Book contents
- Complexity in LanguageDevelopmental and Evolutionary Perspectives
- Cambridge Approaches to Language Contact
- Complexity in Language
- Copyright page
- Contents
- Figures
- Tables
- Contributors
- Acknowledgments
- 1 Complexity in Language: A Multifaceted Phenomenon
- 2 How to Explain the Origins of Complexity in Language: A Case Study for Agreement Systems
- 3 Complexity in Speech: Teasing Apart Culture and Cognition
- 4 A Complex-Adaptive-Systems Approach to the Evolution of Language and the Brain
- 5 Evolutionary Complexity of Social Cognition, Semasiographic Systems, and Language
- 6 To What Extent Are Phonological Inventories Complex Systems?
- 7 A Complexity View of Ontogeny as a Window on Phylogeny
- 8 Language Choice in a Multilingual Society: A View from Complexity Science1
- 9 Complexity and Language Contact: A Socio-Cognitive Framework
- Index
- References
4 - A Complex-Adaptive-Systems Approach to the Evolution of Language and the Brain
Published online by Cambridge University Press: 04 July 2017
Book contents
- Complexity in LanguageDevelopmental and Evolutionary Perspectives
- Cambridge Approaches to Language Contact
- Complexity in Language
- Copyright page
- Contents
- Figures
- Tables
- Contributors
- Acknowledgments
- 1 Complexity in Language: A Multifaceted Phenomenon
- 2 How to Explain the Origins of Complexity in Language: A Case Study for Agreement Systems
- 3 Complexity in Speech: Teasing Apart Culture and Cognition
- 4 A Complex-Adaptive-Systems Approach to the Evolution of Language and the Brain
- 5 Evolutionary Complexity of Social Cognition, Semasiographic Systems, and Language
- 6 To What Extent Are Phonological Inventories Complex Systems?
- 7 A Complexity View of Ontogeny as a Window on Phylogeny
- 8 Language Choice in a Multilingual Society: A View from Complexity Science1
- 9 Complexity and Language Contact: A Socio-Cognitive Framework
- Index
- References
Summary
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- Complexity in LanguageDevelopmental and Evolutionary Perspectives, pp. 67 - 100Publisher: Cambridge University PressPrint publication year: 2017
References
Baars, Bernard J. & Gage, Nicole M.. 2007. Cognition, Brain, and Consciousness: Introduction to Cognitive Neuroscience Amsterdam: Elsevier.Google Scholar
Barsalou, L. W. 2005. Continuity of the conceptual system across species. Trends Cogn Sci 9, 309–11.CrossRefGoogle ScholarPubMed
Barsalou, Lawrence W. 2010. Grounded Cognition: Past, Present, and Future. Topics in Cognitive Science 2, 716–24.Google Scholar
Batali, J. 1998. Computational Simulations of the Emergence of Grammar. Approaches to the Evolution of Language: Social and Cognitive Bases, ed. by Hurford, J. R., Studdert-Kennedy, M. & Knight, C., 405–26. Cambridge: Cambridge University Press.Google Scholar
Bates, Elizabeth & Goodman, Judith C.. 1997. On the inseparability of grammar and the lexicon: Evidence from acquisition, aphasia, and real-time processing. Language & Cognitive Processes 12, 507–84.Google Scholar
Beckner, Clay, Blythe, Richard, Bybee, Joan, Christiansen, Morten H., Croft, William, Ellis, Nick C., Holland, John, Jinyun Ke, L. C., Larsen-Freeman, Diane & Schoenemann, Tom. 2009. Language Is a Complex Adaptive System: Position Paper. Language Learning 59, 1–26.Google Scholar
Bergman, Thore J., Beehner, Jacinta C., Cheney, Dorothy L. & Seyfarth, Robert M.. 2003. Hierarchical classification by rank and kinship in baboons. Science 302, 1234–36.Google Scholar
