction to Genetic Analysis, 4th ed.. New York, NY, USA: W. H. Freeman, 1989.
[331]  R.G. Bednarik. “The initial peopling of Wallacea and Sahul.” Anthropos?92?(1997): 355–367.
[332]  R.G. Bednarik. “The origins of navigation and language.” Artefact?20?(1997): 16–56.
[333]  R.G. Bednarik. “The earliest evidence of ocean navigation.” Int. J. Nautic. Archaeol.?26?(1997): 183–191.
[334]  R.G. Bednarik. “Maritime navigation in the Lower and Middle Palaeolithic.” C. R. L’Académie Sci. Series IIA?328?(1999): 559–563.
[335]  R.G. Bednarik. “Pleistocene seafaring in the Mediterranean.” Anthropologie?37?(1999): 275–282.
[336]  R.G. Bednarik. “Bednarik, R.G.” Quart?r?49/50?(1999): 95–109.
[337]  R.G. Bednarik. “Replicating the first known sea travel by humans: The Lower Pleistocene crossing of Lombok Strait.” Hum. Evol.?16?(2001): 229–242, doi:10.1007/BF02437414.
[338]  R.G. Bednarik. “Seafaring in the Pleistocene.” Camb. Archaeol. J.?13?(2003): 41–66, doi:10.1017/S0959774303000039.
[339]  R.G. Bednarik. “Early seafaring.” In Encyclopaedia of the History of Science, Technology, and Medicine in Non-Western Cultures. Edited by H. Selin. Dortrecht, The Netherlands: Springer, 2008, pp. 1978–1983.

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