Individual-level consistency of different laterality measures in the goldbelly topminnow

Behavioral Neuroscience

Volumn 126, Issue 6, 2012, Pages 845-849

  Dadda, Marco ^a   Nepomnyashchikh, Valentin A ^b   Izvekov, Evgeny I ^b   Bisazza, Angelo ^a  

^a UNIVERSITY OF PADOVA   (Italy)

^b PAPANIN INSTITUTE FOR BIOLOGY OF INLAND WATERS   (Russian Federation)

Author keywords

Cerebral asymmetries; Fish; Lateralization

Indexed keywords

ANIMAL EXPERIMENT; ARTICLE; BEHAVIORAL SCIENCE; BRAIN ASYMMETRY; CONTROLLED STUDY; CORRELATIONAL STUDY; EYE DOMINANCE; FEMALE; GIRARDINUS FALCATUS; HEMISPHERIC DOMINANCE; MOTOR LATERALITY; NONHUMAN; PREDATOR; ROTATIONAL PREFERENCE; SCORING SYSTEM; SENSORY LATERALITY; SOCIAL BEHAVIOR; SWIMMING; TELEOST; TURNING PREFERENCE;

ANIMALS; BEHAVIOR, ANIMAL; BRAIN; EYE MOVEMENTS; FUNCTIONAL LATERALITY; FUNDULIDAE; LANGUAGE; PSYCHOMOTOR PERFORMANCE;

EID: 84875405117     PISSN: 07357044     EISSN: 19390084     Source Type: Journal    
DOI: 10.1037/a0030319     Document Type: Article

References (44)

