Abstract
A common practice in the cognitive neurosciences is to investigate population-typical phenomena, treating individuals as equal except for a few outliers that are usually discarded from analyses or that disappear on group-level patterns. Only a few studies to date have captured the heterogeneity of language processing across individuals as so-called "individual differences"; fewer have explicitly researched language aptitude, which designates an individual's ability for acquiring foreign languages. Existing studies show that, relative to average learners, very gifted language learners display different task-related patterns of functional activation and connectivity during linguistic tasks, and structural differences in white and grey matter morphology, and in white matter connectivity. Despite growing interest in language aptitude, there is no recent comprehensive review, nor a theoretical model to date that includes the neural level. To fill this gap, we review neuroscientific research on individual differences in language learning and language aptitude and present a first, preliminary neurocognitive model of language aptitude. We suggest that language aptitude could arise from an advantageous neurocognitive profile, which leads to high intrinsic motivation and proactive engagement in language learning activities. On the neural level, interindividual differences in the morphology of the bilateral auditory cortex constrain individual neural plasticity, as is evident in the speed and efficiency of language learning. We suggest that language learning success is further dependent upon highly efficient auditory-motor connections (speech-motor networks) and the structural characteristics of dorsal and ventral fibre tracts during language learning.
Highlights
Among the numerous social, cognitive, and affective variables that influence second language learning success, research suggests that motivation, age of onset, and language aptitude are by far the most influential predictors (Abrahamsson & Hyltenstam, 2008; Birdsong & Molis, 2001; Dörnyei & Skehan, 2003)
We suggest that language aptitude could arise from an advantageous neurocognitive profile, which leads to high intrinsic motivation and proactive engagement in language learning activities
Research on individual differences in second language learning has for a long time focused on observable differences in behaviour, it is clear that these differences are influenced by domain-general abilities, which are rooted in brain structure and function (Campbell & Tyler, 2018)
Summary
Cognitive, and affective variables that influence second language learning success (see Ellis, 2004, for an overview), research suggests that motivation, age of onset, and language aptitude are by far the most influential predictors (Abrahamsson & Hyltenstam, 2008; Birdsong & Molis, 2001; Dörnyei & Skehan, 2003). 2001, 2012), address several cognitive and environmental variables, but do not explicitly address the neurocognitive basis of their frameworks It remains unclear which brain areas and networks are involved in language aptitude, to what extent they modulate language learning success, and how they develop, and rely on potentially innate and/or prenatal factors. The brain areas most likely implicated in language aptitude are those that contribute centrally to language comprehension and production (Price, 2010, 2012), cognition, and, memory (e.g., see review by Biedron, 2015) These are primarily left frontal and perisylvian regions (inferior frontal, temporal and inferior parietal; as presented in the model of Hickok & Poeppel, 2004; Petrides, 2014), with contributions of right homologous regions as well (Vigneau et al, 2011).
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