Berwick, Robert C., Friederici, Angela D., Chomsky, Noam & Bolhuis, Johan J.. 2013. Evolution, brain, and the nature of language. Trends in Cognitive Sciences 17, 89–98.Google Scholar
Brodmann, K. 1909. Vergleichende Lokalisationslehre der Grosshirnrinde in ihren Prinzipien dargestellt auf Grund des Zellenbaues Leipzig: Johann Ambrosius Barth Verlag.Google Scholar
Bybee, Joan. 1998. A functionalist approach to grammar and its evolution. Evolution of Communication 2, 249–78.Google Scholar
Changizi, M. A. & Shimojo, S.. 2005. Parcellation and area-area connectivity as a function of neocortex size. Brain, Behavior and Evolution 66, 88–98.Google Scholar
Cheney, D. L. & Seyfarth, R. M.. 1997. Reconciliatory grunts by dominant female baboons influence victims’ behaviour. Animal Behaviour 54, 409–18.CrossRefGoogle ScholarPubMed
Cheney, Dorothy L. & Seyfarth, Robert M.. 2005. Constraints and preadaptations in the earliest stages of language evolution. The Linguistic Review 22, 135–59.Google Scholar
Christiansen, Morten H. & Chater, Nick. 2008. Language as shaped by the brain. Behavioral and Brain Sciences 31, 489–509.Google Scholar
Clarke, E., Reichard, U. H. & Zuberbuhler, K.. 2006. The syntax and meaning of wild gibbon songs. PLoS ONE 1.e73.CrossRefGoogle ScholarPubMed
Damasio, Antonio R. & Damasio, Hanna. 1992. Brain and language. Scientific American 267, 89–95.Google Scholar
Damasio, H., Grabowski, T. J., Damasio, A., Tranel, D., Boles-Ponto, L., Watkins, G. L. & Hichwa, R. D.. 1993. Visual recall with eyes closed and covered activates early visual cortices. Society for Neuroscience Abstracts 19, 1603.Google Scholar
de Waal, Frans B. M. 2008. Putting the Altruism Back into Altruism: The Evolution of Empathy. Annual Review of Psychology 59, 279–300.Google Scholar
Deacon, Terrence William. 1997. The symbolic species: the co-evolution of language and the brain. New York: W. W. Norton.Google Scholar
Deacon, Terrence W. 2012. Beyond the Symbolic Species. The Symbolic Species Evolved, ed. by Schilhab, T., Stjernfelt, F. & Deacon, T., 9–38. Netherlands: Springer.Google Scholar
Deaner, R. O., Isler, K., Burkart, J. & van Schaik, C.. 2007. Overall brain size, and not encephalization quotient, best predicts cognitive ability across non-human primates. Brain, Behavior and Evolution 70, 115–24.CrossRefGoogle Scholar
Evans, Nicholas & Levinson, Stephen C.. 2009. The myth of language universals: Language diversity and its importance for cognitive science. Behavioral and Brain Sciences 32, 429–48.Google Scholar
Foraker, Stephani, Regier, Terry, Khetarpal, Naveen, Perfors, Amy & Tenenbaum, Joshua. 2009. Indirect Evidence and the Poverty of the Stimulus: The Case of Anaphoric One. Cognitive Science 33, 287–300.Google Scholar
Gardner, R. A. & Gardner, B. T.. 1984. A vocabulary test for chimpanzee (Pan Troglodytes). Journal of Comparative Psychology 98, 381–404.CrossRefGoogle Scholar
Gardner, R. A., Gardner, B. T. & van Cantfort, T. E.. 1989. Teaching Sign Language to a Chimpanzee Albany: State University of New York Press.Google Scholar
Garstang, Michael 2010. Elephant infrasounds: long-range communication. Handbook of Mammalian Vocalization; An Integrative Neuroscience Approach, ed. by Brudzynski, S. M., 57–67. London: Academic Press.Google Scholar
Gibson, J. J. 1979. The ecological approach to visual perception New York: Houghton Mifflin.Google Scholar
