Frequency of forms and broad functions (Research questions 1 & 2)

Appendix C provides details on which modals were used by the children and caregivers to convey which functionsFootnote ³. We first tested our hypothesis that the raw frequency of specific modal forms in the input would correlate with their frequency in the children’s speech (research question 1). This analysis solely included modals produced by either of the children or the mothers across the samples and therefore excluded the negated forms of may and shall (see Appendix B). A Spearman’s rank-order correlation revealed that for both children at age three, there was a positive correlation with their mothers’ modal use (Thomas: r _s = .54, p = 0.02; Helen: r _s = .85, p<0.001), with a stronger correlation observed at four (Thomas: r _s = .94, p<0.001; Helen r _s = .91, p<0.001). Positive correlations were also found between the mothers’ frequency of modals at age three and the children’s subsequent modal use at age four (Thomas: r _s = .93, p<0.001; Helen r _s = .94, p<0.001). The results reveal that, as predicted, the forms more common in caregivers’ speech are typically the forms used most frequently by children, even when controlling for whether dyads are engaged in the same conversation by relating children’s use at age four to their input at age three.

Research question 2 tested whether caregivers were more likely to use modals epistemically than their children by focussing on use of epistemic vs. non-epistemic functions. The children’s use of these functions was compared with their input (see Figure 1) using chi-squared analyses in R (R Core Team, 2014) (analysis 2a). Chi-square analyses indicated that for both children, at both ages, in line with our prediction, the mothers were significantly more likely to use modals epistemically than their children (Thomas 3;0: χ² = 34.33, df = 1, p<0.001; Thomas 4;0, χ² = 8.66, df = 1, p = 0.02; Helen 3;0: χ²= 8.66, df = 1, p = 0.003; Helen 4;0, χ² = 23.37, df = 1, p<0.001).

When taking all the data into account, however, it is unclear whether the children are less capable of producing modals for an epistemic purpose than their mothers, or whether the mothers are simply using forms epistemically, that are not yet in the children’s lexicon. To control for this possibility, we carried out a further analysis (analysis 2b) on only verbs that i.) were produced by both caregivers and children at least five times per dataset (to provide a reliable indicator of their epistemic vs. non-epistemic distribution) and ii.) showed both non-epistemic and epistemic functions. This dataset enabled us to compare the relative non-epistemic-epistemic distributions of the mothers’ and children’s use of a modal. The remaining modals for this analysis were can, can’t, should, will and won’t.

After applying these controls, Thomas’s mother was still significantly more likely to use modals epistemically than Thomas at three (χ² = 5.42, df = 1, p = 0.02) and four (χ² = 10.5, df = 1, p = 0.001). For Helen, her mother was significantly more likely to use epistemic modals at three (χ² = 12.9, df = 1, p < 0.001) but not four (χ²= 0.0003, df = 1, p = 0.9). These controls, however, still fail to account for differences in epistemic/non-epistemic usage that may result from the children and mothers using the modals with differing frequencies. Both mothers used the forms should, will and won’t more often than their children, perhaps due to differing pragmatic goals. Caregivers with more world knowledge are more likely than their children to discuss events outside of the here and now and to hypothesize about future events (Rowe, Reference Rowe2012), thus requiring epistemic modals (e.g., ‘Then it’s half term and the boys will be home’ uttered by Helen’s mother). They also use their knowledge to advise their child on their surroundings (e.g., ‘It won’t be the dustbin man now, Thomas’, uttered in the age three sample). These differences in pragmatic goals could result in greater epistemic modal use from mothers, but do not necessarily indicate that children are unable to use these epistemic forms in the same way should they wish to convey the same pragmatic goal.

To overcome the issue of unmatched distributions, we carried out a further control analysis (analysis 2c) on the five prior modals (can, can’t, should, will, won’t). In this analysis each verb was matched in quantity across the child and input samples at each age (e.g., Thomas aged three and his mother’s speech at this age) by taking all uses of a given modal in the smaller sample and randomly selecting the same number of modal instances from the larger sample. For example, can was used more frequently by Thomas’s mother than Thomas when he was three. We therefore included all Thomas’s can uses, but reduced his mother’s instances of can to the same number by randomly sampling from her can utterances (125 utterances, see Appendix B). For each verb, the data were randomly reduced in this way five times to ensure the samples were representative of overall use. For each of these five samples, the number of non-epistemic and epistemic uses were summed across all considered verbs.

