TY - JOUR A1 - Tschentscher, Nadja A1 - Hauk, Olaf A1 - Fischer, Martin H. A1 - Pulvermüller, Friedemann T1 - You can count on the motor cortex finger counting habits modulate motor cortex activation evoked by numbers JF - NeuroImage : a journal of brain function N2 - The embodied cognition framework suggests that neural systems for perception and action are engaged during higher cognitive processes. In an event-related fMRI study, we tested this claim for the abstract domain of numerical symbol processing: is the human cortical motor system part of the representation of numbers, and is organization of numerical knowledge influenced by individual finger counting habits? Developmental studies suggest a link between numerals and finger counting habits due to the acquisition of numerical skills through finger counting in childhood. In the present study, digits 1 to 9 and the corresponding number words were presented visually to adults with different finger counting habits, i.e. left- and right-starters who reported that they usually start counting small numbers with their left and right hand, respectively. Despite the absence of overt hand movements, the hemisphere contralateral to the hand used for counting small numbers was activated when small numbers were presented. The correspondence between finger counting habits and hemispheric motor activation is consistent with an intrinsic functional link between finger counting and number processing. KW - Embodied cognition KW - Numerical cognaion KW - Finger counting habits KW - SNARC effect Y1 - 2012 U6 - https://doi.org/10.1016/j.neuroimage.2011.11.037 SN - 1053-8119 VL - 59 IS - 4 SP - 3139 EP - 3148 PB - Elsevier CY - San Diego ER - TY - JOUR A1 - Fischer, Martin H. T1 - A hierarchical view of grounded, embodied, and situated numerical cognition JF - Cognitive processing : international quarterly of cognitive science N2 - There is much recent interest in the idea that we represent our knowledge together with the sensory and motor features that were activated during its acquisition. This paper reviews the evidence for such "embodiment" in the domain of numerical cognition, a traditional stronghold of abstract theories of knowledge representation. The focus is on spatial-numerical associations, such as the SNARC effect (small numbers are associated with left space, larger numbers with right space). Using empirical evidence from behavioral research, I first describe sensory and motor biases induced by SNARC, thus identifying numbers as embodied concepts. Next, I propose a hierarchical relationship between grounded, embodied, and situated aspects of number knowledge. This hierarchical conceptualization helps to understand the variety of SNARC-related findings and yields testable predictions about numerical cognition. I report several such tests, ranging from cross-cultural comparisons of horizontal and vertical SNARC effects (Shaki and Fischer in J Exp Psychol Hum Percept Perform 38(3): 804-809, 2012) to motor cortical activation studies in adults with left- and right-hand counting preferences (Tschentscher et al. in NeuroImage 59: 3139-3148, 2012). It is concluded that the diagnostic features for each level of the proposed hierarchical knowledge representation, together with the spatial associations of numbers, make the domain of numerical knowledge an ideal testing ground for embodied cognition research. KW - Embodied cognition KW - Grounded cognition KW - Numerical cognition KW - SNARC effect Y1 - 2012 U6 - https://doi.org/10.1007/s10339-012-0477-5 SN - 1612-4782 VL - 13 SP - S161 EP - S164 PB - Springer CY - Heidelberg ER - TY - JOUR A1 - Gianelli, Claudia A1 - Ranzini, Mariagrazia A1 - Marzocchi, Michele A1 - Micheli, Leticia Rettore A1 - Borghi, Anna M. T1 - Influence of numerical magnitudes on the free choice of an object position JF - Cognitive processing : international quarterly of cognitive science N2 - The link between numerical magnitude and mechanisms of spatial orienting has been underlined in an increasing number of studies. Similarly, the relationship between numerical magnitude and grasping actions has started to be investigated. The present study focuses on the influence of numerical magnitude processing in the free choice of the position of an object. Participants were presented with a digit (1-9 without 5) and were required to decide whether it was smaller or larger than 5. Then, they had to grasp a small cube and change its position before vocally responding "higher" or "lower". Results showed that in the initial phase of the grasp movement, the grip aperture was modulated by the numerical magnitude. Moreover, participants shifted the position of the cube more leftward with smaller digits compared with larger ones, and they tended to position the object closer to themselves with smaller digits compared with larger ones. These results extend the previous findings indicating that the processing of magnitude is tightly related to the mechanisms of spatial orienting that subserve action execution. KW - Spatial-numerical associations KW - Magnitude processing KW - Hand kinematics KW - Embodied cognition Y1 - 2012 U6 - https://doi.org/10.1007/s10339-012-0483-7 SN - 1612-4782 VL - 13 SP - S185 EP - S188 PB - Springer CY - Heidelberg ER - TY - JOUR A1 - Apel, Jens K. A1 - Cangelosi, Angelo A1 - Ellis, Rob A1 - Goslin, Jeremy A1 - Fischer, Martin H. T1 - Object affordance influences instruction span JF - Experimental brain research N2 - We measured memory span for assembly instructions involving objects with handles oriented to the left or right side. Right-handed participants remembered more instructions when objects' handles were spatially congruent with the hand used in forthcoming assembly actions. No such affordance-based memory benefit was found for left-handed participants. These results are discussed in terms of motor simulation as an embodied rehearsal mechanism. KW - Action simulation KW - Affordance KW - Embodied cognition KW - Rehearsal KW - Sequential instruction KW - Working memory Y1 - 2012 U6 - https://doi.org/10.1007/s00221-012-3251-0 SN - 0014-4819 VL - 223 IS - 2 SP - 199 EP - 206 PB - Springer CY - New York ER -