Gibson, K. R. 2002. Evolution of human intelligence: the roles of brain size and mental construction. Brain, Behavior and Evolution 59, 10–20.Google Scholar
Gil-da-Costa, R., Martin, A., Lopes, M. A., Munoz, M., Fritz, J. B. & Braun, A. R.. 2006. Species-specific calls activate homologs of Broca's and Wernicke's areas in the macaque. Nature Neuroscience 9, 1064–70.Google Scholar
Gleitman, L. 1990. The structural sources of verb meanings. Language Acquisition 1, 3–55.Google Scholar
Gleitman, Lila & Gleitman, Henry. 1997. What is a language made out of? Lingua: International Review of General Linguistics 100, 29–55.Google Scholar
Gleitman, Lila R., Cassidy, Kimberly, Nappa, Rebecca, Papafragou, Anna & Trueswell, John C.. 2005. Hard words. Language Learning and Development 1, 23–64.Google Scholar
Goldberg, Adele E. 2004. But do we need universal grammar? Comment on Lidz et al. (2003). Cognition 94, 77–84.Google Scholar
Goldsmith, Timothy H. & Zimmerman, William F.. 2000. Biology, Evolution, and Human Nature New York: John Wiley & Sons.Google Scholar
Gong, T. 2009. Computational simulation in evolutionary linguistics: a study on language emergence Taipei: Institute of Linguistics, Academia Sinica.Google Scholar
Gong, Tao. 2011. Simulating the coevolution of compositionality and word order regularity. Interaction Studies 12, 63–106.Google Scholar
Gong, Tao, Shuai, Lan & Zhang, Menghan. 2014. Modelling language evolution: Examples and predictions. Phys Life Rev 11, 280–302.Google Scholar
Goroll, Nils. 1999. Master's thesis, (The Deep Blue) Nile: Neuronal Influences on Language Evolution. Edinburgh, England: University of Edinburgh.Google Scholar
Greenfield, Patricia M. & Savage-Rumbaugh, E. Sue. 1991. Imitation, grammatical development, and the invention of protogrammar by an ape. Biological and Behavioral Determinants of Language Development, ed. by Krasnegor, N., Rumbaugh, D. M., Schiefelbusch, R. L. & Studdert-Kennedy, M., 235–58. Hillsdale, NJ: Lawrence Erlbaum.Google Scholar
Haiman, John (ed.) 1985. Iconicity in Syntax (Typological Studies in Language). Amsterdam: John Benjamins.Google Scholar
Haug, H. 1987. Brain sizes, surfaces, and neuronal sizes of the cortex cerebri: A stereological investigation of man and his variability and a comparison with some mammals (primates, whales, marsupials, insectivores, and one elephant). American Journal of Anatomy 180, 126–42.Google Scholar
Herculano-Houzel, S. 2012. The remarkable, yet not extraordinary, human brain as a scaled-up primate brain and its associated cost. Proceedings of the National Academy of Sciences, 109 (Supplement 1), 10661–10668.Google Scholar
Herrnstein, R. J. 1979. Acquisition, generalization, and discrimination reversal of a natural concept. Journal of Experimental Psychology: Animal Behavior Processes 5, 116–29.Google Scholar
Holland, John H. 1998. Emergence: From chaos to order. Oxford: Oxford University Press.Google Scholar
Holland, John H. 2006. Studying complex adaptive systems. Journal of Systems Science and Complexity 19, 1–8.Google Scholar
Hudson, Arthur J. 2010. The evolution of the eye from algae and jellyfish to humans: How vision adapts to environment. Lewiston, NY: Edwin Mellen Press.Google Scholar
Jackendoff, Ray. 2002. Foundations of Language: Brain, Meaning, Grammar, Evolution New York: Oxford University Press.Google Scholar
Jerison, H. J. 1973. Evolution of the Brain and Intelligence New York: Academic Press.Google Scholar
Jones, G. & Holderied, M. W.. 2007. Bat echolocation calls: adaptation and convergent evolution. Proc Biol Sci 274, 905–12.Google Scholar
