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LITERATURE CITED

  • Allison T, Van Twyver H. 1970. Sensory representation in the neocortex of the mole, Scalopus aquaticus. Exp Neurol 27: 554563.
  • Batzri-Izraeli R, Kelly JB, Glendenning KK, Masterton RB, Wollberg Z. 1990. Auditory cortex of the long-eared hedgehog (Hemiechinus auritus): I, boundaries and frequency representation. Brain Behav Evol 36: 237248.
  • Batzri-Izraeli R, Wollberg Z. 1992. Auditory cortex of the long-eared hedgehog (Hemiechinus auritus): II, tuning properties. Brain Behav Evol 39: 143152.
  • Blaxter JHS, Fuiman LA. 1989. Function of the free neuromasts of marine teleost larvae. In: CoombsS, GornerP, MunzH, editors. The mechanosensory lateral line: neurobiology and evolution. New York: Springer-Verlag. p 481499.
  • Brecht M, Preilowski B, Merzenich MM. 1997. Functional architecture of the mystacial vibrissae. Behav Brain Res 84: 8197.
  • Catania KC, Kaas JH. 1995. The organization of the somatosensory cortex of the star-nosed mole. J Comp Neurol 351: 549567.
  • Catania KC, Kaas JH. 1997. Somatosensory fovea in the star-nosed mole: behavioral use of the star in relation to innervation patterns and cortical representation. J Comp Neurol 387: 215233.
  • Catania KC, Lyon DC, Mock OB, Kaas JH. 1999a. Cortical organization in shrews: evidence from five species. J Comp Neurol 410: 5572.
  • Catania KC, Northcutt RG, Kaas JH. 1999b. The development of a biological novelty: a different way to make appendages as revealed in the snout of the star-nosed mole Condylura cristata. J Exp Biol 202: 27192726.
  • Catania KC. 2000a. Mechanosensory organs of moles, shrew-moles, and desmans: a survey of the family Talpidae with comments on the function and evolution of Eimer's organ. Brain Behav Evol 56: 146174.
  • Catania KC. 2000b. Cortical organization in moles: evidence of new areas and a specialized S2. Somatos Mot Res 17: 335347.
  • Catania KC. 2000c. Cortical organization in Insectivora: the parallel evolution of sensory cortex and the brain. Brain Behav Evol 55: 311321.
  • Catania KC, Collins CE, Kaas JH. 2000. Cortical organization in the east African hedgehog (Atelerix albiventris). J Comp Neurol 421: 256274.
  • Catania KC, Kaas JH. 2001. Areal and callosal connections in the somatosensory cortex of the star-nosed mole. Somato Mot Res 18: 303311.
  • Catania KC, Remple FE. 2004. Tactile foveation in the star-nosed mole. Brain Behav Evol 63: 112.
  • Catania KC, Remple FE. 2005. Asymptotic prey profitability drives star-nosed moles to the foraging speed limit. Nature 433: 519522.
  • Dehnhart G, Mauck B, Bleckmann H. 1998a. Seal whiskers detect water movements. Nature 394: 235236.
  • Dehnhart G, Mauck B, Hyvärien H. 1998b. Ambient temperature does not affect tactile sensitivity of mystacial vibrissae in harbour seals. J Exp Biol 201: 30233029.
  • Ebner F. 1969. A comparison of primitive forebrain organization in metatherian and eutherian mammals. Ann NY Acad Sci 167: 241257.
  • Glezer II, Jacobs MS, Morgane PJ. 1988. Implications of the “initial brain” concept for brain evolution in cetacea. Behav Brain Sci 11: 75116.
  • Gould HJ III, Ebner FF. 1978. Connections of the visual cortex in the hedgehog (Paraechinus hypomelas): II, corticocortical projections. J Comp Neurol 177: 473502.
  • Gorman ML, Stone DR. 1990. The natural history of moles. Ithaca, NY: Comstock Publishing Associates.
  • Jerison HJ. 1990 Fossil evidence on the evolution of neocortex. In: JonesEG, PetersA, editors. Cerebral cortex, vol. 8A, comparative structure and evolution of cerebral cortex. New York: Plenum Press. p 285310.
  • Johnson JI. 1990. Comparative development of somatic sensory cortex. In: JonesEG, PetersA, editors. Cerebral cortex, vol. 8B, comparative structure and evolution of cerebral cortex, pt. 2. New York: Plenum Press. p 335449.
  • Kaas JH, Hall WC, Diamond IT. 1970a. Cortical visual area I and II in the hedgehog: the relation between evoked potential maps and architectonic subdivisions. J Neurophysiol 33: 273306.
  • Kaas JH, Hall WC, Diamond IT. 1970b. Cortical visual areas I and II in the hedgehog: relation between evoked potential maps and architectonic subdivisions. J Neurophysiol 33: 595615.
  • Kaas JH. 1980. A comparative survey of visual system organization in mammals. In: EbbessonSOE, editor. Comparative neurology of the telencephalon. New York: Plenum Press. p 483502.
  • Kaas JH. 1987. The organization of neocortex in mammals: implications for theories of brain function. Ann Rev Psychol 38: 129151.
