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.
  • Garcia de la Torre, Emilio. Equilibrio desde el principio. Discurso de Ingreso como Académico Correspondiente en la Real Academia de Ciencias Veterinarias de Andalucía Oriental.
  • 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.  
 
    Capítulo 4º. Filogenia de los senos paranasales.
  • Carroll RL. & Lindsay W. Cranial anatomy of the primitive reptile Procolophon. Canadian Journal of Earth Sciences, 1985;22:1571-1587.
  • Negus V. The comparative anatomy and physiology of the nose and paranasal sinuses. Edinburgh:E &SLivingstone. 1958.
  • Nishimura TD, Takai M, Tsubamoto T, Egi N, Shigehara N. Variation in maxillary sinus anatomy among platyrrhine monkeys. J Hum Evol, 2005;49(3):370-89.  
  • Romer AS, Parsons TS. Anatomía Comparada. 5a edición. Ed. Interamericana. México, 1981;p 428.
  • Rossie JB. Platyrrhine paranasal sinus patterns: a preliminary investigation. American Journal of Physical Anthropology, 2000;Suppl.30:265.  
  • Rossie JB. Ontogeny and homology of platyrrhine paranasal sinuses. Journal of Morphology, 2005; 263.
  • Witmer L. The evolution of the antorbital cavity of archosaurs:a study in soft-tissue reconstruction in the fossil record with an analysis ofthe function of pneumaticity. Soc Vert Paleo Mem, 1977;3:1-73.  
 
   Capítulo 5º. Filogenia de la faringe y la boca.
  • De Beer. The Development of the Vertebrate Skull. The University of Chicago Press. Chicago and London, 1985;552 p.
  • Endo H, Manglai, Fujisawa M, Kurohmaru M, Hayashi Y. The guttural pouch is not present in the white rhinoceros (Ceratotherium simum); morphology of the eustachian tube and nasopharynx. Anat Histol Embryol, 1998;27(5):327-30.  
  • Gaengler P, Metzler E. The periodontal differentiation in the phylogeny of teeth--an overview. J Periodontal Res, 1992;27(3):214-25.  
  • Kangas AT, Evans AR, Thesleff I, Jernvall J. Nonindependence of mammalian dental characters. Nature, 2004;432(7014):211-4.  
  • Kardong KV. Vertebrates. Comparative Anatomy, Function and Evolution. Second Edition. WCB McGraw-Hill. 747pp. 1998.
  • Linde M, Palmer M, Gomez-Zurita J. Differential correlates of diet and phylogeny on the shape of the premaxilla and anterior tooth in sparid fishes (Perciformes: Sparidae). J Evol Biol, 2004;17(5):941-52.  
  • Smith MM, Coates MI. Evolutionary origins of the vertebrate dentition: phylogenetic patterns and developmental evolution. Eur J Oral Sci, 1998;106 Suppl 1:482-500. 
  • Smith MM, Johanson Z. Separate evolutionary origins of teeth from evidence in fossil jawed vertebrates. Science, 2003;299(5610):1235-6.  
 
 Capítulo 6º. Filogenia de la laringe.
  • Barastegui Almagro. Los órganos de los sentidos. Ed. Jover. 1980.
  • Castro R. Temas de biología animal. Anatomía funcional comparada. Ed. OMEGA S.A. 1977.
  • Gargaglioni LH, Meier JT, Branco LG, Milsom WK. Role of midbrain in the control of breathing in anuran amphibians. Am J Physiol Regul Integr Comp Physiol, 2007;293(1):R447-57.  
  • Hewitt G, MacLarnon A, Jones KE. The functions of laryngeal air sacs in primates: a new hypothesis. Folia Primatol (Basel), 2002;73(2-3):70.  
  • Kabak M, Orhan IO, Haziroglu RM. The gross anatomy of larynx, trachea and syrinx in the long-legged buzzard (Buteo rufinus) Anat Histol Embryol, 2007;36(1):27-32.
  • Kelemen G. Comparative anatomical study on the junction of larynx and resonant tubes. Acta Otolar, 1938;26:276.  
  • Kelemen G. The vocal organ of the hpwling monkey. Jour Morph, 1960;107:123.
  • Schlumberger et al. Etude d´histologie et de biologie comparée du larynx des primates. Annales d´ORL, 1970:87:189-198.
  • Munhall KG, Byrne SK. Animal communication: big talkers and small talk. Curr Biol, 2007;3;17(7):R247-9.  
  • Negus V. Comparative anatomy and physiology of the larynx. Grune Stratton. 1949.
  • Negus VE. L´évolution des organes vocaux de l´animal à l´homme. In: La voix. Cours international de phonologie et de pnoniatrie. Parix: Maloine, 1953;381-386.
  • Reidenberg JS. Anatomical adaptations of aquatic mammals. Anat Rec (Hoboken). 2007 Jun;290(6):507-13.  
  • Wilson G. Some points in the comparative anatomy of the larynx in the anthropoids. Ann Otol, 1910;19:915.
  • Wind J. On the pahylogeny and the ontogeny of the human larynx, a morphological and functional study. Groningen: Wolters Noordhoff Publishing. 1970.
  • Zug GR, Vitt LJ, Caldwell JP. 2001. Herpetology. An Introductory Biology Of Amphibians and Reptiles. Academic Press, Second Edition. USA. 630 pp. 2001.
 
Capítulo 7º. Filogenia de la glándula tiroides y de las paratiroides.
  • Fujita H, Sawano F. Fine structural localization of endogeneous peroxidase in the endostyle of ascidians, Ciona intestinalis. A part of phylogenetic studies of the thyroid gland. Arch Histol Jpn, 1979;42(3):319-26.  
  • Peter RE. Feedback effects of thyroxine in goldfish Carassius auratus with an autotransplanted pituitary. Neuroendocrinology 1972;17:273.
  • Plisetskaya EM, Woo-Nys, Murat JC. Thyroid hormones in cyclostomes and fish and their role in regulation of intermediary metabolism. Comp. Biochem Physiol, 1983;74:179.
  • Salvatore G, Covelli I, Sena L, Roche J. Fonction thyroïdienne et métabolisme de l’iode chez la larve d’un Cyclostome (Petromyzon planieri Bl). Compt Rend Soc Biol, 1959;153:1686.  
  • Salvatore G. Thyroid hormone biosynthesis in Agnatha and Protochordata. Gen Comp Endocrinol, 1969;2:535.
  • Suzuki S, Kondo Y. Thyroidal morphogenesis and biosynthesis of thyroglobulin before and after metamorphosis in the lamprey, Lampetra reissneri. Gen Comp Endocrinol, 1973;21:451.  
  • Tong W, Chaikoff IL. Metabolism of 131I by the marine alga, Nereocystis leutkana. J Biol Chem, 1955;215:473.  
  • Youson JH, Sower SA. Theory on the evolutionary history of lamprey metamorphosis: role of reproductive and thyroid axes. Comp Biochem Physiol B Biochem Mol Biol, 2001;129(2-3):337-45.