Jones, M. N. & Mewhort, D. J.. 2007. Representing word meaning and order information in a composite holographic lexicon. Psychological Review 114, 1–37.Google Scholar
Kosslyn, S. M., Alpert, N. M., Thompson, W. L., Maljkovic, V., Weise, S. B., Chabris, C. F., Hamilton, S. E., Rauch, S. L. & Buonanno, F. S.. 1993. Visual mental imagery activates topographically organized visual cortex: PET investigations. Journal of Cognitive Neuroscience 5, 263–87.Google Scholar
Kosslyn, S. M., Ganis, G. & Thompson, W. L.. 2003. Mental imagery: against the nihilistic hypothesis. Trends Cogn Sci 7, 109–11.Google Scholar
Krubitzer, Leah. 1995. The organization of neocortex in mammals: are species differences really so different? Trends in Neurosciences 18, 408–17.Google Scholar
Lakoff, George & Johnson, Mark. 1980. Metaphors we live by. Chicago: University of Chicago Press.Google Scholar
Langacker, Ronald W. 1987. Foundations of Cognitive Grammar. Stanford: Stanford University Press.Google Scholar
Langton, Chris G. 1990. Computation at the edge of chaos: Phase transitions and emergent computation. Physica D 42, 12–37.Google Scholar
Lidz, Jeffrey, Gleitman, Henry & Gleitman, Lila. 2003a. Understanding how input matters: Verb learning and the footprint of universal grammar. Cognition 87, 151–78.Google Scholar
Lidz, Jeffrey & Gleitman, Lila R. 2004a. Yes, we still need Universal Grammar. Cognition 94, 85–93.Google Scholar
Lidz, Jeffrey & Gleitman, Lila R.. 2004b. Argument structure and the child's contribution to language learning. Trends in Cognitive Sciences 8, 157–61.Google Scholar
Lidz, Jeffrey, Waxman, Sandra & Freedman, Jennifer. 2003b. What infants know about syntax but couldn't have learned: experimental evidence for syntactic structure at 18 months. Cognition 89, 295–303.Google Scholar
Lyn, Heidi & Savage-Rumbaugh, E. Sue. 2000. Observational word learning in two bonobos (Pan paniscus): ostensive and non-ostensive contexts. Language & Communication 20, 255–73.Google Scholar
McIntosh, A. R. 2000. Towards a network theory of cognition. Neural Networks 13, 861–70.Google Scholar
Mikulecky, D. C. 2001. The emergence of complexity: science coming of age or science growing old? Computers and Chemistry 25, 341–8.Google Scholar
Miles, H. Lyn White. 1990. The cognitive foundations for reference in a signing orangutan. “Language” and Intelligence in Monkeys and Apes: Comparative Developmental Perspectives, ed. by Parker, S. T. & Gibson, K. R., 511–39. Cambridge: Cambridge University Press.Google Scholar
Miller, George A. & Gildea, Patricia M.. 1991. How children learn words. The Emergence of Language: Development and Evolution, ed. by Wang, W. S.-Y., 150–58. New York: W. H. Freeman.Google Scholar
Miller, P. E. & Murphy, C. J.. 1995. Vision in dogs. Journal of the American Veterinary Medical Association 207, 1623–34.Google Scholar
Mitchell, Melanie, Hraber, Peter T. & Crutchfield, James P.. 1993. Revisiting the Edge of Chaos: Evolving Cellular Automata to Perform Computations. Complex Systems 7, 89–130.Google Scholar
Neitz, J., Geist, T. & Jacobs, G. H.. 1989. Color vision in the dog. Visual Neuroscience 3, 119–25.Google Scholar
Northcutt, R. G. & Kaas, J. H.. 1995. The emergence and evolution of mammalian neocortex. Trends in Neurosciences 18, 373–9.Google Scholar
O'Grady, William. 1987. Principles of Grammar & Learning Chicago: University of Chicago Press.Google Scholar