Of the 20 separate chi-squared analyses, 18 returned non-significant results suggesting a similar distribution of epistemic uses between the children and caregivers (χ² range= 0 – 2.64, p-values range= 0.1 – 1). Only two (from Helen at three) showed a significant difference whereby the proportion of the caregiver’s epistemic uses was higher (χ² = 4.32, p = 0.04 for both analyses). On balance, these data suggest that, when necessary controls are implemented for both modal form and sample size, the caregivers did not use epistemic modals significantly more often than their children. Instead, the observed, proportionally more frequent, use of epistemic forms in caregiver speech, overall, reflects a larger sample of utterances with specific modals that may reflect the different pragmatic goals of caregivers and children. Epistemic uses are fairly uncommon but they are more easily detected in a large sample from the mothers.

To understand any difficulties children might face in acquiring some modals, we need to look beyond their broad epistemic function. Of course, since our analysis focused only on verbs frequently produced by the children, it could be that other forms are not yet in the children’s lexicon, perhaps because they are relatively infrequent in their input and take longer to learn, and/or because they are struggling with their function. Other modals (e.g., would) may express a more complex, assumptive type of epistemic modality (e.g., Sarah would like that film) that could rely on children’s perspective-taking skills. The key point is that it is only possible to identify where children face difficulties in acquiring modal functions by applying appropriate methodological controls to compare what they produce to what they hear.

Predicting children’s modal use (Research questions 3-6)

Similarly to previous work, the above analyses compared the mothers’ and children’s modal usage. However, prior work has not considered what predicts children’s use of a given modal or function, which we cover in research questions 3 to 6.

What predicts children’s epistemic modal use? (Research question 3)

We illustrated above that both children produce epistemic modals at three. In this section, we target research question 3 to test the prediction that children will more frequently use epistemic modals at four than at three, even when controlling for effects of input frequency. We fitted a logistic regression model using the glm function in R with Age (a categorical variable, three vs. four years of age) as our predictor of interest. We also added input variables as control predictors (‘Input Epistemic Frequency’, ‘Input Form Frequency’). An input account would predict children’s epistemic modal usage to be boosted by frequent forms in the input that consistently map onto the epistemic function. Controlling for the input is crucial to determine to what extent cognitive development influences acquisition rather than children simply taking longer to learn forms/functions that they hear less often. We also included the child’s MLU on each recording as a control variable to see whether epistemic modal use may relate to changes in the child’s language proficiency (see Table 3 for control predictor definitions). We analysed all modal utterances produced by the children. The binary outcome variable was ‘Function’ (0 for non-epistemic and 1 for epistemic).

For both children, ‘Age’ was not a significant predictor of their epistemic modal use (see Tables 5 and 6). ‘MLU’, however, was significant for Thomas. His improvement in language proficiency across the ages (see Table 1) co-occurred with his use of the arguably more complex epistemic function. For both children, ‘Input Epistemic Frequency’ was significant. They were more likely to produce an epistemic function if a particular verb frequently occurred with this function in the input. However, ‘Input Epistemic Frequency’ interacted with ‘Input Form Frequency’ such that the effect of ‘Input Epistemic Frequency’ was boosted for generally less frequent modals. The frequent input modals were typically dominated by non-epistemic uses (e.g., can was the most frequent modal in Thomas’s input (N=170) yet there was only one epistemic instance). Less frequent modals, however, typically showed a stronger bias towards epistemic. All might uses (at a lower 44 instances) were epistemic. They were therefore sensitive to these less frequent modals because they were not masked by such high frequency non-epistemic use.

