2.1 Three Danish settlements

The Danes settled primarily in the capital Buenos Aires, on the Pampas southwest of Buenos Aires between the towns Tandil, Tres Arroyos, and Necochea, and from the early 1920s in Eldorado in the province Misiones in the north of Argentina (see Map 1).

Map 1. Map of Northeast Argentina showing Danish settlements: Eldorado (to the north), Buenos Aires, and the Pampas settlements in the triangle. (Adapted from Google Maps).

The settlement on the Pampas is the strongest in terms of network and maintenance of Danish culture and language. In this pioneer community, strong and dense social and religious networks were established. It became customary to provide work and financial support to newcomers from Denmark or of Danish descent so that they could establish their own farms or industry. The Pampas Danes established a boarding school outside Tres Arroyos for the children of the immigrants, where both Danish and Spanish were taught, as well as a so-called ‘folk high school’ for adult education. Club and sports activities also played an important role in maintaining Danish ethnicity among the immigrants on the Pampas (Hartling Reference Hartling2019:7–15, Kühl & Heegård Petersen Reference Kühl, Heegård Petersen and Wolf-Farré2022, Heegård Petersen & Kühl, Reference Heegård Petersen and Kühlsubmitted).

The Danish community in the capital Buenos Aires also has its roots in the early period of immigration. The Buenos Aires Danes also formed sports clubs and used the Danish church as a meeting place for social and religious activities, but the Danish community never came to be as strong and self-contained as on the Pampas. This had the linguistic consequence that the Danish language never came to play the same important role for the immigrants’ identity as on the Pampas (Hartling Reference Hartling2019:9–34, Kühl et al. Reference Kühl, Heegård Petersen and Foget Hansen2019).

Danes from the Pampas were among the first pioneers to cultivate the jungle around what would become the city of Eldorado in the province Misiones. Approximately 30 Danish families moved to Eldorado, mainly from the community on the Pampas in the south, and established themselves as farmers or in the expanding timber industry. The Danes in Eldorado never formed sport clubs, Danish schools, or churches (Hansen Reference Hansen2016). In the harsh climate in the jungle, where many other immigrants also settled in the pioneer period 1920–1930, it was customary to engage socio-economically and culturally with other ethnic groups. In contrast to the Danish community on the Pampas, it was socially acceptable to marry outside the community, with the consequence that integration and assimilation happened quickly, leading to disintegration of the Danish network. The number of Danish descendants in Eldorado who can still speak Danish is restricted to 12–15 speakers, all over 65 years old (Kühl et al. Reference Kühl, Heegård Petersen and Foget Hansen2019, Heegård Petersen, Kühl & Bakker Reference Heegård Petersen, Kühl, Bakker and Hjorth2021).

2.2 Danish in Argentina

The exact number of Argentine Danes who can still speak Danish is uncertain. Kühl et al. (Reference Kühl, Heegård Petersen and Foget Hansen2019) suggest that the number does not exceed 1,000, and all speakers are sequentially or simultaneously bilingual, having acquired both Danish and Spanish from early childhood or learnt Spanish from the start of school. There are very few speakers under 65 years, reflecting a discontinuance of language transmission that took place during the 1970s. Until that period, Danish in Argentina was transmitted to the following generations as a carrier of Danish ethnicity and ancestry. Historical records report that Danish was used in the churches up to the 1970s (in Necochea on the Pampas up to the 1990s); Danish was taught – along with Spanish – in the Danish boarding school; Danish was used in meetings and in organizations, and there were also Danish newspapers up to the 1960s. Today, though, even the oldest speakers of Argentine Danish use Spanish in their daily lives and at social occasions.

2.3 Argentine Spanish influence on Danish

In the course of the transmission of Danish in a bilingual context, where Argentine Spanish over the years became the dominant language, it was inevitable that Argentine Spanish had an influence on the language. This can be detected in the vocabulary and in the grammar.Footnote ¹ Two studies indicate that the Spanish-influenced Danish of the Eldorado speakers may differ more from Modern Danish in the lexicon (Heegård Petersen Reference Petersen, Petersen and Kühl2018) and morphology (Kühl & Heegård Petersen Reference Kühl and Heegård Petersen2021) than the other Argentine varieties. Both studies suggest that this may be due to the particular sociolinguistic context of the Danish community in Eldorado.

