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LITERATURE CITED

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  • Glezer II, Jacobs M, Morgane P. 1988. Implications of the “initial brain” concept for brain evolution in Cetacea. Behav Brain Sci 11: 75116.
  • Glezer II, Morgane PJ. 1990. Ultrastucture of synapse and golgi analysis of neurons in neocortex of the lateral gyrus (visual cortex) of the dolphin and pilot whale. Brain Res Bull 24: 401427.
  • Glezer II, Morgane PJ, Leranth C. 1990. Immunohistochemistry of neurotransmitters in visual cortex of several toothed whales: light and electron microscopic study. In: ThomasJA, KasteleinRA, editors. Sensory abilities of cetaceans: laboratory and field evidence. New York: Plenum Press. p 3960.
  • Glezer II, Hof PR, Leranth C, Morgane PJ. 1992a. Morphological and histological features of odontocete visual neocortex: immunocytochemical analysis of pyramidal and nonpyramidal populations of neurons. In: ThomasJA, KasteleinRA, SupinYa, editors. Marine mammal sensory systems. New York: Plenum Press. p 138.
  • Glezer II, Hof PR, Morgane PJ. 1992b. Calretinin-immunoreactive neurons in the primary visual cortex of dolphin and human brains. Brain Res 595: 181188.
  • Glezer II, Hof PR, Leranth C, Morgane PJ. 1993. Calcium-binding protein-containing neuronal populations in mammalian visual cortex: a comparative study in whales, insectivores, bats, rodents, and primates. Cerebral Cortex 3: 249272.
  • Glezer II, Hof PR, Istomin VV, Morgane PJ. 1995a. Comparative immunocytochemistry of calcium-binding protein-positive neurons in visual and auditory systems of cetacean and primate brains. In: KasteleinRA, ThomasJA, NachtigallPE, editors. Sensory systems of aquatic mammals. Woerden, The Netherlands: De Spil Publishers. p 477513.
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  • Glezer II, Hof PR, Morgane PJ. 1998. Comparative analysis of calcium-binding protein-immunoreactive neuronal populations in the auditory and visual systems of the bottlenose dolphin (Tursiops truncatus) and the macaque monkey (Macaca fascicularis). J Chem Neuro 15: 203237.
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  • Hof PR, Glezer II, Archin N, Janssen WG, Morgane PJ, Morrison JH. 1992. The primary auditory cortex in cetacean and human brain: a comparative analysis of neurofilament protein-containing pyramidal neurons. Neurosci Lett 146: 9195.
  • Hof PR, Glezer II, Revishchin AV, Bouras C, Charnay Y, Morgane PJ. 1995. Distribution of dopaminergic fibers and neurons in visual and auditory cortices of the harbor porpoise and pilot whale. Brain Res Bull 36: 275284.
  • Hof PR, Glezer II, Conde' F, Flagg RA, Rubin MB, Nimchinsky EA, Vogt Weisenhorn DM. 1999. Cellular distribution of the calcium-binding proteins parvalbumin, calbindin, and calretinin in the neocortex of mammals: phylogenetic and developmental patterns. J Chem Neuroanat 16: 77116.
  • Hof PR, Glezer II, Nimchinsky EA, Erwin JM. 2000. Neurochemical and cellular specializations in the mammalian neocortex reflect phylogenetic relationships: evidence from primates, cetaceans, and artiodactyls. Brain Beh Evol 55: 300310.
  • Jacobs MS, McFarland WL, Morgane PJ. 1979. The anatomy of the brain of the bottlenose dolphin (Tursiops truncatus): rhinic lobe (rhinencephalon): the archicortex. Brain Res Bull 4 (Suppl 1): 1108.
  • Johnson JI, Switzer RC III, Sudheimer KD, Ferreira FM, Fobbs AJ Jr, Marino L. 2003. Lateralized cerebral peduncles, extensive midbrain pallidum, and other distinctive features of the midbrain of whales and dolphins. Toronto: Society for Integrative and Comparative Biology Meeting.
