Piero Pagni scite author profile

Research has proved that disoriented children and nonhuman animals can reorient themselves using geometric and nongeometric features of the environment, showing conjoined use of both types of information to different degree depending on species and developmental level. Little is known of the neurobiological bases of these spatial reorientation processes. Here we take advantage of the neuroanatomical peculiarities of the visual system of birds (showing segregation of information between the two sides of the brain to a considerable degree) to investigate the way in which geometric and nongeometric information is encoded and used by the left and right hemispheres. Domestic chicks were trained binocularly in an environment with a distinctive geometry (a rectangular cage) with panels at the corners providing nongeometric cues. Between trials, chicks were passively disoriented to disable dead reckoning. When tested after removal of the panels, left-eyed chicks, but not right-eyed chicks, reoriented using the residual information provided by the geometry of the cage. When tested after removal of geometric information (i.e., in a square-shaped cage), both right- and left-eyed chicks reoriented using the residual nongeometric information provided by the panels. When trained binocularly with only geometric information, at test, left-eyed chicks reoriented better than right-eyed chicks. Finally, when geometric and nongeometric cues provided contradictory information, left-eyed chicks showed more reliance on geometric cues, whereas right-eyed chicks showed more reliance on nongeometric cues. The results suggest separate mechanisms for dealing with spatial reorientation problems, with the right hemisphere taking charge of large-scale geometry of the environment and with both hemispheres taking charge of local, nongeometric cues when available in isolation, but with a predominance of the left hemisphere when competition between geometric and non-geometric information occurs.

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Detour behaviour, imprinting and visual lateralization in the domestic chick

Vallortígara

Regolin

Pagni

1999

Cognitive Brain Research

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Working memory in the chick: parallel and lateralized mechanisms for encoding of object- and position-specific information

Regolin

Garzotto

Rugani

et al. 2005

Behavioural Brain Research

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Delayed search for social and nonsocial goals by young domestic chicks, Gallus gallus domesticus

et al. 2005

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Piero Pagni

Separate Geometric and Non-Geometric Modules for Spatial Reorientation: Evidence from a Lopsided Animal Brain

Detour behaviour, imprinting and visual lateralization in the domestic chick

Working memory in the chick: parallel and lateralized mechanisms for encoding of object- and position-specific information

Delayed search for social and nonsocial goals by young domestic chicks, Gallus gallus domesticus

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