Only a few phonetic features are mentioned in the literature as characteristic of Argentine Danish. Heegård Petersen, Hansen & Thøgersen (Reference Heegård Petersen, Foget Hansen and Thøgersen2020) show that some speakers have a tendency not to maintain a contrast between Danish /oː/ and /ɔː/. The authors suggest that this phonetic merger may be due to pressure from Argentine Spanish, which has only one mid back vowel, /o/. I discuss in Section 7.4 whether the distinct Argentine Danish pronunciation of /t^s/ can also be explained as a result of this language contact.

4.1 The CoSAmDa data

The data used in this study come from the Corpus of South American Danish (CoSAmDa), which consists of transcribed recordings of sociolinguistic interviews with 95 speakers from the three settlements mentioned in Section 2 (Kühl et al. Reference Kühl, Heegård Petersen and Foget Hansen2019). The corpus contains 1,031,000 word tokens, including orthographic renderings of self-interruptions, filled pauses (transcribed as a hesitation word oe), back-channellings, etc.Footnote ⁵

The recording equipment used was Sound Devices 633 and 722, with a DPA 4066 omni-directional condenser microphone. In most cases, the microphone (a headset microphone) was positioned close to the mouth. In a few situations, when this position was inconvenient, a lapel microphone was used. In group interviews, the microphone was placed on a table near the speakers.

All speakers from Buenos Aires and Eldorado were included in the dataset for the present study. The dataset was supplemented with as many speakers from the Pampas as the allotted time for the annotation allowed, resulting in a dataset with 42 speakers, distributed according to gender and settlements as shown in Table 1.

Table 1. Speakers distributed by gender, settlement, average age, and age span

4.2 The baseline problem

The analysis compares the data with Modern Danish as represented by the speech in the LANCHART corpus of spoken contemporary Danish (Gregersen et al. Reference Gregersen, Maegaard, Pharao, Durand, Gut and Kristoffersen2014; see Section 6.4). This is not an ideal baseline for Argentine Danish as it will compare two products resulting from different historical processes, one taking place in Argentina, detached from the linguistic development in Denmark and under possible increasing influence of Spanish, the other taking place in Denmark under the influence of other sociocultural factors. An ideal baseline would be a corpus consisting of the Danish varieties spoken by the ancestors of this study’s speakers, the people who emigrated. Such data do not exist, to the best of this author’s knowledge.

Another obvious baseline would be to draw data from a corpus representing the speech varieties in Denmark at the time of emigration to Argentina. But the available Danish dialect corpora, CorDiale (Henrichsen Reference Henrichsen2004) and CoREST (Asmussen Reference Asmussen2017), do not allow user access to the sound files for annotation of the affrication. Besides, there are certain methodological problems in using these corpora as a baseline for Argentine Danish, since it is debatable to what extent these dialect corpora represent Danish (dialects) at the time of the emigration of the Argentine Danish speakers’ ancestors, 1850–1930. First, we do not know, for all Argentine Danish speakers, the exact home region of their ancestors and their linguistic backgrounds; an often-used broad denomination such as ‘Jutland’ can mean the presence and absence of a large number of linguistic features defining different Jutish dialects. Second, during the period of emigration, 1850–1930, there was a considerable de-dialectalization process in Denmark, due to industrialization, urbanization, and increase in educational level (Pedersen Reference Pedersen2003), factors which promoted dialect levelling or standardization so that the speakers of that period could have spoken anything from strong, traditional dialect to standard-like Danish. This has the implication for this study that the emigrants’ /t/-affrication could have been weak, rather strong, or totally absent (Brink & Lund Reference Brink and Lund1975:354).

6.1 Argentine Danish: descriptive statistics

The boxplots in Figures 2–4 show how the CoG values vary according to the factors Context, Gender, and Location (see Tables A1–A3 in the supplementary material).

Figure 2. Boxplot of means of CoG (Hz) by segmental context. Total mean CoG value = 5,005 Hz; total no. of tokens 2,282.

Figure 3. Boxplot of means of CoG (Hz) by Gender.

Figure 4. Boxplot of means of CoG (Hz) by Location.

Figure 2 shows that the context of /t^s/ before rounded front and back vowels triggers lower CoG values (below the average value 5,005 Hz) than before unrounded front vowels and the consonant [ʁ]. The mean CoG value for rounded vowels is 4,380 Hz (N = 666), and the mean for unrounded vowels is 5,261 Hz (N = 1,238). This indicates, as expected, labialization of /t^s/ as a cavity-expanding coarticulation. Figure 3 shows, also as expected, that /t^s/ produced by men has on average lower CoG than /t^s/ produced by women. Figure 4 shows that /t^s/ produced by speakers in Eldorado has lower CoG than /t^s/ produced by speakers on the Pampas and in Buenos Aires, indicating a stronger tendency for coarticulatory allophony in Eldorado.

