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Novel-word learning, executive control and working memory: A bilingual advantage

Published online by Cambridge University Press:  05 July 2018

MEESHA A. WARMINGTON ,
SWATHI KANDRU-POTHINENI  and
GRAHAM J. HITCH
MEESHA A. WARMINGTON*
Affiliation:
University of Sheffield
SWATHI KANDRU-POTHINENI
Affiliation:
University of York
GRAHAM J. HITCH
Affiliation:
University of York
*
Address for correspondence: Dr. Meesha Warmington, Department of Human Communication Sciences, University of Sheffield, 362 Mushroom Lane, Sheffield, S10 2TSm.warmington@sheffield.ac.uk
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Abstract

Studies of the effects of bilingualism on cognition have given results that do not consistently replicate, reflecting at least in part wide differences in criteria for bilingualism and heterogeneity of language combinations within studied samples. We examined the bilingual advantage in attention, working memory and novel-word learning in early sequential Hindi–English bilinguals. We sought to clarify the aspects of cognition that benefit from bilingualism by using multiple measures and a sample sufficiently well-defined to permit independent replication. Bilinguals outperformed monolinguals on response inhibition, novel-word learning and almost all working memory tasks. In contrast, both groups performed comparably on selective attention. Analyses of individual differences showed that bilingual novel-word learning was related to their verbal working memory and ability to inhibit an ongoing action, whereas this was not the case for monolinguals. Results indicate a specific bilingual advantage that is confined to some but not all aspects of cognition.

Keywords

attentionbilingualismexecutive controlnovel-word learningworking memory
Type
Research Article
Information
Bilingualism: Language and Cognition , Volume 22 , Issue 4 , August 2019 , pp. 763 - 782
Copyright
Copyright © Cambridge University Press 2018 

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Footnotes

* The authors are grateful to the students who participated in this study; and three anonymous reviewers for their helpful comments.

Note: At the time when this study was conducted Swathi Kandru-Pothineni was affiliated with the University of York.

References

Abrahamse, E., Braem, S., Notebaert, W., & Verguts, T. (2016). Grounding Cognitive Control in Associative Learning. Psychological Bulletin, 142, 693728.Google Scholar
Adesope, O. O., Lavin, T., Thompson, T., & Ungerleider, C. (2010). A Systematic Review and Meta-analysis of the Cognitive Correlates of Bilingualism. Review of Educational Research, 80, 207245.Google Scholar
Alloway, T. P. (2007). Automated working memory assessment. London: Pearson Assessment.Google Scholar
Antón, E., Duñabeitia, J. A., Estévez, A., Hernández, J. A., Castillo, A., Fuentes, L. J., Davidson, D. J., & Carreiras, M. (2014). Is there a bilingual advantage in the ANT task? Evidence from children. Frontiers in Psychology, 5.Google Scholar
Baddeley, A., Gathercole, S., & Papagno, C. (1998). The phonological loop as a language learning device. Psychological review, 105 (1), 158.Google Scholar
Baddeley, A. D., & Hitch, G. J. (1974). Working memory. In Bower, G. H. (Ed.), The psychology of learning and motivation Vol. 8 (pp. 4789). New York: Academic Press.Google Scholar
BandG. P., H. G. P., H., van der Molen, M. W., &. Logan, G. D. (2003). Horse-race model simulations of the stop-signal procedure. Acta Psychologica 112, 105142.Google Scholar
Barac, R., & Bialystok, E. (2012). Bilingual effects on cognitive and linguistic development: Role of language, cultural background, and education. Child Development, 83,413422.Google Scholar
