The proposed research uses bilingualism as a means to study general principles underlying human language and cognition, as well as an end in itself to understand how the rapidly growing bilingual segment of the U.S. population (and the majority of the world's population) processes language. The objective of the proposed research is to examine the consequences of bilingualism for language (Aim 1), cognition (Aim 2), and the brain (Aim 3). The methods employed include eye-tracking, electroencephalography, computational modeling, and cognitive and linguistic testing of bilinguals and monolinguals. Our previous research has shown that bilinguals co-activate both languages in parallel during spoken language comprehension when input overlaps in phonological form across languages. Study 1 aims to reveal covert co-activation of the non-target language during spoken comprehension when there is no overlap in input form, via multi-step cascading activation from the co-activated translation equivalent to phonologically overlapping items in the non-target language. Study 2 will examine the roles of top-down, lateral, and bottom-up mechanisms during co-activation in bilingual spoken language processing. Studies 3-5 will show that system changes as a result of experience with two interacting languages are not limited to linguistic processing, but also extend to non-linguistic cognitive processes such as visual search. This work will show that eye movements during visual search are influenced by co-activation of the two languages even when no linguistic information is present, thereby demonstrating that language experience changes visual search. Study 6 will use EEG to look at the neural signature and timecourse of language co-activation and control during bilingual spoken language comprehension. Theoretically, the proposed studies contribute to understanding how experience, particularly experience with two languages, reconfigures cognitive architecture and changes linguistic, cognitive, and neural function. This research illustrates the plasticity of the human brain as it adapts to accommodate multiple languages and provides insight into the relationship between language and cognition from the unique vantage point of bilingualism. Addressing broader societal needs, this work has practical implications for the large segment of the American population speaking a language other than English at home, for whom clinical and educational outcomes could be improved by developing interventions that capitalize on the interaction between the two languages, for example by using form-overlapping items (phonological cohorts, cognates) to facilitate co- activation of the two languages during treatment and learning. Health services depend on accurate models of cognitive, linguistic, and neural function, and the proposed research contributes to the development of such accounts for people whose systems are changed by bilingualism, so that the benefits of scientific knowledge are not limited to a subset of the population and extend to linguistically diverse groups.
The proportion of non-native English speakers in the United States is rapidly increasing and the majority of the world's population is bilingual, yet the most detailed models of human cognition are based on monolingual research. Social services such as school instruction and treatment of language disorders depend on accurate accounts of language and cognitive processing, and as researchers we have a responsibility to ensure that the benefits of scientific knowledge are not limited to a subset of the population and that linguistically diverse groups are not under-represented and under-served. The overarching goal of this project is to understand how bilingualism impacts cognition, language, and the brain and how knowing another language changes the architecture of the cognitive system -- by specifically focusing on co-activation and interaction of two languages, this work provides a scientific foundation for future translational research and for clinical and educational services that can capitalize on interactivity in the bilingual system so that one language may be used to bootstrap the other in order to maximize intervention benefits and improve clinical, educational, and social outcomes.
|Marian, Viorica; Lam, Tuan Q; Hayakawa, Sayuri et al. (2018) Top-Down Cognitive and Linguistic Influences on the Suppression of Spontaneous Otoacoustic Emissions. Front Neurosci 12:378|
|Schroeder, Scott R; Marian, Viorica (2017) Cognitive Consequences of Trilingualism. Int J Billing 21:754-773|
|Chen, Peiyao; Bobb, Susan C; Hoshino, Noriko et al. (2017) Neural signatures of language co-activation and control in bilingual spoken word comprehension. Brain Res 1665:50-64|
|Freeman, Max R; Blumenfeld, Henrike K; Marian, Viorica (2017) Cross-linguistic phonotactic competition and cognitive control in bilinguals. J Cogn Psychol (Hove) 29:783-794|
|Bartolotti, James; Marian, Viorica (2017) Bilinguals' Existing Languages Benefit Vocabulary Learning in a Third Language. Lang Learn 67:110-140|
|Marian, Viorica (2017) Orthographic and Phonological Neighborhood Databases across Multiple Languages. Writ Lang Lit 20:7-27|
|Bartolotti, James; Marian, Viorica (2017) Orthographic Knowledge and Lexical Form Influence Vocabulary Learning. Appl Psycholinguist 38:427-456|
|Bartolotti, James; Bradley, Kailyn; Hernandez, Arturo E et al. (2017) Neural signatures of second language learning and control. Neuropsychologia 98:130-138|
|Schroeder, Scott R; Lam, Tuan Q; Marian, Viorica (2017) Linguistic Predictors of Cultural Identification in Bilinguals. Appl Linguist 38:463-488|
|Marian, Viorica; Bartolotti, James; Rochanavibhata, Sirada et al. (2017) Bilingual Cortical Control of Between- and Within-Language Competition. Sci Rep 7:11763|
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