The correlation of Age with CoG was tested with Pearson’s product-moment correlation efficient, but no correlation was found: cor = −0.02, t = −0.944, df = 2280, p = 0.345; N = 2,282. There is a considerable inter-speaker variation in the dataset, for both genders and in all three settlements. The mean CoG for men is 4,830 Hz, the range of means is 3,824–6,552 Hz (955 tokens); the mean CoG for women is 5,131 Hz, the range of means is 3,808–6,825 Hz (1,327 tokens).Footnote ⁹

6.2 Linear multi-factorial mixed-effect regression analysis of Argentine Danish /t^s/

The linear multi-factorial mixed effect regression analysis tested a number of models with the factors Context, Gender, Location, and Age with Wordform and Speaker as random factors.Footnote ¹⁰ The factor Context was defined with two levels, rounded and unrounded. Adding the parameters of tongue height or tongue position (front vs. back) did not result in a better model, that is, the parameters of tongue height and tongue position are not better predictors of the CoG value than the parameters of manner of articulation, labialization of /t^s/ caused by a following rounded vowel. Since roundedness as a distinctive feature is only relevant for the vowels, the consonantal context /ʁ/ (336 tokens) was excluded from further analysis, reducing the number of tokens to 1,946.Footnote ¹¹ The factor Location was defined as binary, Eldorado vs. not_Eldorado (Buenos Aires and the Pampas), as there was no significant difference between Buenos Aires and the Pampas, and as supplementary model testing showed that models with Location as a two-level factor were better than models with Location as a three-level factor.

The final model reported in Table 4 was reached by testing first the significance of one factor and then adding another factor either as a single factor or in a two-way or three-way interaction. If a factor as a single factor or as part of an interaction did not contribute significantly to the improvement of the model, it was discarded for further analysis. Models were tested against each other with the function Anova in the languageR package (Baayen Reference Baayen2008).

Table 4. Final model (N = 1,946). Random factors: Wordform (N = 397) and Speaker (N = 42)

Unexpectedly, the final model did not include Gender as a significant contribution to the variation of the CoG values, either as a single factor or in two-way or three-way combinations with any of the other factors. This goes against the general tendency for fricatives produced by men to have lower CoG values than those for women (Section 5.1). The model that was found to fit the data best included a three-way interaction Roundedness*Location*Age and three two-way interactions. Table 4, Figures 5–7, and the following text report the results of the analysis.Footnote ¹²

Figure 5. Estimated effect of Roundedness and Location on CoG.

Figure 6. Estimated effect of Roundedness and Age on CoG.

Figure 7. Estimated effect of Age and Roundedness: (a) subset = not_Eldorado, (b) subset = Eldorado.

For all plots in Figures 5–7 we see that a rounded context gives a lower CoG, as shown on the y-axis, with the predicted means of CoG given the reference level of the included factors. However, the difference between the effects of a rounded and an unrounded context varies according to other factors. The interaction Roundedness*Location (Figure 5) shows that in an unrounded context there is hardly any difference between the two locations; in a rounded context, i.e. before a rounded vowel, /t^s/ is more labialized in the group of Eldorado speakers.

The effect that Age has in interaction with Roundedness and Location is intriguing, as illustrated by Figures 6, 7a, and 7b. In Figure 6, for both locations not_Eldorado and Eldorado, we can see that the oldest speakers have a larger contrast between the effects of a rounded and an unrounded context than the youngest speakers. Figures 7a and 7b break up the three-way interaction Roundedness*Location*Age into the two subsets not_Eldorado and Eldorado. Figure 7a, subset not_Eldorado, reflects the general pattern shown in Figure 6. Figure 7b, subset Eldorado, shows the reverse pattern as the oldest speakers have a smaller contrast between the two contexts and a remarkably low CoG for /t^s/ in an unrounded context.

This result indicates age-related change internally in the Danish speaking communities in Argentina, but I shall refrain from speculating further on this result, as the data from Eldorado are too sparse to enable firm conclusions to be drawn. There are only 8 Eldorado speakers and only 6 years’ difference between the youngest in a ‘group’ of the oldest (79, 86, and 94 years) and the oldest in a ‘group’ of the youngest speakers (65, 71, 72, 73, and 73 years). Furthermore, the effect is low (Table 4).

To sum up, the articulation of /t^s/ in Argentine Danish is affected by linguistic context, the roundedness of the following vowel, and at the same time has sociolinguistic significance. A following rounded vowel results in a lower CoG value, i.e. reflecting a larger cavity before the contact zone of the tongue and the alveolar ridge. The effect that this has on the CoG is present in all three settlements, but it is significantly stronger among the Eldorado speakers. Unexpectedly from the descriptive statistics, Gender did not appear as a significant factor in the final model, and Age emerged as a significant but weak factor in the multi-factorial regression analysis.