Bartolotti, J., & Marian, V. (2012). Language learning and control in monolinguals and bilinguals. Cognitive Science, 36 (6), 11291147.Google Scholar
Bartolotti, J., Marian, V., Schroeder, S. R., & Shook, A. (2011). Bilingualism and inhibitory control influence statistical learning of novel word forms. Frontiers in Psychology, 2, 324.Google Scholar
Bialystok, E. (2006). Effect of bilingualism and computer video game experience on the Simon task. Canadian Journal of Experimental Psychology/Revue canadienne de psychologie expérimentale, 60, 68.Google Scholar
Bialystok, E. (2017). The bilingual adaptation: How minds accommodate experience. Psychological bulletin, 143, 233.Google Scholar
Bialystok, E., Craik, F. I., Grady, C., Chau, W., Ishii, R., Gunji, A., & Pantev, C. (2005). Effect of bilingualism on cognitive control in the Simon task: evidence from MEG. NeuroImage, 24, 4049.Google Scholar
Bialystok, E., Craik, F. I. M., Klein, R., & Viswanathan, M. (2004). Bilingualism, aging, and cognitive control: Evidence from the Simon task. Psychology of Aging, 19, 290303.Google Scholar
Bialystok, E., Craik, F. I. M., & Ryan, J. (2006). Executive control in a modified antisaccade task: Effects of aging and bilingualism. Journal of Experimental Psychology: Learning, Memory, and Cognition, 32, 13411354.Google Scholar
Bialystok, E., Kroll, J. F., Green, D. W., MacWhinney, B., & Craik, F. I. M. (2015). Publication bias and the validity of evidence: What's the connection? Psychological Science, 26, 944946.Google Scholar
Bialystok, E., Majumder, S., & Martin, M. M. (2003). Developing phonological awareness: Is there a bilingual advantage? Applied Psycholinguistics,24, 2744.Google Scholar
Bialystok, E., Martin, M. M., & Viswanathan, M. (2005). Bilingualism across the lifespan: The rise and fall of inhibitory control. International Journal of Bilingualism, 9, 103119.Google Scholar
Bialystok, E., & Viswanathan, M. (2009). Components of executive control with advantages for bilingual children in two cultures. Cognition, 112, 494500.Google Scholar
Blaisdell, A. P., Sawa, K., Leising, K. J., & Waldmann, M. R. (2006). Causal Reasoning in Rats. Science, 311, 10201022.Google Scholar
Blom, E., Küntay, A. C., Messer, M., Verhagen, J., & Leseman, P. (2014). The Benefits of Being Bilingual: Working Memory in Bilingual Turkish–Dutch Children. Journal of Experimental Child Psychology, 128, 105119.Google Scholar
Booth, J. R., Burman, D. D., Meyer, J. R., Lei, Z., Trommer, B. L, Davenport, N. D, Li, W., Parrish, T. B, Gitelman, D. R., & Mesulam, M. M. (2003). Neural development of selective attention and response inhibition. Neuroimage, 20, 737751.Google Scholar
Bormann, T., Seyboth, M., Umarova, R., & Weiller, C. (2015). “I know your name, but not your number” – Patients with verbal short-term memory deficits are impaired in learning sequences of digits. Neuropsychologia 72, 8086.Google Scholar
Bunge, S. A., Dudukovic, N. M., Thomason, M. E., Vaidya, C. J., & Gabrieli, J. D. (2002). Immature frontal lobe contributions to cognitive control in children: evidence from fMRI. Neuron, 33, 301311.Google Scholar
Cenoz, J. (2003). The Additive effect of Bilingualism on Third Language Acquisition: A Review. International Journal of Bilingualism, 7, 7187.Google Scholar
Costa, A., Hernández, M., & Sebastián-Gallés, N. (2008). Bilingualism aids conflict resolution: Evidence from the ANT task. Cognition, 106, 5986.Google Scholar
Cummins, J. (1976). The influence of bilingualism on cognitive growth: A synthesis of research findings and explanatory hypotheses. Working Papers on Bilingualism, 9, 143.Google Scholar