Parr, Lisa A. 2011. The evolution of face processing in primates. Philosophical Transactions of the Royal Society B: Biological Sciences 366, 1764–77.Google Scholar
Peirce, C. S. 1867. On a new list of categories. Proceedings of the American Academy of Arts and Sciences 7, 287–98.Google Scholar
Penfield, Wilder & Rasmussen, Theodore. 1950. Cerebral Cortex of Man, a Clinical Study of Localization of Function. New York: Macmillan.Google Scholar
Pinker, S. & Jackendoff, R.. 2005. The faculty of language: what's special about it? Cognition 95, 201–36.Google Scholar
Pinker, Steven & Bloom, Paul. 1990. Natural language and natural selection. Behavioral and Brain Sciences 13, 707–84.Google Scholar
Port, Robert F. 2010. Language as a Social Institution: Why Phonemes and Words Do Not Live in the Brain. Ecological Psychology 22, 304–26.Google Scholar
Port, Robert F. & Leary, Adam P.. 2005. Against Formal Phonology. Language 81, 927–64.Google Scholar
Premack, Ann James & Premack, David. 1972. Teaching language to an ape. Scientific American 227, 92–99.Google Scholar
Regier, Terry & Gahl, Susanne. 2004. Learning the unlearnable: the role of missing evidence. Cognition 93, 147–55.Google Scholar
Rilling, J. K. & Seligman, R. A.. 2002. A quantitative morphometric comparative analysis of the primate temporal lobe. Journal of Human Evolution 42, 505–33.Google Scholar
Ringo, James L. 1991. Neuronal interconnection as a function of brain size. Brain, Behavior and Evolution 38, 1–6.Google Scholar
Roberts, William A. & Mazmanian, Dwight S.. 1988. Concept learning at different levels of abstraction by pigeons, monkeys, and people. Journal of Experimental Psychology: Animal Behavior Processes 14, 247–60.Google Scholar
Savage-Rumbaugh, E. Sue, Murphy, Jeannine, Sevcik, Rose A., Brakke, Karen E., Williams, Shelly L. & Rumbaugh, Duane M.. 1993. Language comprehension in ape and child. Monographs of the Society for Research in Child Development 58, 1–222.Google Scholar
Savage-Rumbaugh, E. Sue & Rumbaugh, Duane M.. 1993. The emergence of language. Tools, Language and Cognition in Human Evolution, ed. by Gibson, K. R. & Ingold, T., 86–108. Cambridge: Cambridge University Press.Google Scholar
Savage-Rumbaugh, Sue, Rumbaugh, Duane & Fields, William M.. 2009. Empirical Kanzi: The Ape Language Controversy Revisited. Skeptic 15, 25–33.Google Scholar
Schoenemann, P. T., Budinger, T. F., Sarich, V. M. & Wang, W. S.. 2000. Brain size does not predict general cognitive ability within families. Proceedings of the National Academy of Sciences of the United States of America 97, 4932–7.Google Scholar
Schoenemann, P. Thomas. 1999. Syntax as an emergent characteristic of the evolution of semantic complexity. Minds and Machines 9, 309–46.Google Scholar
Schoenemann, P. Thomas. 2005. Conceptual complexity and the brain: Understanding language origins. Language Acquisition, Change and Emergence: Essays in Evolutionary Linguistics, ed. by Wang, W. S.-Y. & Minett, J. W., 47–94. Hong Kong: City University of Hong Kong Press.Google Scholar
Schoenemann, P. Thomas. 2006. Evolution of the Size and Functional Areas of the Human Brain. Annual Review of Anthropology 35, 379–406.Google Scholar
Schoenemann, P. Thomas. 2010. The meaning of brain size: the evolution of conceptual complexity. Human Brain Evolving: Papers in Honor of Ralph Holloway, ed. by Broadfield, D., Yuan, M., Schick, K. & Toth, N.. Bloomington, IN: Stone Age Institute Press.Google Scholar
