Teleological reasoning bias is predicted by pupil dynamics: Evidence for the extensive integration account of bias in reasoning
Permanent lenke
https://hdl.handle.net/10037/32763Dato
2024-01-28Type
Journal articleTidsskriftartikkel
Peer reviewed
Sammendrag
Teleological reasoning is the tendency for humans to see purpose and intentionality in natural phenomena when there is none. In this study, we assess three
competing theories on how bias in reasoning arises by examining performance on
a teleological reasoning task while measuring pupil size and response times. We
replicate that humans (N=45) are prone to accept false teleological explanations.
Further, we show that errors on the teleological reasoning task are associated
with slower response times, smaller baseline pupil size, and larger pupil dilations.
The results are in line with the single-process extensive integration account and
directly oppose predictions from dual-processing accounts. Lastly, by modeling
responses with a drift-diffusion model, we find that larger baseline pupil size is associated with lower decision threshold and higher drift rate, whereas larger pupil
dilations are associated with higher decision threshold and lower drift rate. The
results highlight the role of neural gain and the Locus Coeruleus–Norepinephrine
system in modulating evidence integration and bias in reasoning. Thus, teleological reasoning and susceptibility to bias likely arise due to extensive processing
rather than through fast and effortless processing.
Er en del av
Mækelæ, M.J. (2024). The role of cognitive effort in decision-making and reasoning errors. Reasoning errors: Beyond insufficient effort - implicating the Locus Coeruleus - Norepinephrine system. (Doctoral thesis). https://hdl.handle.net/10037/33482Forlag
WileySitering
Mækelæ MJ, Kreis IV, Pfuhl G. Teleological reasoning bias is predicted by pupil dynamics: Evidence for the extensive integration account of bias in reasoning. Psychophysiology. 2024Metadata
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