De Bruin, A., Treccani, B., & Della Sala, S. (2014). Cognitive advantage in bilingualism: An example of publication bias? Psychological Science, 26, 99107.Google Scholar
Van Duijvenvoorde, A. C., Jansen, B. R., Griffioen, E. S., Van der Molen, M. W., & Huizenga, H. M. (2013). Decomposing developmental differences in probabilistic Feedback Learning: A Combined Performance and Heart-rate Analysis. Biological Psychology, 93, 175183.Google Scholar
Duñabeitia, J. A., Hernández, J. A., Antón, E., Macizo, P., Estévez, A., Fuentes, L. J., & Carreiras, M. (2014). The inhibitory advantage in bilingual children revisited: Myth or reality? Experimental Psychology (formerly Zeitschrift für Experimentelle Psychologie), 61, 234251.Google Scholar
Efron, B., & Tibshirani, R. J. (1994). An Introduction to the Bootstrap. Chapman and Hall/CRC, UK.Google Scholar
Engle, R. W. (2002). Working Memory Capacity as Executive Attention. Current Directions in Psychological Science, 11, 1923.Google Scholar
Engel de Abreu, P. (2011). Working Memory in multilingual children: Is there a bilingual effect? Memory, 19, 529537.Google Scholar
Engel de Abreu, P. M. J., Cruz-Santos, A., Tourinho, C. J., Martin, R., & Bialystok, E. (2012). Bilingualism enriches the poor: Enhanced cognitive control in low-income minority children. Psychological Science, 23, 13641371.Google Scholar
Eriksen, B.A., & Eriksen, C.W. (1974). Effects of noise letters upon the identification of a target in a nonsearch task. Perception & Psychophysics, 16, 143149.Google Scholar
Faul, F., & Erdfelder, E. (1992). GPOWER: A Priori, Post-hoc, and Compromise Power Analyses for MS-DOS [Computer Program]. Bonn, FRG: Bonn University, Department of Psychology.Google Scholar
Flege, J. E., MacKay, I. R., & Piske, T. (2002). Assessing bilingual dominance. Applied Psycholinguistics, 23, 567598.Google Scholar
Forster, K. I., & Forster, J. C. (2003). DMDX: A windows display program with millisecond accuracy. Behavior Research Methods, Instruments, & Computers, 35, 116–124.Google Scholar
Friedman, N. P., & Miyake, A. (2004). The relations among inhibition and interference control functions: A latent-variable analysis. Journal of Experimental Psychology: General, 18, 893900.Google Scholar
Friedman, N. P., Miyake, A., Young, S. E., DeFries, J. C, Corley, R. P., & Hewitt, J. K. (2008). Individual differences in executive functions are almost entirely genetic in origin. Journal of Experimental Psychology: General, 137, 201225.Google Scholar
Fritz, M. S., & MacKinnon, D. P. (2007). Required Sample Size to Detect the Mediated Effect. Psychological Science, 18, 233239.Google Scholar
Gasquoine, P. G., Weimer, A. A., & Amador, A. (2017). Specificity rates for non-clinical, bilingual, Mexican Americans on three popular performance validity measures. The Clinical Neuropsychologist, 31, 587597.Google Scholar
Gathercole, S. E. (2006). Nonword repetition and word learning: The nature of the relationship. Applied Psycholinguistics, 27, 513544.Google Scholar
Gathercole, S. E., & Baddeley, A. D. (1990). The Role of Phonological Memory in Vocabulary Acquisition: A study of Young Children Learning New Names. British Journal of Psychology, 81, 439454.Google Scholar
Gathercole, S. E., Hitch, G. J., Service, E., & Martin, A. J. (1997). Phonological Short-Term Memory and New Word Learning in Children. Developmental Psychology, 33, 966979.Google Scholar
Gathercole, S. E., Willis, C., Emslie, H., & Baddeley, A. D. (1992). Phonological memory and vocabulary development during the early school years: A longitudinal study. Developmental Psychology, 28, 887898.Google Scholar
