Sidestepping spatial confounds in object-based correspondence effects: The Bimanual Affordance Task (BMAT)

Q J Exp Psychol (Hove). 2019 Nov;72(11):2605-2613. doi: 10.1177/1747021819852216. Epub 2019 May 31.

Abstract

Tucker and Ellis found that when participants made left/right button-presses to indicate whether objects were upright or inverted, responses were faster when the response hand aligned with the task-irrelevant handle orientation of the object. The effect of handle orientation on response times has been interpreted as evidence that individuals perceive grasp affordances when viewing briefly presented objects, which in turn activate grasp-related motor systems. Although the effect of handle alignment has since been replicated, there remains doubt regarding the extent to which the effect is indeed driven by affordance perception. Objects that feature in affordance-compatibility paradigms are asymmetrical and have laterally protruding handles (e.g., mugs) and thus confound spatial and affordance properties. Research has attempted to disentangle spatial compatibility and affordance effects with varying results. In this study, we present a novel paradigm with which to study affordance perception while sidestepping spatial confounds. We use the Bimanual Affordance Task (BMAT) to test whether object affordances in symmetrical objects facilitate response times. Participants (N = 36) used one of three (left unimanual/right unimanual/bimanual) responses to indicate the colour of presented objects. Objects afforded either a unimanual (e.g., handbag) or a bimanual (e.g., laundry hamper) grasp. Responses were faster when the afforded grasp corresponded with the response type (unimanual vs. bimanual), suggesting that affordance effects exist independent of spatial compatibility.

Keywords: Affordance-compatibility; Simon effect; grasp affordance; object-based correspondence; spatial compatibility.

MeSH terms

  • Adult
  • Female
  • Hand Strength
  • Humans
  • Male
  • Orientation*
  • Orientation, Spatial*
  • Photic Stimulation
  • Psychomotor Performance*
  • Reaction Time*
  • Space Perception
  • Visual Perception*