Table 5. Logistic regression model to predict Thomas’s use of epistemic modals based on input form frequency, input epistemic frequency, MLU and age (research question 3) ^{Footnote 4}

Table 6. Logistic regression model to predict Helen’s use of epistemic modals based on input form frequency, input epistemic frequency, MLU and age (research question 3)

We also found an interaction between ‘Input Form Frequency’ and ‘Age’ for both children but in opposite directions. At age four, Thomas produced more epistemic functions with lower frequency modals. Yet, for Helen, this pattern was already observed at three. By four, she produced an epistemic function regardless of the form’s overall frequency. Helen appears developmentally more advanced than Thomas and produces more modals at three. This may explain why Helen’s epistemic modal use is not as dependent on input frequency at four as observed for Thomas.

To summarise, the regression analyses confirmed that age was not a significant main factor in children’s epistemic modal usage. Properties of the input, however, mattered –specifically, the frequency of forms and how consistently they mapped onto the epistemic function. These findings demonstrate the need to include methodological control variables within the analysis.

Acquisition of modal forms with fewer input functions (Research question 4)

Our hypothesis for research question 4 was that the number of distinct functions associated with a specific modal in the input would predict its frequency of use in the children’s speech. Modals with fewer functions ought to promote acquisition (see Appendix C for function distributions per modal and Table 2 for examples of form-function mappings the children produced). To assess this, we fitted a linear regression model using R’s lm function. Our predictor of interest was ‘Input Number of Functions’, i.e., the number of functions associated with the caregivers’ use of a modal. The outcome measure was ‘Child Modal Production’, i.e., number of instances of a modal in the child’s speech. We added ‘Input Form Frequency’, ‘Input Function Bias and ‘Age’ as controls (see Table 3) to ascertain whether children’s modal production is independently influenced by a modal’s distinct number of functions in caregiver speech, over and above other factors. ‘Input Function Bias’ may also influence a child’s production of a modal. A modal that is biased to one particular use may promote children’s understanding if they form a strong association between this form and its meaning. Since the outcome measure was derived from the child’s total number of instances of a modal at age three or four, we did not include MLU as a predictor. When collapsing the child’s modal use at one particular age, their average MLU (see Table 1) would not inform us of any additional variance in the model beyond the age predictor aloneFootnote ⁵.

For both children, ‘Input Number of Functions’ was not a significant predictor of their modal production (see Tables 7 and 8). ‘Input Form Frequency’, however, was, mirroring our earlier correlation findings. For Thomas, ‘Age’ was also significant, showing he produced more modals at four. We also tested for two-way interactions, but none were significant.

Table 7. Linear regression model to predict Thomas’s production of a modal verb based on input form frequency, age, input function bias and input number of functions (research question 4)

Table 8. Linear regression model to predict Helen’s production of a modal verb based on input form frequency, age, input function bias and input number of functions (research question 4)

Distribution of modal meanings (Research question 5)

In the previous section, we investigated whether modals with more complex form-to-function mappings were acquired later and showed that this was not the case: only form frequency predicted age of acquisition for modal forms. Research question 5 concerns the prediction that children will use a significantly greater number of functions with specific modals at age 4 compared to age 3. We fitted a linear regression model with ‘Child Number of Functions’ as the outcome (the number of functions associated with each child’s modal use). The child’s age was our predictor of interest. To isolate the effect of age on the outcome, we also included ‘Child Form Frequency’, ‘Input Function Bias’ and ‘Input Number of Functions’ as controlsFootnote ⁶. ‘Input Form Frequency’, although likely predictive of the child’s modal use, was not added based on the observed correlations between the mothers’ and children’s use of modals (RQ1). This predictor would thus be highly correlated with ‘Child Form Frequency’. ‘Child Form Frequency’ was included since a greater number of meanings could be detected from frequent forms the child produces. The child’s broader use of a modal is also likely to be heavily influenced by a high ‘Input Function Bias’ where the modal is strongly biased towards one meaning. Accordingly, ‘Input Number of Functions’ was incorporated since the number of functions associated with a modal in the input will conceivably affect the number of functions the child produces.

For Thomas, ‘Age’ was a significant predictor. He produced a higher number of functions at four (see Table 9). ‘Input Number of Functions’ was also significant, suggesting Thomas was more likely to use a modal for meanings he was exposed to. We can also see an effect of ‘Input Function Bias’. Thomas produced more functions with a modal if it had a strong bias towards one function. These predictors, in isolation, were not significant for Helen (see Table 10). However, ‘Child Form Frequency’ was significant for both children. More meanings were produced with verbs that they frequently used. This predictor also interacted with ‘Input Function Bias’. A low input function bias was only facilitative with forms that they used frequently. We will return to these findings in the Discussion.