Gathercole, V. C. M., Thomas, E. M., Kennedy, I., Prys, C., Young, N., Viñas Guasch, N. V., Roberts, E. J., Hughes, E. K., & Jones, L. (2014). Does language dominance affect cognitive performance in bilinguals? Lifespan evidence from preschoolers through older adults on card sorting, Simon, and metalinguistic tasks. Frontiers in Psychology, 5, 11.Google Scholar
Green, D. W., & Abulatebi, J. (2013). Language control in bilinguals: the adaptive control hypothesis. Journal of Cognitive Psychology, 25, 515530.Google Scholar
Hammer, A., Mohammadi, B., Schmicker, M., Saliger, S., & Münte, T. F. (2011). Errorless and errorful learning modulated by transcranial direct current stimulation. BMC Neuroscience, 12, 7280.Google Scholar
Hayes, A. F. (2009). Beyond Baron and Kenny: Statistical Mediation Analysis in the New Millennium. Communication Monographs, 76, 408420.Google Scholar
Hayes, J. R. (2013). The Complete Problem Solver. Routledge.Google Scholar
Hernández, M., Costa, A., & Humphreys, G. W. (2012). Escaping capture: Bilingualism modulates distraction from working memory. Cognition, 122, 3750.Google Scholar
Hilchey, M. D., & Klein, R. M. (2011). Are there bilingual advantages on nonlinguistic interference tasks? Implications for the plasticity of executive control processes. Psychonomic Bulletin and Review, 18, 625658.Google Scholar
Hua, Z., & David, A. (2008). Study design: Cross-sectional, longitudinal, case, and group. The Blackwell guide to research methods in bilingualism and multilingualism, 88–107.Google Scholar
Jennings, J. R., van der Molen, M. W., Pelham, W., Debski, K. B., & Hoza, B. (1997). Inhibition in boys with attention deficit hyperactivity disorder as indexed by heart rate change. Developmental Psychology, 33, 308318.Google Scholar
Kapa, L. L., & Colombo, J. (2013). Attentional control in early and later bilingual children. Cognitive Development, 28, 233246.Google Scholar
Kaushanskaya, M. (2012). Cognitive mechanisms of learning in bilingual and monolingual adults: The role of phonological memory. Bilingualism: Language and Cognition, 15, 470489.Google Scholar
Kaushanskaya, M., & Marian, V. (2009a). The bilingual advantage in novel word learning. Psychonomic Bulletin and Review, 16, 705710.Google Scholar
Kaushanskaya, M., & Marian, V. (2009b). Bilingualism reduces native-language interference in novel word learning. Journal of Experimental Psychology: Learning, Memory, and Cognition, 35, 829835.Google Scholar
Khng, K. H., & Lee, K. (2009). Inhibiting interference from prior knowledge: Arithmetic intrusions in algebra word problem solving. Learning and Individual Differences, 19, 262268.Google Scholar
Khng, K. H., & Lee, K. (2014). The relationship between Stroop and Stop-Signal measures of inhibition in adolescents: Influences from variations in context and measure estimation. PLoS One, 9 (7): e101356.Google Scholar
Kirk, N. W., Fiala, L., Scott-Brown, K. C., & Kempe, V. (2014). No evidence for reduced Simon cost in elderly bilinguals and bidialectals. Journal of Cognitive Psychology, 26, 640648.Google Scholar
Kreft, I. G., & de Leeuw, J. (1998). Introducing multilevel modeling. Thousand Oaks, CA: Sage.Google Scholar
Livesey, D., Keen, J., Rouse, J., & White, F. (2006). The relationship between measures of executive function, motor performance and externalising behaviour in 5- and 6-year-old children. Human Movement Science, 25, 5064.Google Scholar
Lu, C. H., & Proctor, R. W. (1995). The influence of irrelevant location information on performance: A review of the Simon and spatial Stroop effects. Psychonomic Bulletin and Review, 2, 174207.Google Scholar
