Event-related potentials (ERPs) have become widespread in second language acquisition (SLA) research and a growing body of literature has been produced in recent years. We surveyed 61 SLA papers that use ERPs to study L2 sentence processing in healthy late learners. Our main aim was to provide a critical summary of findings from the decade 2010-2020. The qualitative review reveals that proficiency plays a major role in determining ERP components, but its effect is modulated by language similarity and individual differences. The statistical analysis (a multinomial logistic regression) suggests that ERP components are uniquely predicted by learners' proficiency level and the linguistic phenomenon at issue, while no effect of language distance is found. We also made a cursive methodological overview, which evidences several gaps in the literature and raises some concerns on the way proficiency is factorized across studies.
The techniqueHigh-temporal resolution experimental techniques, such as Magnetoencephalography (MEG) and Electroencephalography (EEG), reveal that language processing unfolds millisecond-by-millisecond and involves multiple functional processes. EEG records electrical activity coming from postsynaptic potentials by means of electrodes placed on the subject's scalp. Since the propagation of the signal is instantaneous, EEG has an exquisite temporal resolution. On the other hand, given the distance and the variety of tissues -among which grey matter, bones, and skin -that separate signal Page 71 of 236 Language Acquisition Language Acquisition Language Acquisition 4Osterhout and colleagues (Osterhout et al. 2008, McLaughlin et al. 2004, for example, have observe that after a few months of classroom instruction, the same violations (e.g., subject-verb agreement) that initially elicited an N400 start to cause a P600, which is a more native-like pattern.This shift would track a progress towards the attainment of the target language as learners' proficiency grows, and Osterhout et al. ( 2008) call this "proceduralization" or "grammaticalization". This view is compatible with the Declarative-Procedural Model (DPM) of language acquisition proposed by Ullman and Paradis (Ullman 2016(Ullman , 2001Paradis 2009Paradis , 2004. In this framework, two memory systems are distinguished on anatomical, physiological, and functional grounds. The declarative memory system supports explicit knowledge and learning, which, generally, can be verbalized and are accessible to introspection. It is instantiated in temporal networks and regulated by acetylcholine.The procedural memory system deals with implicit, automatized knowledge and learning, which are largely unavailable to awareness. This system is mainly located in the basal ganglia, BA 44, 45, and the supplementary motor area, and its activity is modulated by dopamine. Since dopamine and acetylcholine are competing neurotransmitters, the two systems do not support each other, but rather operate in parallel with different timing. In other words, they can handle the sam...
