Hemispheric Specialization Is Known As
Synonyms
Definition
Hemispheric specialization refers to the differential role of the left or right brain side in processing a specific neuronal task or behavior. One hemisphere might be predisposed to prefer a function because of specific structural and/or computational characteristics. This dominance tin can exist expressed in enhanced sensory performances, determination-making, and/or superior motor skills.
Introduction
Bilaterian animals are characterized by a basically symmetrical body plan including a nervous system typically ending with encephalon-like structures at the front. Each one-half of the brain processes information from one environmental one-half field and controls one torso side. In several cases, even so, one hemisphere dominates a specific function (hemispheric specialization). Consequently, this hemisphere takes control in organizing and decision-making motor responses that become visible equally asymmetrical...
References
-
Andrew, R. J., Osorio, D., & Budaev, S. (2009). Light during embryonic evolution modulates patterns of lateralization strongly and similarly in both zebrafish and chick. Philosophical Transactions of the Royal Society B: Biological Sciences, 364(1519), 983–989.
-
Babcock, 50. E. (1993). Trilobite malformation and the fossil record of behavioral asymmetry. Journal of Paleontology, 67, 217–229.
-
Bingman, V. P., & Gagliardo, A. (2006). Of birds and men: Convergent development in hippocampal lateralization and spatial cognition. Cortex, 42, 99–100.
-
Broca, P. (1865). Sur le siège de la Faculté du langage articulé. Bull Soc Anthropol, half dozen, 377–393.
-
Clayton, North. Due south., & Krebs, J. R. (1994). Retentivity for spatial and object-specific cues in food-storing and non-storing birds. Journal of Comparative Physiology A, 174, 371–379.
-
Concha, 1000. L., Bianco, I. H., & Wilson, S. West. (2012). Encoding disproportion within neural circuits. Nature Reviews Neuroscience, 13(12), 832–843.
-
Dadda, K., Agrillo, C., Bisazza, A., & Brownish, C. (2015). Laterality enhances numerical skills in the guppy, Poecilia reticulata. Frontiers in Behavioral Neuroscience, nine, 285.
-
Diekamp, B., Regolin, L., Güntürkün, O., & Vallortigara, G. (2005). A left-sided visuospatial bias in birds. Electric current Biology, fifteen(x), R372–R373.
-
Dreosti, E., Vendrell Llopis, N., Carl, M., Yaksi, Eastward., & Wilson, Due south. W. (2014). Left-right asymmetry is required for the habenulae to answer to both visual and olfactory stimuli. Current Biological science, 24(4), 440–445.
-
Facchin, L., Duboué, E. R., & Halpern, Thou. E. (2015). Disruption of epithalamic left-right asymmetry increases anxiety in zebrafish. Journal of Neuroscience, 35(48), 15847–15859.
-
Frasnelli, E. (2013). Brain and behavioral lateralization in invertebrates. Frontiers in Psychology, 4, 939.
-
Freund, N., Valencia-Alfonso, C. Due east., Kirsch, J., Brodmann, G., Manns, 1000., & Güntürkün, O. (2016). Asymmetric top-down modulation of ascending visual pathways in pigeons. Neuropsychologia, 83, 37–47.
-
Giljov, A., Karenina, K., & Malashichev, Y. (2018). Facing each other: Mammal mothers and infants prefer the position favouring right hemisphere processing. Biology Letters, 14(i), 20170707.
-
Güntürkün, O., & Ocklenburg, Due south. (2017). Ontogeny of lateralization. Neuron, 94, 249–263.
-
Güntürkün, O., Diekamp, B., Manns, M., Nottelmann, F., Prior, H., Schwarz, A., & Skiba, K. (2000). Asymmetry pays: Visual lateralization improves discrimination success in pigeons. Current Biology, ten(17), 1079–1081.
-
Hopkins, West. D. (2006). Comparative and familial analysis of handedness in smashing apes. Psychological Bulletin, 132(4), 538–59.