Luk, G., de Sa, E., & Bialystok, E. (2011). Is there a relation between onset age of bilingualism and enhancement of cognitive control? Bilingualism: Language and Cognition, 14, 588595.Google Scholar
Logan, G. D. (1994). On the ability to inhibit thought and action: a users’ guide to the stop signal paradigm. In Dagenbach, D., & Carr, T. H. (Eds.), Inhibitory processes in attention, memory, and language. San Diego: Academic Press.Google Scholar
Logan, G. D., & Cowan, W. B. (1984). On the ability to inhibit thought and action: a theory of an act of control. Psychological Review, 91, 295327.Google Scholar
Martin-Rhee, M., & Bialystok, E. (2008).The development of two types of inhibitory control in monolingual and bilingual children. Bilingualism: Language and Cognition, 11, 8193.Google Scholar
Mayringer, H., & Wimmer, H. (2000). Pseudoname learning by German-speaking children with dyslexia: evidence for a phonological learning deficit. Journal of Experimental Child Psychology, 75, 116133.Google Scholar
Menard, S. (1993). Applied Logistic Regression Analysis, Thousand Oaks, CA: Sage.Google Scholar
Messbauer, V. C., & de Jong, P. F. (2003). Word, nonword, and visual paired associate learning in Dutch dyslexic children. Journal of Experimental Child Psychology, 84, 7796.Google Scholar
Miękisz, A., Haman, E., Łuniewska, M., Kuś, K., O'Toole, C., & Katsos, N. (2017). The impact of a first-generation immigrant environment on the heritage language: productive vocabularies of Polish toddlers living in the UK and Ireland. International Journal of Bilingual Education and Bilingualism, 20, 183200.Google Scholar
Mishra, R. K., & Singh, S. (2014). Language non-selective activation of orthography during spoken word processing in Hindi–English sequential bilinguals: an eye tracking visual world study. Reading and Writing, 27, 129151.Google Scholar
Miyake, A., & Friedman, N. P. (2012). The nature and organization of individual differences in executive functions: Four general conclusions. Current Directions in Psychological Science, 21, 814.Google Scholar
Morales, J., Calvo, A., & Bialystok, E. (2013). Working memory development in monolingual and bilingual children. Journal of Experimental Child Psychology, 114, 187202.Google Scholar
Morrison, C. M., Chappell, T. D., & Ellis, A. W. (1997). Age of acquisition norms for a large set of object names and their relation to adult estimates and other variables. Quarterly Journal of Experimental Psychology, 50A, 528559.Google Scholar
Morrison, C. M., Ellis, A. W., & Quinlan, P. T. (1992). Age of acquisition, not word frequency, affects object naming, not object recognition. Memory and Cognition, 20, 705714.Google Scholar
Myers, R. (1990). Classical and Modern Regression with Applications. Duxbury Press, Boston, MA.Google Scholar
Namazi, M., & Thordardottir, E. (2010). A working memory, not bilingual advantage, in controlled attention. International Journal of Bilingual Education and Bilingualism, 13, 597616.Google Scholar
Overtoom, C. C., Kenemans, J. L., Verbaten, M. N., Kemner, C., van der Molen, M. W., Van Engeland, H., Buitelaar, J. K., & Koelega, H. S. (2002). Inhibition in children with attention-deficit/hyperactivity disorder: a psychophysiological study of the stop task. Biological Psychiatry, 51, 668676.Google Scholar
Paap, K. R., & Greenberg, Z. I. (2013). There is no coherent evidence for a bilingual advantage in executive processing. Cognitive Psychology, 66, 232235.Google Scholar
Paap, K. R., Johnson, H. A., & Sawi, O. (2015). Bilingual advantages in executive functioning either do not exist or are restricted to very specific undetermined circumstances. Cortex, 69, 265278Google Scholar