  • Kaas JH. 1989. Why does the brain have so many visual areas? J Cogn Neurosci 1: 121135.
  • Kaas JH. 1997. Theories of visual cortex organization in primates. In: RocklandKS, KaasJH, PetersA, editors. Cerebral cortex, vol. 12, extrastriate cortex in primates. New York: Pleneum Press. p 91125.
  • Kaas JH. 2000. Why is brain size so important? design problems and solutions as neocortex gets bigger or smaller. Brain Mind 1: 723.
  • Kielan-Jaworowska A. 1983. Multituberculate endocranial casts. Paleovertebrata 13: 112.
  • Kielan-Jaworowska A. 1984. Evolution of the therian mammals of the late cretaceous of Asia: IV, endocranial casts of eutherian mammals. Palaeontol Pol 46: 151171.
  • Kielan-Jaworowska A. 1986. Brain evolution in Mesozoic mammals. In: LillegravenJA, editor. G.G. Simpson memorial volume: contributions to geology. Wyoming: University of Wyoming. p 3: 21–34.
  • Kingdon J. 1974. East African mammals, vol. IIA, an atlas of evolution in Africa. New York: Academic Press. p 2736.
  • Krubitzer LA, Sesma MA, Kaas JH. 1986. Microelectrode maps, myeloarchitecture, and cortical connections of three somatotopically organized representations of the body surface in the parietal cortex of squirrels. J Comp Neurol 250: 403430.
  • Lende RA, Sadler KM. 1967. Sensory and motor areas in the neocortex of hedgehog (Erinaceus). Brain Res 5: 390405.
  • Lende RA. 1969. A comparative approach to the neocortex: localization in monotremes, marsupials, and insectivores. Ann NY Acad Sci 167: 262276.
  • Manger PR, Pettigrew JD. 1996. Ultrastructure, number, distribution and innervation of electroreceptors and mechanoreceptors in the bill skin of the platypus, Ornithorhynchus anatinus. Brain Behav Evol 48: 2754.
  • Michaloudi H, Dinopoulos A, Karamanlidis AN, Papadopoulos GC, Antonopoulos J. 1988. Cortical and brain stem projections to the spinal cord of the hedgehog (Erinaceus europaeus) A horseradish peroxidase study. Anat Embryol 178: 259270.
  • Montero VM. 1993. Retinotopy of cortical connections between the striate cortex and extrastriate visual areas in the rat. Exp Brain Res 94: 115.
  • Nudo RJ, Masterton RB. 1990. Descending pathways to the spinal cord: III, sites of origin of the corticospinal tract. J Comp Neurol 296: 559583.
  • Reep RL, Stoll MS, Marshall CD. 1999. Do sirenians have a mammalian version of the lateral line? postcranial tactile hairs in Florida manatees. Soc Neurosci Abstrs 25: 102.
  • Regidor J, Divac I. 1992. Bilateral thalamocortical projections in hedgehogs: evolutionary implications. Brain Behav Evol 39: 265269.
  • Remple MS, Henry EC, Catania KC. 2003. Organization of somatosensory cortex in the laboratory rat (Rattus norvegicus): evidence for two lateral areas joined at the representation of the teeth. J Comp Neurol 467: 105118.
  • Ringo JL. 1991. Neuronal interconnection as a function of brain size. Brain Behav Evol 38: 16.
  • Ringo JL, Doty RW, Demeter S, Simard PY. 1994. Time is of the essence: a conjecture that hemispheric specialization arises from interhemispheric conduction delay. Cereb Cortex 4: 3143.
  • Rosa MGP, Krubitzer LA. 1999. The evolution of visual cortex: where is V2? Trends Neurosci 22: 242248.
  • Schmidt-Nielson K. 1984. Scaling: why is animals size so important? New York: Cambrdidge University Press.
  • Springer MS, Cleven GC, Madsen O, de Jong WW, Waddell VG, Amrine HM, Stanhope MJ. 1997. Endemic African mammals shake the phylogenetic tree. Nature 388: 6164.
  • Stanhope MJ, Waddell VG, Madsen O, de Jong WW, Hedges SB, Cleven GC, Kao D. Springer MS. 1998. Molecular evidence for multiple origins of insectivora and for a new order of endemic African insectivore mammals. Proc Natl Acad Sci USA 95: 99679972.
  • Stephan H, Baron G, Frahm H. 1991. Comparative brain research in mammals, vol. 1, insectivora. New York: Springer.
  • Valverde F, Facal-Valverde MV. 1986. Neocortical layers I and II of the hedgehog (Erinaceus europaeus): I, intrinsic connections. Anat Embryol 173: 413430.
  • Welker C, Woolsey TA. 1974. Structure of layer IV in the somatosensory neocortex of the rat: description and comparison with the mouse. J Comp Neurol 158: 437453.
  • Woolsey TA, Van der Loos H. 1970. The structural organization of layer IV in the somatosensory region (SI) of mouse cerebral cortex: the description of a cortical field composed of discrete cytoarchitectonic units. Brain Res 17: 205242.