  • Ladygina TF, Mass AM, Supin Ya. 1978. Multiple sensory projections in the dolphin cerebral cortex. Zh Vyssh Nerv Deiat 28: 10471054.
  • Lende RA, Welker WI. 1972. An unusual sensory area in the cerebral neocortex of the bottlenose dolphin, Tursiops truncatus. Brain Res 45: 555560.
  • Manger P, Sum M, Szymanski M, Ridgway S, Krubitzer L. 1998. Modular subdivisions of dolphin insular cortex: does evolutionary history repeat itself? J Cog Neurosci 10: 153166.
  • Marino L. 1998. A comparison of encephalization levels between adult anthropoid primates and odontocetes (toothed whales). Brain Beh Evol 51: 230238.
  • Marino L, Rilling JK, Lin SK, Ridgway SH. 2000. Relative volume of the cerebellum in the bottlenose dolphin and comparison with anthropoid primates. Brain Beh Evol 56: 204211.
  • Marino L, Sudheimer K, Murphy TL, Davis KK, Pabst DA, McLellan WA, Rilling JK, Johnson JI. 2001a. Anatomy and three-dimensional reconstructions of the bottlenose dolphin (Tursiops truncatus) brain from magnetic resonance images. Anat Rec 264: 397414.
  • Marino L, Murphy TL, DeWeerd AL, Morris JA, Fobbs AJ, Humblot N, Ridgway SH, Johnson JI. 2001b. Anatomy and three-dimensional reconstructions of the brain of the white whale (Delphinapterus leucas) from magnetic resonance images. Anat Rec 262: 429439.
  • Marino L. 2002. Brain size evolution. In: PerrinWF, WursigB, ThewissenH, editors. Encyclopedia of marine mammals. San Diego: Academic Press. p 158162.
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  • Marino L, Pabst DA, McLellan WA, Sudheimer K, Johnson JI. 2003a. Magnetic resonance images of the brain of a dwarf sperm whale (Kogia simus). J Anat 204: 5776.
  • Marino L, Sudheimer K, Sarko D, Sirpenski G, Johnson JI. 2003b. Neuroanatomy of the harbor porpoise (Phocoena phocoena) from magnetic resonance images. J Morph 257: 308347.
  • Morgane PJ, Jacobs MS, MacFarland WL. 1980. The anatomy of the brain of the bottlenose dolphin (Tursiops truncatus): surface configurations of the telencephalon of the bottlenose dolphin with comparative anatomical observations in four other cetacean species. Brain Res Bull 5 (Suppl 3): 1107.
  • Oelschlager HA, Oelschlager JS. 2002. Brains. In: PerrinWF, WursigB, ThewissenH, editors. Encyclopedia of marine mammals. San Diego: Academic Press. p 133158.
  • Pilleri G, Gihr M. 1970. The central nervous system of the mysticete and odontocete whales. Invest Cetacea 2: 87135.
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  • Ridgway SH, Brownson RH. 1984. Relative brain sizes and cortical surface areas in odontocetes. Acta Zool Fennica 172: 149152.
  • Ridgway SH. 1986. Physiological observations on dolphin brains. In: SchustermanRJ, ThomasJA, WoodFG, editors. Dolphin cognition and behavior: a comparative approach. Hillsdale, NJ: Lawrence Erlbaum Associates. p 3160.
  • Ridgway SH. 1990. The central nervous system of the bottlenose dolphin. In: LeatherwoodS, ReevesR, editors. The bottlenose dolphin. San Diego: Academic Press. p 6997.
  • Sokolov VE, Ladygina TF, Supin YA. 1972. Localization of sensory zones in the dolphin's cerebral cortex. Dok Akad Nauk SSSR 202: 490493.
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  • Yurk H, Barrett-Lennard L, Ford JKB, Matkin CO. 2002. Cultural transmission within maternal lineages: vocal clans in resident killer whales in southern Alaska. Anim Beh 63: 11031119.