Papagno, C., & Vallar, G. (1995). Short-term memory and vocabulary learning in polyglots. Quarterly Journal of Experimental Psychology, 48A, 98107.Google Scholar
Poepsel, T. J., & Weiss, D. J. (2016). The influence of bilingualism on statistical word learning. Cognition, 152, 919.Google Scholar
Preacher, K. J., & Hayes, A. F. (2008). Asymptotic and Resampling Strategies for Assessing and Comparing Indirect Effects in Multiple Mediator Models. Behavior Research Methods, 40, 879891.Google Scholar
Prior, A., & Gollan, T.H. (2011). Good Language-Switchers are Good Task-Switchers: Evidence from Spanish–English and Mandarin–English Bilinguals. Journal of the International Neuropsychological Society, 17, 682691.Google Scholar
Ratcliff, R. (1993). Methods of dealing with reaction time outliers. Psychological Bulletin, 114, 510532.Google Scholar
Ratiu, I., & Azuma, T. (2015). Working Memory Capacity: is there a bilingual advantage? Journal of Cognitive Psychology, 27, 111.Google Scholar
Reder, F., Marec-Breton, N., Gombert, J. E., & Demont, E. (2013). Second-language learners’ advantage in metalinguistic awareness: A question of languages’ characteristics. British Journal of Educational Psychology, 83, 686702.Google Scholar
Roberts, R. J. Jr., Hager, L. D., & Heron, C. (1994). Prefrontal cognitive processes: Working memory and inhibition in the antisaccade task. Journal of Experimental Psychology: General, 123, 374393.Google Scholar
Rose, S. A., Feldman, J. F., & Jankowski, J. J. (2009). A cognitive approach to the development of early language. Child Development, 80, 134150.Google Scholar
Shrout, P. E., & Bolger, N. (2002). Mediation in Experimental and Nonexperimental Studies: New Procedures and Recommendations. Psychological Methods, 7, 422.Google Scholar
Singh, L., Fu, C. S., Tay, Z. W., & Golinkoff, R. M. (2017). Novel Word Learning in Bilingual and Monolingual Infants: Evidence for a Bilingual Advantage. Child Development. DOI: 10.1111/cdev.12747Google Scholar
Thorn, A. S., & Gathercole, S. E. (1999). Language-specific Knowledge and Short-term Memory in Bilingual and Non-bilingual Children. The Quarterly Journal of Experimental Psychology: Section A, 52, 303324.Google Scholar
Ulrich, T., & Miller, J. (1994). Effects of truncation on reaction time analysis. Journal of Experimental Psychology: General, 123, 3480.Google Scholar
Unsworth, N., & Spillers, G. J. (2010). Variation in working memory capacity and episodic recall: The contributions of strategic encoding and contextual-retrieval. Psychonomic Bulletin and Review, 17, 200205.Google Scholar
Van Hell, J. G., & Mahn, A. C. (1997). Keyword mnemonics versus rote rehearsal: Learning concrete and abstract foreign words by experienced and inexperienced learners. Language Learning, 47, 507546Google Scholar
Verbruggen, F., & Logan, G. D. (2009). Models of response inhibition in the stop-signal and stop-change paradigms. Neuroscience & Biobehavioral Reviews, 33, 647661.Google Scholar
Warmington, M., & Hitch, G. J. (2014). Enhancing the learning of new words using an errorless learning procedure: Evidence from typical adults. Memory, 22, 582594.Google Scholar
Warmington, M., Hitch, G. J., & Gathercole, S. E. (2013). Improving word learning in children using an errorless technique. Journal of Experimental Child Psychology, 114, 456465.Google Scholar
Warmington, M., & Hulme, C. (2012). Phoneme Awareness, Visual-verbal Paired-associate Learning, and Rapid Automatized Naming as Predictors of Individual Differences in Reading Ability. Scientific Studies of Reading, 16, 4562.Google Scholar
Wechsler, D. (1999). Wechsler abbreviated scale of intelligence. San Antonio, TX: Psychological Corporation.Google Scholar