6.3 Modern Danish /t^s/: summary

Modern Danish pronunciation of /t^s/ is represented by the speech of 34 speakers from the LANCHART corpus of Modern Danish (Gregersen et al. Reference Gregersen, Maegaard, Pharao, Durand, Gut and Kristoffersen2014).Footnote ¹³ The procedure for extraction and annotation was the same for this dataset as described for the Argentine Danish dataset. With the exclusion of outliers above and below 2.0 and −2.0 standard deviations away from the mean of the CoG value (Levshina Reference Levshina2015:59), and with exclusion of tokens of /t^s/ before /ʁ/, the dataset includes a total of 1,931 tokens produced by 16 men and 18 women, with a mean age of 57 years and an age span of 39–70 years. (Table A7 in the supplementary material breaks down the distribution of the tokens into Gender, Location, and Age.)

Anova testing for the CoG variation according to following phonological segment showed that this is statistically significant (F = 23.16, p < 0.001, df = 12; see Table A8 and Figure A3 in the supplementary material). As for Argentine Danish, rounded vowels trigger a lower CoG value: /u ʌ o ɔ y œ/ all have CoG values below the mean 4,981 Hz, with /ø/ a little above the mean, 4,995 Hz. This confirms that labialization also in Modern Danish is a cavity-extending coarticulatory feature for /t^s/. A series of Anova testing indicated a significant gender difference (F = 140.2, p < 0.001, df = 1; Table A9 and Figure A3), but the factor Location is not statistically significant in the Modern Danish dataset (F = 1.737, p = 0.157, df = 3; Table A10). As in Argentine Danish, the Modern Danish dataset contains significant inter-speaker variation (Tables A11–A12 and Figures A4–A5).

6.4 Comparison of Argentine Danish and Modern Danish

In the following, the CoG values for /t^s/ produced by speakers of Argentine Danish are compared with /t^s/ produced by speakers of Modern Danish. In both varieties, the articulation of /t^s/ is affected by the roundedness of the following vowel, but the question is whether this is the case to a larger extent in Argentine Danish than in Modern Danish, i.e. whether Argentine Danish has enhanced the coarticulation feature. In this analysis, Country (Argentina, Denmark), Gender (man, woman), Roundedness (rounded, unrounded), and Age (39–89 years) are independent factors. All tokens produced by speakers from Eldorado were excluded from the Argentine Danish dataset because the analysis above showed that these speakers had a stronger effect of labialization on /t^s/ than the other Argentine Danish speakers. In effect, then, the analysis shows the difference between Modern Danish and Argentine Danish as spoken in Buenos Aires and on the Pampas. Table 5 presents the dataset and Table 6 the model that best explained the variation in the dataset.

Table 5. The dataset for the comparison of Argentine Danish with Modern Danish

Table 6. Final model; observations (N = 3,553). Random factors: Speaker (N = 68) and Wordform (N = 904). (Not included: Eldorado speakers and occurrences before /ɒ/ and /r/.)

Figure 8 shows that there is a larger difference between the effects of rounded and unrounded vowels on /t^s/ in Argentine Danish than in Modern Danish; in other words that the effect of coarticulation is larger among the Argentine Danish speakers. Figure 9 shows, as expected, that tokens of /t^s/ produced by men have a lower CoG than those produced by women, irrespective of phonological context.

Figure 8. Estimated effect of Country and Roundedness on CoG.

Figure 9. Estimated effect of Gender and Roundedness on CoG.

The plots in Figure 10a and 10b break up the three-way interaction Gender*Roundedness*Country into Argentine Danish and Modern Danish. The plots show that the factor Gender has different effects in the two datasets: there is a smaller difference between the effects of Roundedness on /t^s/ for the men in the Modern Danish dataset than for the men in the Argentine Danish dataset.

Figure 10. Estimated effect of Gender on Roundedness: (a) Argentine Danish, (b) Modern Danish.

Figure 11 illustrates the interaction Age*Roundedness. It shows that the older the speakers, the larger the difference between the effects of a following rounded vs. unrounded vowel. Behind this result lies a significant effect of Age on the difference between the effects of rounded and unrounded vowels among the Argentine Danish speakers but not among the Modern Danish speakers, confirming the weak effect of Age illustrated in Figures 6 and 7a.

Figure 11. Estimated effect of Age and Roundedness on CoG.