Walking-related locomotion is facilitated by the perception of distant targets in the extrapersonal space

The Gibsonian notion of affordance has been massively employed in cognitive sciences to characterize the tight interdependence between hand-related actions, manipulable objects and peripersonal space. A behavioural facilitation effect, indeed, is observed for grasping actions directed to objects located in the ‘reachable’ peripersonal space. Relevantly, this relationship is supported by dedicated neural systems in the brain. The original notion of affordance, however, was directly inspired by real-time interactions between animals and their extended natural environment. Consistently, also the extrapersonal space representation can be significantly modulated by action-related factors, and the brain contains dedicated systems for the representation of topographical space and navigation. Here we examined whether a facilitation effect could be also described for a walking-related action in the far extrapersonal space. To this aim, we employed a go/no-go paradigm requiring subjects to execute a footstep ahead in response to pictures of a virtual reality environment containing objects located at different distances (near, far) and eccentricities (central, peripheral). A walking-related, facilitation effect for distant extrapersonal locations was found, suggesting an automatic trigger of walking by positions that preferentially guide spatial exploration. Based on the parallelism with the literature on micro-affordances, we propose that this effect can be described in terms of “macro-affordances”.

[1]  Jeanine K. Stefanucci,et al.  The Role of Effort in Perceiving Distance , 2003, Psychological science.

[2]  Gaetano Tieri,et al.  Where does an object trigger an action? An investigation about affordances in space , 2010, Experimental Brain Research.

[3]  G. Committeri,et al.  Social scaling of extrapersonal space: Target objects are judged as closer when the reference frame is a human agent with available movement potentialities , 2015, Cognition.

[4]  O. Blanke,et al.  Full body action remapping of peripersonal space: The case of walking , 2015, Neuropsychologia.

[5]  C. Galletti,et al.  The human cortical areas V6 and V6A , 2015, Visual Neuroscience.

[6]  Thomas Wolbers,et al.  Challenges for identifying the neural mechanisms that support spatial navigation: the impact of spatial scale , 2014, Front. Hum. Neurosci..

[7]  A. Minassian,et al.  Locomotor Profiling from Rodents to the Clinic and Back Again. , 2016, Current topics in behavioral neurosciences.

[8]  Fred H. Previc,et al.  A “neuropsychology of schizophrenia” without vision , 1993, Behavioral and Brain Sciences.

[9]  Jessica K. Witt,et al.  An older view on distance perception: older adults perceive walkable extents as farther , 2013, Experimental Brain Research.

[10]  Dwight J. Kravitz,et al.  A new neural framework for visuospatial processing , 2011, Nature Reviews Neuroscience.

[11]  Kate Wilmut,et al.  Locomotor adjustments when navigating through apertures. , 2010, Human movement science.

[12]  F. Previc The neuropsychology of 3-D space. , 1998, Psychological bulletin.

[13]  O. Grüsser,et al.  Multimodal Structure of the Extrapersonal Space , 1983 .

[14]  Takahiro Higuchi,et al.  Visual estimation of spatial requirements for locomotion in novice wheelchair users. , 2004, Journal of experimental psychology. Applied.

[15]  Marc Jeannerod,et al.  Spatially Oriented Behavior , 2011 .

[16]  L. S. Mark,et al.  Eyeheight-scaled information about affordances: a study of sitting and stair climbing. , 1987, Journal of experimental psychology. Human perception and performance.

[17]  R. Ellis,et al.  Micro-affordance: the potentiation of components of action by seen objects. , 2000, British journal of psychology.

[18]  Dwight J. Kravitz,et al.  Real-World Scene Representations in High-Level Visual Cortex: It's the Spaces More Than the Places , 2011, The Journal of Neuroscience.

[19]  D. Proffitt Embodied Perception and the Economy of Action , 2006, Perspectives on psychological science : a journal of the Association for Psychological Science.

[20]  Jonathan R. Zadra,et al.  Direct Evidence for the Economy of Action: Glucose and the Perception of Geographical Slant , 2010, Perception.

[21]  B. Bertenthal Perception and action. , 2012, Attention, perception & psychophysics.

[22]  J. Kalaska,et al.  Neural mechanisms for interacting with a world full of action choices. , 2010, Annual review of neuroscience.

[23]  R. Ellis,et al.  On the relations between seen objects and components of potential actions. , 1998, Journal of experimental psychology. Human perception and performance.

[24]  Nikolaus F. Troje,et al.  Priming biological motion changes extrapersonal space categorization. , 2017, Acta psychologica.

[25]  J. Gibson The Ecological Approach to Visual Perception , 1979 .

[26]  Giorgia Committeri,et al.  Sharing Space: The Presence of Other Bodies Extends the Space Judged as Near , 2014, PloS one.

[27]  G. Committeri,et al.  Distributed cognitive maps reflecting real distances between places and views in the human brain , 2014, Front. Hum. Neurosci..

[28]  Talma Hendler,et al.  Center–periphery organization of human object areas , 2001, Nature Neuroscience.

[29]  D. Proffitt,et al.  Visual-motor recalibration in geographical slant perception. , 1999, Journal of experimental psychology. Human perception and performance.

[30]  Russell A. Epstein Parahippocampal and retrosplenial contributions to human spatial navigation , 2008, Trends in Cognitive Sciences.

[31]  J. Jolles,et al.  The Neuropsychology of Schizophrenia , 2019 .

[32]  Patrick Marmaroli,et al.  Body part-centered and full body-centered peripersonal space representations , 2015, Scientific Reports.

[33]  G. Rizzolatti,et al.  Deficits in attention and movement following the removal of postarcuate (area 6) and prearcuate (area 8) cortex in macaque monkeys. , 1983, Brain : a journal of neurology.

[34]  W. Warren,et al.  Visual guidance of walking through apertures: body-scaled information for affordances. , 1987, Journal of experimental psychology. Human perception and performance.

[35]  Ettore Ambrosini,et al.  Handles lost in non-reachable space , 2013, Experimental Brain Research.