Schoenemann, P. Thomas. 2012. Evolution of brain and language. Progress in Brain Research, ed. by Hofman, M. A. & Falk, D., 443–59. Amsterdam, The Netherlands: Elsevier.Google Scholar
Semendeferi, K., Armstrong, E., Schleicher, A., Zilles, K. & Van Hoesen, G. W.. 2001. Prefrontal cortex in humans and apes: a comparative study of area 10. American Journal of Physical Anthropology 114, 224–41.Google Scholar
Seyfarth, Robert M. & Cheney, Dorothy L.. 2000. Social Awareness in Monkeys. American Zoologist 40, 902–09.Google Scholar
Seyfarth, Robert M., Cheney, Dorothy L. & Marler, Peter. 1980. Monkey Responses to Three Different Alarm Calls: Evidence of Predator Classification and Semantic Communication. Science 210, 801–03.Google Scholar
Shepard, R. N. & Cooper, L. A.. 1982. Mental images and their transformations New York: Cambridge University Press.Google Scholar
Shepherd, Gordon M. 2006. Smell images and the flavour system in the human brain. Nature 444, 316–21.Google Scholar
Smith, K., Kirby, S. & Brighton, H.. 2003. Iterated learning: a framework for the emergence of language. Artificial Life 9, 371–86.Google Scholar
Snowdon, Charles T. 1990. Language capacities of nonhuman animals. Yearbook of Physical Anthropology 33, 215–43.Google Scholar
Spranger, Michael & Steels, Luc. 2012. Emergent functional grammar for space. Experiments in Cultural Language Evolution. Amsterdam: John Benjamins.Google Scholar
Steels, L. 2011. Modeling the cultural evolution of language. Phys Life Rev 8, 339–56.Google Scholar
Stephan, Heinz, Frahm, Heiko & Baron, Georg. 1981. New and revised data on volumes of brain structures in Insectivores and Primates. Folia Primatologica 35, 1–29.Google Scholar
Suomi, Stephen J. 1997. Nonverbal communication in nonhuman primates: Implications for the emergence of culture. Nonverbal Communication: Where Nature Meets Culture, ed. by Segerstråle, U. C. & Molnár, P., 131–46. Mahwah, NJ: Lawrence Erlbaum Associates.Google Scholar
Thompson, P. M., Cannon, T. D., Narr, K. L., van Erp, T., Poutanen, V. P., Huttunen, M., Lonnqvist, J., Standertskjold-Nordenstam, C. G., Kaprio, J., Khaledy, M., Dail, R., Zoumalan, C. I. & Toga, A. W.. 2001. Genetic influences on brain structure. Nature Neuroscience 4, 1253–8.Google Scholar
Tomasello, M. 2000. The item-based nature of children's early syntactic development. Trends Cogn Sci 4, 156–63.Google Scholar
Tomasello, Michael. 2003. Constructing a language: a usage-based theory of language acquisition Cambridge, MA: Harvard University Press.Google Scholar
Tomasello, Michael. 2004. Syntax or semantics? Response to Lidz et al. Cognition 93, 139–40.Google Scholar
Tomasello, Michael & Patricia, J. Brooks. 1998. Young children's earliest transitive and intransitive constructions. Cognitive Linguistics 9, 379.Google Scholar
Tononi, G. 2010. Information integration: its relevance to brain function and consciousness. Archives Italiennes de Biologie 148, 299–322.Google Scholar
Wasserman, E. A., Kiedinger, R. E. & Bhatt, R. S.. 1988. Conceptual behavior in pigeons: Categories, subcategories, and pseudocategories. Journal of Experimental Psychology: Animal Behavior Processes 14, 235–46.Google Scholar
Wynne, Clive. 2008. Aping language: A skeptical analysis of the evidence for nonhuman primate language. Skeptic 13, 10–14.Google Scholar
Zuberbuhler, K. 2000. Interspecies semantic communication in two forest primates. Proceedings of the Royal Society of London Series B-Biological Sciences 267, 713–18.Google Scholar
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