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11.1: Tiny, powerful language learners

  • Page ID
    • Catherine Anderson, Bronwyn Bjorkman, Derek Denis, Julianne Doner, Margaret Grant, Nathan Sanders, and Ai Taniguchi
    • eCampusOntario

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    If you’ve ever taken care of a newborn, you’ll know that they’re so busy growing that they can’t do much else. They can sleep, they can eat (as long as their food is in liquid form), they can pee and poop, and they can cry. That’s pretty much it. When they’re just born, they can’t even really focus their eyes or control their limbs! But by the time they start school at age four or five, most of them can walk and run and jump, some can swim and ride bikes, and they can hold fairly sophisticated conversations with complex sentences and multi-syllable words. Here’s an example of an utterance by one of my twins when they were about four and a half years old:

    “Mummy, do you remember that time we made chocolate pudding? Maybe we could make some on Saturday. This Saturday, in the afternoon. I don’t need to take a nap. Let’s do it together, and maybe then we can eat some!”

    As awesome as my kids are, there’s nothing remarkable about their language development. Every typically-developing child who has access to language will become fluent in the language (or languages!) used around them, mostly without explicit teaching. So how do kids’ minds get from the newborn stage where the only sounds they make are crying and hiccuping to this stage of being able to bargain about naptime and kitchen projects? There must be an awful lot of learning that happens in those first few years. As we’ll see in this chapter, that learning can start even before birth! In this chapter we take a look at some of the elements of grammatical knowledge that children acquire, and we ask what that tells us about mental grammar.

    Children’s rapid language development can look quite magical from the outside, but it results from immense brain activity in response to the language environment, also known as the ambient language, the language used by the family members, caregivers, adults and older children that a child spends time with. The baby brain tracks the patterns in the language environment and uses them to build up the child’s own mental grammar. If the language environment is English, the child develops a mental grammar for English. And obviously, children in a Tamil-speaking environment develop a mental grammar for Tamil, children in a Mandarin-speaking environment develop a mental grammar for Mandarin, and so on. If the ambient language is American Sign Language (ASL), then the child will develop a mental grammar for ASL, regardless of whether they’re deaf or hearing. If a child is in an environment where two or more languages are used, they’ll develop mental grammars for both those languages.

    The Language environment and oralist culture

    There is one group of children who don’t have access to the language environment. About 90-95% of babies who are born deaf or hard of hearing are born into families where the primary language modality is speech (Mitchell & Karchmer, 2004). In some cases, families who learn that their child is deaf choose to start learning a sign language like ASL. If they use sign in their interactions with their child, then the baby has access to an ambient language in the visual modality and will develop a mental grammar from that input. But some families of deaf children choose not to use signed language, which means that their child does not get access to any ambient language: neither auditory nor visual. Why might a family make that decision? To answer that question, we need to talk a bit about cochlear implants.

    A cochlear implant (CI) is an electronic prosthetic device that is implanted surgically. It takes sounds from the environment and converts them to electrical signals. Those signals then get transmitted to the brain via the auditory nerve (NIH NIDCD, 2021). In developed countries, it is very common for deaf children to receive a CI between ages one and three years. Even so, most kids with CIs still score well below hearing kids on standard tests of language proficiency, even when they’ve had the implant for several years – not because of any deficit in the children, but because the electrical signals from a cochlear implant are not a sufficient language environment for typical development (Mauldin, 2019). But in spite of this evidence, there’s still a persistent stigma around sign languages and deafness, and many parents, teachers, and medical professionals consider it so important for children to “pass” in a hearing world that they don’t offer access to signed language because they fear that it might interfere with the child’s eventual acquisition of spoken language. Because of this belief that vocal language is better than sign language, known as oralism, many deaf children have no exposure to language before receiving a CI, and after implantation have access only to the atypical electrical signals produced by the device. This language deprivation leads to long-term impairments in social and cognitive function and, ironically, to lower scores on tests of vocal language comprehension (M. L. Hall et al., 2019; W. C. Hall, 2017; Humphries et al., 2016; Lillo-Martin & Henner, 2021). In contrast, when deaf children of hearing parents have access to ASL by age six months, their vocabulary develops at a comparable rate to deaf children of deaf signing parents (Caselli et al., 2021).

    This evidence from deaf kids shows us just how vital the language environment is, and how important it is that children have access to an ambient language as early as possible. The neural connections that make up mental grammar can only form in response to language input from the environment. Without that input in the first year of life, it’s much harder for the brain to build a mental grammar.

    A note on notation. When we’re talking about very young children, their age in months is often more relevant than their age in years. The convention in this literature is to use a semi-colon between the years and months of a child’s age. So a child aged 1;6 is one year and six months old, or one-and-a-half.

    Check your understanding

    Query \(\PageIndex{1}\)


    Caselli, N., Pyers, J., & Lieberman, A. M. (2021). Deaf Children of Hearing Parents Have Age-Level Vocabulary Growth When Exposed to American Sign Language by 6 Months of Age. The Journal of Pediatrics, 232, 229–236.

    Hall, M. L., Hall, W. C., & Caselli, N. K. (2019). Deaf children need language, not (just) speech. First Language, 39(4), 367–395.

    Hall, W. C. (2017). What You Don’t Know Can Hurt You: The Risk of Language Deprivation by Impairing Sign Language Development in Deaf Children. Maternal and Child Health Journal, 21(5), 961–965.

    Humphries, T., Kushalnagar, P., Mathur, G., Napoli, D. J., Padden, C., Rathmann, C., & Smith, S. (2016). Avoiding Linguistic Neglect of Deaf Children. Social Service Review, 90(4), 589–619.

    Lillo-Martin, D., & Henner, J. (2021). Acquisition of Sign Languages. Annual Review of Linguistics, 7(1), 395–419.

    Mauldin, L. (2019). Don’t look at it as a miracle cure: Contested notions of success and failure in family narratives of pediatric cochlear implantation. Social Science & Medicine, 228, 117–125.

    Mitchell, R. E., & Karchmer, M. A. (2004). Chasing the Mythical Ten Percent: Parental Hearing Status of Deaf and Hard of Hearing Students in the United States. Sign Language Studies, 4(2), 138–163.

    NIH NIDCD. (2021). Cochlear Implants. National Institute on Deafness and Other Communication Disorders.

    This page titled 11.1: Tiny, powerful language learners is shared under a CC BY-NC-SA 4.0 license and was authored, remixed, and/or curated by Catherine Anderson, Bronwyn Bjorkman, Derek Denis, Julianne Doner, Margaret Grant, Nathan Sanders, and Ai Taniguchi (eCampusOntario) via source content that was edited to the style and standards of the LibreTexts platform.