1. Andrew, R. J. (2009). Origins of asymmetry in the CNS. Seminars in Cell and Developmental Biology, 20, 485-490.
2. Barth, K. A., Miklosi, A., Watkins, J., Bianco, I. H., Wilson, S. W., & Andrew, R. J. (2005). fsi zebrafish show concordant reversal of laterality of viscera, neuroanatomy, and a subset of behavioral responses. Current Biology, 15, 844-850.
3. Bauer, R. H. (1993). Lateralization of neural control for vocalization by the frog (Rana pipiens). Psychobiology, 21, 243-248.
4. Benjamini, Y., & Hochberg, Y. (1995). Controlling the false discovery rate: A practical and powerful approach to multiple testing. Journal of the Royal Statistical Society. Series B (Methodological), 57, 289-300.
5. Bisazza, A., Cantalupo, C., Robins, A., Rogers, L. J., & Vallortigara, G. (1997). Pawedness and motor asymmetries in toads. Laterality, 2, 49-64.
6. Bisazza, A., Dadda, M., & Cantalupo, C. (2005). Further evidence for mirror-reversed laterality in lines of fish selected for leftward or rightward turning when facing a predator model. Behavioural Brain Research, 156, 165-171.
7. Bisazza, A., Dadda, M., Facchin, L., & Vigo, F. (2007). Artificial selection on laterality in the teleost fish Girardinus falcatus. Behavioural Brain Research, 178, 29-38.
8. Bisazza, A., De Santi, A., Bonso, S., & Sovrano, V. A. (2002). Frogs and toads in front of a mirror: Lateralisation of response to social stimuli in tadpoles of five anuran species. Behavioural Brain Research, 134, 417-424.
9. Bisazza, A., Pignatti, R., & Vallortigara, G. (1997). Detour tests reveal task- and stimulus-specific behavioural lateralization in mosquitofish (Gambusia holbrooki). Behavioural Brain Research, 89, 237-242.
10. Bisazza, A., Sovrano, V. A., & Vallortigara, G. (2001). Consistency among different tasks of left-right asymmetries in lines of fish originally selected for opposite direction of lateralization in a detour task. Neuropsychologia, 39, 1077-1085.
11. Bourne, V. J. (2008). Examining the relationship between degree of handedness and degree of cerebral lateralization for processing facial emotion. Neuropsychology, 22, 350-356.
12. Bradshaw, J. L., & Nettleton, N. C. (1981). The nature of hemispheric specialization in man. Behavioral and Brain Sciences, 4, 51-63.
13. Brown, C., Gardner, C., & Braithwaite, V. A. (2004). Population variation in lateralized eye use in the poeciliid Brachyraphis episcope. Proceedings of the Royal Society B: Biological Sciences, 271, S455-S457.
14. Brown, C., & Magat, M. (2011). Cerebral lateralization determines hand preferences in Australian parrots. Biology Letters, 7, 496-498.
15. Brown, C., Western, J., & Braithwaite, V. A. (2007). The influence of early experience on, and inheritance of, cerebral lateralization. Animal Behaviour, 74, 231-238.
16. Da Costa, G. R., Martin, A., Lopes, M. A., Muoz, 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, 1064-1070.
17. Dadda, M., & Bisazza, A. (2006). Does brain asymmetry allow efficient performance of simultaneous tasks? Animal Behaviour, 72, 523-529.
18. Dadda, M., Zandonà, E., Agrillo, C., & Bisazza, A. (2009). The costs of hemispheric specialization in a fish. Proceedings of the Royal Society B: Biological Sciences, 276, 4399-4407.
19. Dadda, M., Zandonà, E., & Bisazza, A. (2007). Emotional responsiveness in fish from lines artificially selected for a high or low degree of laterality. Physiology and Behavior, 92, 764-772.
20. Deng, C., & Rogers, L. J. (2002). Social recognition and approach in the chick: Lateralization and effect of visual experience. Animal Behaviour, 63, 697-706.
21. Ehret, G. (1987). Left hemisphere advantage in the mouse brain for recognizing ultrasonic communication calls. Nature, 325, 249-251.
22. Facchin, L., Bisazza, A., & Vallortigara, G. (1999). What causes lateralization of detour behavior in fish? Evidence for asymmetries in eye use. Behavioural Brain Research, 103, 229-234.
23. Fine, M. L., McElroy, D., Rafi, J., King, C. B., Loesser, K. E., & Newton, S. (1996). Lateralization of pectoral stridulation sound production in the channel catfish. Physiology and Behavior, 60, 753-757.
24. Flöel, A., Knecht, S., Lohmann, H., Deppe, M., Sommer, J., Droger, B.,... Henningsen, H. (2001). Language and spatial attention can lateralize to the same hemisphere in healthy humans. Neurology, 57, 1018-1024.
25. Hellige, J. B. (1990). Hemispheric asymmetry. Annual Review of Psychology, 41, 55-80.
26. Hopkins, W. D., & Cantero, M. (2003). From hand to mouth in the evolution of language: The influence of vocal behavior on lateralized hand use in manual gestures by chimpanzees (Pan troglodytes). Developmental Science, 6, 55-61.
27. Izvekov, E. I., & Nepomnyashchikh, V. A. (2010). Comparison of two kinds of functional asymmetry in the roach Rutilus rutilus (Teleostei: Cyprinidae). Journal of Evolutionary Biochemistry and Physiology, 46, 69-76.
28. Magat, M., & Brown, C. (2009). Laterality enhances cognition in Australian parrots. Proceedings of the Royal Society B: Biological Sciences, 276, 4155-4162.
29. McGreevy, P. D., & Rogers, L. J. (2005). Motor and sensory laterality in thoroughbred horses. Applied Animal Behaviour Science, 92, 337-352.
30. Nottebohm, F. (1980). Brain pathways for vocal learning in birds: A review of the first 10 years. In J. Sprague, & A. Epstein (Eds.), Progress in psychobiology and physiological psychology (pp. 85-124). New York, NY: Academic Press.
31. Petersen, M. R., Beecher, M. D., & Zoloth, S. R. (1978). Neural lateralization of species-specific vocalizations by Japanese macaques (Macaca fuscata). Science, 202, 324-327.
32. Pike, N. (2011). Using false discovery rates for multiple comparisons in ecology and evolution. Methods in Ecology and Evolution, 2, 278-282.
33. Rasmussen, T., & Milner, B. (1977). The role of early left-brain injury in determining lateralization of cerebral speech functions Evolution and lateralization of the brain. Annals of the New York Academy of Sciences, 299, 355-369.
34. Reiss, M., & Reiss, G. (1997). Lateral preferences in a German population. Perceptual and Motor Skills, 85, 569-574.
35. Rogers, L. J. (1990). Light input and the reversal of functional lateralization in the chicken brain. Behavioural Brain Research, 38, 211-221.
36. Rogers, L. J. (2000). Evolution of hemispheric specialisation: Advantages and disadvantages. Brain and Language, 73, 236-253.
37. Rogers, L. J., Zucca, P., & Vallortigara, G. (2004). Advantages of having a lateralized brain. Proceedings of the Royal Society B: Biological Sciences, 271, S420-S422.
38. Sergent, J., & Signoret, J. L. (1992). Functional and anatomical decomposition of face processing: Evidence from prosopagnosia and PET study of normal subjects. Philosophical transactions of the Royal Society of London. Series B: Biological Sciences, 335, 55-61; discussion 61.
39. Skiba, M., Diekamp, B., & Gunturkun, O. (2002). Embryonic light stimulation induces different asymmetries in visuoperceptual and visuomotor pathways of pigeons. Behavioural Brain Research, 134, 149-156.
40. Sovrano, V. A., Bisazza, A., & Vallortigara, G. (2001). Lateralization of response to social stimuli in fishes: A comparison between different methods and species. Physiology and Behavior, 74, 237-244.
41. Sovrano, V. A., Rainoldi, C., Bisazza, A., & Vallortigara, G. (1999). Roots of brain specializations: Preferential left-eye use during mirror-image inspection in six species of teleost fish. Behavioural Brain Research, 106, 175-180.
42. Suthers, R. A., Vallet, E., Tanvez, A., & Kreutzer, M. (2004). Bilateral song production in domestic canaries. Journal of Neurobiology, 60, 381-393.
43. Vallortigara, G., Rogers, L. J., & Bisazza, A. (1999). Possible evolutionary origins of cognitive brain lateralization. Brain Research Reviews, 30, 164-175.
44. Zucca, P., & Sovrano, V. A. (2008). Animal lateralization and social recognition: Quails use their left visual hemifield when approaching a companion and their right visual hemifield when approaching a stranger. Cortex, 44, 13-20.