Fast mapping of hominids

Dahliane Labertoniere; Vanessa A. D. Wilson; Carla Pascual-Guàrdia; Katrin  Skoruppa; Klaus Zuberbühler

doi:10.1007/s10071-025-01974-x

Fast mapping of hominids

Dahliane Labertoniere^*, Vanessa A. D. Wilson, Carla Pascual-Guàrdia, Katrin Skoruppa, Klaus Zuberbühler

^*Corresponding author for this work

Research output: Contribution to journal › Article › peer-review

Abstract

Fast mapping is essential when children acquire language, but whether the
required cognition is uniquely human or shared with animals is debated. Although documented in dogs and cats, both species have a history of domestication of social cognition, so that it remains unclear whether fast mapping is naturally present in non-domesticated animals. Here, we used an eye-tracking paradigm to test three species of hominids – gorillas, orangutans and humans – in their ability to rapidly learn to associate novel sounds with objects in their everyday noisy environment. The task was difficult for all participants, but while adult humans showed evidence of fast mapping, we could not detect any sign of learning in the other hominids. These species differences could have trivial causes, such as problems with attention or motivation, but it is also possible that fast mapping requires a preexisting lexicon before becoming an effective learning mechanism, or that it has simply evolved after the shared ancestor of all great apes.

Original language	English
Article number	53
Journal	Animal Cognition
Volume	28
DOIs	https://doi.org/10.1007/s10071-025-01974-x
Publication status	Published - 1 Jul 2025

Keywords

Fast mapping
Word learning
Language evolution
Comparative cognition
Language acquisition
Meaning
Mental representation

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title = "Fast mapping of hominids",

abstract = "Fast mapping is essential when children acquire language, but whether therequired cognition is uniquely human or shared with animals is debated. Although documented in dogs and cats, both species have a history of domestication of social cognition, so that it remains unclear whether fast mapping is naturally present in non-domesticated animals. Here, we used an eye-tracking paradigm to test three species of hominids – gorillas, orangutans and humans – in their ability to rapidly learn to associate novel sounds with objects in their everyday noisy environment. The task was difficult for all participants, but while adult humans showed evidence of fast mapping, we could not detect any sign of learning in the other hominids. These species differences could have trivial causes, such as problems with attention or motivation, but it is also possible that fast mapping requires a preexisting lexicon before becoming an effective learning mechanism, or that it has simply evolved after the shared ancestor of all great apes.",

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author = "Dahliane Labertoniere and {A. D. Wilson}, Vanessa and Carla Pascual-Gu{\`a}rdia and Katrin Skoruppa and Klaus Zuberb{\"u}hler",

note = "Funding: This research was supported by funding from the Institute of Speech and Language Therapy (K.S.), the University of Neuch{\^a}tel (K.S., K.Z.) and the National Centre for Competence in Research {\textquoteleft}Evolving Language{\textquoteright} (SNSF agreement 295 number 51NF40_180888, K.Z.) and Top-Up Grant (grant number N603-18-01, V.A.D.W., K.Z.).",

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AU - Pascual-Guàrdia, Carla

AU - Skoruppa, Katrin

AU - Zuberbühler, Klaus

N1 - Funding: This research was supported by funding from the Institute of Speech and Language Therapy (K.S.), the University of Neuchâtel (K.S., K.Z.) and the National Centre for Competence in Research ‘Evolving Language’ (SNSF agreement 295 number 51NF40_180888, K.Z.) and Top-Up Grant (grant number N603-18-01, V.A.D.W., K.Z.).

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N2 - Fast mapping is essential when children acquire language, but whether therequired cognition is uniquely human or shared with animals is debated. Although documented in dogs and cats, both species have a history of domestication of social cognition, so that it remains unclear whether fast mapping is naturally present in non-domesticated animals. Here, we used an eye-tracking paradigm to test three species of hominids – gorillas, orangutans and humans – in their ability to rapidly learn to associate novel sounds with objects in their everyday noisy environment. The task was difficult for all participants, but while adult humans showed evidence of fast mapping, we could not detect any sign of learning in the other hominids. These species differences could have trivial causes, such as problems with attention or motivation, but it is also possible that fast mapping requires a preexisting lexicon before becoming an effective learning mechanism, or that it has simply evolved after the shared ancestor of all great apes.

AB - Fast mapping is essential when children acquire language, but whether therequired cognition is uniquely human or shared with animals is debated. Although documented in dogs and cats, both species have a history of domestication of social cognition, so that it remains unclear whether fast mapping is naturally present in non-domesticated animals. Here, we used an eye-tracking paradigm to test three species of hominids – gorillas, orangutans and humans – in their ability to rapidly learn to associate novel sounds with objects in their everyday noisy environment. The task was difficult for all participants, but while adult humans showed evidence of fast mapping, we could not detect any sign of learning in the other hominids. These species differences could have trivial causes, such as problems with attention or motivation, but it is also possible that fast mapping requires a preexisting lexicon before becoming an effective learning mechanism, or that it has simply evolved after the shared ancestor of all great apes.

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KW - Word learning

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KW - Comparative cognition

KW - Language acquisition

KW - Meaning

KW - Mental representation

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VL - 28

JO - Animal Cognition

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ER -

Fast mapping of hominids

Abstract

Keywords

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