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Escrito por Dr. Jesús García Ruiz
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Capítulo 1º. Filogenía del laberinto posterior. Alvarez del Villar. Los Cordados: origen, evolución y hábitos de los vertebrados. 1979; 3ª Ed. Continental. México. 372 p. Arkhipkin A. Statolith microstructure and maximum age of Loligo gahi (Myopsida: Loliginidae) on the Patagonian shelf. J. Mar. Biol. Ass. U.K. 1993;73:979-982. Clarke MR. The cephalopod statolith - an introduction to its form. J. Mar. Biol. Ass. U.K., 1978;58: 701-712.rdier R, Dalcq A. L´organe stato-acoustique. In Grasse PP ed. Traité de Zoologie. T. XII. Masson. Paris 1954;p 453-421. Danevig EH. Chemical composition of the zones in cod otoliths. J. Cons Peur Ing. Explor. Mer 1956;21:156–159. Gómez Bosque P. y cols. El Sistema Nervioso Central. Morfología, Estructuración y Funciones. Ed. Sever-Cuesta, Valladolid. 1968. Irie T. On the forming season of annual rings (opaque and translucent zones) in the otoliths of several marine teleosts. J. Fac. Fish. Anim. Husb. Hiroshima Univ. 1957;1-311–317.2001. Lehman JP. Les preuves paleontologiques de l´evolution. PUF. Paris 1973;83-92. Maniglia AJ, Noyek AM. Phylogeny and its clinical significance. Otolaryngol Clin North Am. 1981;14(1):39-46. Neumeister H, Budelmann BU. Structure and function of the Nautilus statocyst. Philos Trans R Soc Lond B Biol Sci. 1997 29;352(1361):1565-88. Pineda SE, Hernández DR, Brunetti NE. Statolith comparison of two south-west Atlantic loliginid squid: Loligo sanpaulensis and Loligo gahi. S. Afr. J. Mar. Sci. 1998;20: 347-354. Spoor F, Wood B, Zonneveld F. Implications of early hominid labyrinthine morphology for evolution of human bipedal locomotion. Nature. 1994; 23;369(6482):645-8. Wood B. Human evolution. Bioessays. 1996;18(12):945-54. Spoor F, Hublin JJ, Braun M, Zonneveld F. The bony labyrinth of Neanderthals. J Hum Evol 2003;44(2):141-65. Weichert CH, Precsch YW. Elementos de Anatomía de los Cordados. 2a edición, Ed. McGraw-Hill de México 1981; 531 p.
Capítulo 2º. Filogenia del órgano auditivo. Beaumont A, Cassier P. Organe stato-acoustique. In biologie animale. Anatomie comparée des vertebrés. 4ª ed. Dunod. Paris 1980;262-263. Bernstein P. The ear region of Latimeria chalumnae: functional and evolutionary implications. Zoology (Jena) 2003;106(3):233-42. Coleman MN, Ross CF. Primate auditory diversity and its influence on hearing performance. Anat Rec A Discov Mol Cell Evol Biol 2004;281(1):1123-37. Devillers CH. Origine de l´óreille moyenne des mammiféres in: Preveleau J ed. Traité de Paléontogie. T. VI. Vol I. Masson. Paris 1961;371-407. Francis-West PH, Ladher RK, Schoenwolf GC. Development of the sensory organs. Sci Prog. 2002;85(Pt 2):151-73. Goodrich ES. Middle ear and ear ossicles. In: studies on the structure and development of vertebrates. Dover. New York 1958;1063-1093. Manley GA, Koppl C. Phylogenetic development of the cochlea and its innervation. Curr Opin Neurobiol 1998;8(4):468-74. Manley GA. Cochlear mechanisms from a phylogenetic viewpoint. Proc Natl Acad Sci U S A. 2000;24;97(22):11736-43. Morales J, Garcia-Martinez V, Sanchez-Quintana D, Ambel A. Morphological correlations of hearing in the phylogenetic scale: Mauremys caspica. Prog Clin Biol Res 1989;295:537-41. Rowe T. Coevolution of the mammalian middle ear and neocortex. Science. 1996;2;273:651-4. Sanchez-Villagra MR, Gemballa S, Nummela S, Smith KK, Maier W. Ontogenetic and phylogenetic transformations of the ear ossicles in marsupial mammals. J Morphol 2002;251(3):219-38. Thewissen JGM, Hussain ST. Origin of underwater hearing in whales. Nature 1993;361: 444-445.▪ Edgecomb RS, Robert D, Read MP, Hoy RR. The tympanal hearing organ of a fly: phylogenetic analysis of its morphological origins.Cell Tissue Res 1995;282(2):251-68.
Capítulo 3º. Filogenia nasal. Barnabe C, Brisse S, Tibayrenc M. Phylogenetic diversity of bat trypanosomes of subgenus Schizotrypanum based on multilocus enzyme electrophoresis, random amplified polymorphic DNA, and cytochrome b nucleotide sequence analyses. Infect Genet Evol 2003;2(3):201-8.Bhatnagar KP, Meisami E. Vomeronasal organ in bats and primates: extremes of structural variability and its phylogenetic implications. Microsc Res Tech 1998;15;43(6):465-75. Eisthen HL. Phylogeny of the vomeronasal system and of receptor cell types in the olfactory and vomeronasal epithelia of vertebrates. Microsc Res Tech 1992;1;23(1):1-21. Eisthen HL. Evolution of vertebrate olfactory systems. Brain Behav Evol 1997;50(4):222-33. Gil-Carcedo LM, Vallejo LA, Gil-Carcedo E. Structure of the principal olfactory tract. Otolaryngol Head Neck Surg 2000;122(1):129-38. Meisami E, Bhatnagar KP. Structure and diversity in mammalian accessory olfactory bulb. Microsc Res Tech 1998;15;43(6):476-99. Padilla JF. Estudio comparativo de los cuerpos cavernosos nasales. Especie humana y algunos mamiferos. Acta Otorrinolaring Esp 1980;31:343-354. Rich et al. Independent Origins of Middle Ear Bones in Monotremes and Therians. Science 2005;307:910-914. Young JZ. The life of vertebrates. Clarendon Press. Oxford 1981. Smith TD, Siegel MI, Bhatnagar KP. Observations on the vomeronasal organ of prenatal Tarsius bancanus borneanus with implications for ancestral morphology. J Anat 2003;203(5):473-81. Young JZ. The life of vertebrates. Clarendon Press. Oxford 1981. Zhang J, Webb DM. Evolutionary deterioration of the vomeronasal pheromone transduction pathway in catarrhine primates. Proc Natl Acad Sci U S A. 2003;100(14):8337-41. Para visualizar el resto del capítulo descargar tema completo
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Actualizado ( Viernes, 20 de Enero de 2012 16:32 )
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