-
Jonckers, E., Güntürkün, O., De Groof, 1000., Van der Linden, A., & Bingman, V. P. (2015). Network construction of functional hippocampal lateralization in birds. Hippocampus, 25(11), 1418–1428.
-
Lippolis, Grand., Joss, J. M., & Rogers, Fifty. J. (2009). Australian lungfish (Neoceratodus forsteri): A missing link in the evolution of complementary side biases for predator abstention and prey capture. Brain, Behavior and Evolution, 73(iv), 295–303.
-
Manns, M., & Römling, J. (2012). The impact of asymmetrical low-cal input on cerebral hemispheric specialization and interhemispheric cooperation. Nature Communications, 3, 696.
-
Manns, M., & Ströckens, F. (2014). Functional and structural comparison of visual lateralization in birds – Like simply still different. Frontiers in Psychology, 5, 206.
-
Miler, K., Kuszewska, Thou., & Woyciechowski, M. (2017). Larval antlions with more pronounced behavioural asymmetry show enhanced cognitive skills. Biology Letters, 13(2), 20160786.
-
Niven, J. East., & Frasnelli, E. (2018). Insights into the evolution of lateralization from the insects. Progress in Brain Inquiry, 238, 3–31.
-
Nottebohm, F. (1971). Neural lateralization of vocal control in a passerine bird. I. Song. Journal of Experimental Zoology, 177(2), 229–61.
-
Ocklenburg, S., & Güntürkün, O. (2017). The lateralized brain: The neuroscience and evolution of hemispheric asymmetries. London: Academic Press.
-
Pascual, A., Huang, M. L., Neveu, J., & Préat, T. (2004). Neuroanatomy: Encephalon asymmetry and long-term memory. Nature, 427(6975), 605–606.
-
Rogers, Fifty. J. (2018). Manual bias, behavior, and cognition in common marmosets and other primates. Progress in Encephalon Enquiry, 238, 91–113.
-
Rogers, L., & Vallortigara, G. (Eds.). (2017). Lateralized brain functions. Methods in homo and non-human species neuromethods serial. New York: Springer/Humana Printing.
-
Rogers, 50. J., Vallortigara, K., & Andrew, R. J. (2013). Divided brains. The biology and behaviour of encephalon asymmetries. New York: Cambridge Academy Press.
-
Schnell, A. K., Hanlon, R. T., Benkada, A., & Jozet-Alves, C. (2016). Lateralization of middle use in cuttlefish: Contrary management for anti-predatory and predatory behaviors. Frontiers in Physiology, seven, 620.
-
Shipton, O. A., El-Gaby, M., Apergis-Schoute, J., Deisseroth, Thousand., Bannerman, D. M., Paulsen, O., & Kohl, M. M. (2014). Left-right dissociation of hippocampal retentiveness processes in mice. Proceedings of the National Academy of Sciences of the United states of america, 111(42), 15238–15243.
-
Signore, I. A., Palma, Grand., & Concha, M. L. (2016). Nodal signalling and disproportion of the nervous arrangement. Philosophical Transactions of the Regal Society B: Biological Sciences, 371(1710), 20150401.
-
Tommasi, Fifty., & Vallortigara, G. (2001). Encoding of geometric and landmark data in the left and right hemispheres of the avian brain. Behavioral Neuroscience, 115(iii), 602–613.
-
Vallortigara, M., & Rogers, L. J. (2005). Survival with an asymmetrical brain: Advantages and disadvantages of cognitive lateralization. Behavioral and Encephalon Sciences, 28(four), 575–589; discussion 589-633.
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Manns, One thousand. (2019). Hemispheric Specialization. In: Vonk, J., Shackelford, T. (eds) Encyclopedia of Animal Noesis and Behavior. Springer, Cham. https://doi.org/10.1007/978-3-319-47829-6_1392-1
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