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Updated: Jan 19, 2026

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Grasping a Chestnut Burr.

Arthur-Henri Michalland1,2, Guillaume Thébault1,3, Johan Briglia1

  • 1Department of Psychology, Université Paul Valéry Montpellier, EPSYLON EA 4556, Montpellier, France.

Experimental Psychology
|September 19, 2019
PubMed
Summary

Manual laterality influences action coding. Right-hand actions use detailed coding, considering stimulus and end-state outcomes, while left-hand actions show less elaborate coding, potentially ignoring action consequences.

Keywords:
actioncoding strategiesgraspingmanual laterality

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Area of Science:

  • Cognitive Psychology
  • Neuroscience
  • Human Motor Control

Background:

  • Manual laterality, the preference for using one hand over the other, plays a role in action coding.
  • Understanding how dominant and non-dominant hands process action-related information is crucial for cognitive science.

Purpose of the Study:

  • To investigate the influence of manual laterality on action coding strategies.
  • To determine how stimulus-related and end-state-related environmental features are processed differently by the dominant and non-dominant hands.

Main Methods:

  • A Simon paradigm was employed with right-handed participants, divided into groups responding with and without gloves.
  • Stimulus-related and end-state-related action consequences were assessed using positively (apricot) and negatively (chestnut burr) valenced objects.
  • Manual laterality's effect on coding strategies was analyzed by comparing responses of the dominant (right) and non-dominant (left) hands.

Main Results:

  • Responses made with the dominant right hand demonstrated an elaborated coding strategy, incorporating both stimulus and end-state consequences.
  • Responses with the non-dominant left hand exhibited a less elaborated coding strategy, appearing to disregard end-state consequences of actions.
  • The study highlights differential processing of action-related information based on hand dominance.

Conclusions:

  • Manual laterality significantly impacts how actions are coded and how environmental features relevant to those actions are processed.
  • The dominant hand utilizes a more comprehensive action coding strategy compared to the non-dominant hand.
  • These findings contribute to understanding the cognitive mechanisms underlying skilled movements and hand specialization.