Table 9. Linear regression model to predict the number of functions associated with Thomas’s use of a modal, based on child form frequency, input function bias, input number of functions and age (research question 5)

Table 10. Linear regression model to predict the number of functions associated with Helen’s use of a modal, based on child form frequency, input function bias, input number of functions and age (research question 5)

Form-Function Mappings (Research question 6)

In the previous section, we investigated whether age predicted the number of functions the child expressed. The following analyses concern what may govern children’s production of a particular form-function mapping (e.g., can-permission). We were particularly interested in whether, as hypothesized, the raw frequency of specific form-function mappings with individual modals in the input would predict the frequency of these same form-function mappings in the children’s speech, and if this was affected by the child’s age (research question 6). We fitted a linear regression model with two predictors of interest: ‘Input Form Function Frequency’, i.e., the number of instances of a particular form-function mapping in the mothers’ speech (e.g., must-obligation) and the child’s age. The outcome measure was ‘Child Form Function Frequency’, which relates to the frequency of a form-function mapping in the child’s speech (e.g., must-obligation). We also added the following controls: ‘Input Form Frequency’ and ‘Input Form Function Weighting’ that could both influence form-function mapping useFootnote ⁷. A form-function mapping with a high ‘Input Form Function Weighting’, may be more easily acquired if this form is consistently mapped to this meaning in the input. However, this is likely moderated by form frequency. Even if a form is consistently mapped to a particular function, it does not necessarily mean that this relationship will become entrenched if the form is rarely heard.

For Thomas, no main effects were significant. There was, however, a significant interaction between ‘Input Form Function Frequency’ and ‘Input Form Frequency’ (see Table 11). Thomas was more likely to produce the high frequency, form-function mappings of his input, particularly if the form was relatively frequent overall. This indicates Thomas’s overuse of high frequency form-function mappings, relative to his input, for typically high frequency forms, but some underuse of high frequency form-function mappings with the low frequency forms.

Table 11. Linear regression model to predict Thomas’s production of a specific form-function mapping based on input form frequency, input form function weighting, input form function frequency and age (research question 6)

For Helen, the frequency of a given form-function mapping in the input did influence the likelihood that Helen produced a modal form for this specific meaning (see Table 12). Unlike Thomas, however, the influence of this predictor was not mediated by form frequency. ‘Input Form Function Weighting’ was an additional significant predictor with a negative co-efficient. Helen was more prone to produce a specific mapping if the given form did not show a strong weighting towards this meaning. We will return to the roles of frequency and proportional weighting in the Discussion.

Table 12. Linear regression model to predict Helen’s production of a specific form-meaning mapping based on input form frequency, input form function weighting, input form function frequency and age (research question 6)

Summary

We found significant correlations in modal form frequency between the children and their caregivers. However, overall, both mothers were more inclined to use epistemic modals than their children (analysis 2a). Though, once the same modals that appeared in the mothers’ and children’s samples were controlled for frequency (analysis 2c), this conclusion did not hold. The children and their mothers did not differ in the proportion of these meanings. This suggests that children may not be less capable of producing the epistemic function than their caregivers, all other things being equal. We also investigated the children’s development of epistemic modal use from three to four. Age did not determine epistemic modal use, although the epistemic frequency of the form in the input and/or the child’s general language proficiency did.

Furthermore, we demonstrated the role of the child’s own linguistic experience. Both children used a modal for a greater number of functions with forms that they more frequently produced. This was mediated by the modal’s distributional properties in the input however. Children developed a more versatile use of a modal with frequent forms that were not strongly biased towards one meaning. They also showed sensitivity to the frequency of fine-grained, form-function mappings of their input. With a given modal, they were more prone to use this verb for its most common input function. Most of these findings were true for both children – however, there were some individual differences which we take up in the Discussion (see Table 13 for an overview).

Table 13. An overview of which predictors influenced the children’s modal usage patterns

Note: Predictors are ticked if the predictor was significant in isolation or as part of an interaction